ELECTRICITY OF VIET NAM - World Bank · SOCIALIST REPUBLIC OF VIET NAM ELECTRICITY OF VIET NAM...

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E533 Volume 7 SOCIALIST REPUBLIC OF VIET NAM ELECTRICITY OF VIET NAM POWER ENGINEERING CONSULTING COMPANY I Project: 30.2000 THAI BINH - HAI PHONG 220KV TRANSMISSION LINE Project: 50.2000 BAC NINH 220KV SUBSTATION AND CONNECTIONS Project: 51.2000 YEN BAI 220KV SUBSTATION AND CONNECTIONS ENVIRONMENTAL IMPACT ASSESSMENT (EIA) Compiler : Ngo Luu Hung Sub. Department Manager : Nguyen Van Ar TL. Department Manager Nguyen Duc Thanh Hanoi, A7 'M December 2001 (N Blp) EDIRECTOR OF PECC 1 LF VAN HC( Mr.F-rnP Public Disclosure Authorized Public Disclosure Authorized Public Disclosure Authorized Public Disclosure Authorized

Transcript of ELECTRICITY OF VIET NAM - World Bank · SOCIALIST REPUBLIC OF VIET NAM ELECTRICITY OF VIET NAM...

E533Volume 7

SOCIALIST REPUBLIC OF VIET NAM

ELECTRICITY OF VIET NAMPOWER ENGINEERING CONSULTING COMPANY I

Project: 30.2000

THAI BINH - HAI PHONG 220KVTRANSMISSION LINE

Project: 50.2000

BAC NINH 220KV SUBSTATIONAND CONNECTIONS

Project: 51.2000

YEN BAI 220KV SUBSTATIONAND CONNECTIONS

ENVIRONMENTAL IMPACT ASSESSMENT(EIA)

Compiler : Ngo Luu HungSub. Department Manager : Nguyen Van ArTL. Department Manager Nguyen Duc Thanh

Hanoi, A7 'M December 2001(N Blp) EDIRECTOR OF PECC 1

LF VAN HC(

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TABLE OF CONTEN'T'S

Executive summary

Chapter 1 - Introduction.

1. Environmental Concern in Power Sector of Vietnam

2. Legal and Administrative Framework

3. Objectives of Report

4. Methodology

Chapter 2 - Project Description.

1. Name of Project

2. Implementing Agencies

3. Socio-economic Targets of Project

4. Main Features of Project

5. Proposed Schedule of Project

6. Budgetary

Chapter 3 - Present Status of Project Site.

1. Physical Environment of Project

2. Ecological Environment of Project

3. Socio-economic Condition

Chapter 4 - Project Impact on Environment.

1 Impact on Physical Environment.

2. Impact on Biological Environment and Eco-System

3. Impact on Human.

Chapter 5 - Analysis of Alternatives

Chapter 6 - Mitigation Measures for Negative Impacts on Environment.

1. General Measures

2. Technical Measures

Chapter 7 - Public Consultation and Information Dissemination

1 Aims of public consultation and information dissemination

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2. Pubiic consult Iation and informatin dissemirnation during p1rojecpr-eparatlon sta(gc

3. Public consultatioin and informyation( dissemination during projcctimplementation stage

Chapter 8 - Environmental Management Plan

1. EIA participation and implementation

2. Environmental impact and mitigation measures

3. Monitoring

4. Capacity development and training

5. Implementation schedule and cost estimate

Chapter 9 - Summary of Environmental Impact Assessment

Chapter 10 - Conclusions

Annexes

Annex 1 - Areas Traversed by the Transmission Line

Annex 2 - Statistics on Affection within Project ROW

Annex 3 - Statistics on Temporary Land Requisition

Annex 4 - Statistics on Permanent Land Acquisition

Annex 5 - Project Implementation Schedule

Annex 6 - List of Associated Reports

Annex 7 - Agreement on Construction location of substation and layout ofline route of the People's Committee provinces

Annex 8 - Location of substation and layout of line route

ABBREVIA TVIONS

** ***

EVN - Electricity of Vietnam

WB - World Bank

PECCI - Power Engineering Consulting Company N°l

NPPMB - Northern Vietnam Power Project Management Board

PMB - Project Management Board

PPS - Provincial Power Service

NGO - Non-gavernmental oganization

ROW - Right-of-way

T/L - Transmission Line

HV - High Voltage

EIA - Environmental Impact Assessment

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EXECUTIVE' .SUMMARY

VIETNAM

SYSTEM EFFICIENCY IMPROVEMENT, EQUITIZATION ANDRENEWABLE PROJECT

Introduction

The System Efficiency Improvement, Equitization and Renewable Project isincluded of construction and rehabilitation of a number of power plants andnetworks. The Government of Vietnam is seeking assistance from the World Bankto improve the efficiency of its power sector so that poverty alleviation programscan take root. Three of the projects component are the 220kV transmission linefrom Thai Binh to Hai Phong, Yen Bai 220kV substation and connections, BacNinh 220kV substation and connections.

According to the Bank's requirement, an environmental assessment of theproject proposed for Bank financing to ensure that the project is environmentallysound and sustainable, and thus to improve decision making. The EIA reportfollow WB guidelines for mitigative strategies for the transmission line and WBdirectives cover the following issues:

Project Description:

This chapter concisely describes the proposed project and its geographic,ecological, social context. It also gives the project features, location,implementation schedule and land requirement.

The line right-of-way (ROW) would be 21m wide for the 220kV voltageT/L, from which all housing and buildings would be removed and all trees higherthan 4m must be cut. Construction access roads would be built from the mainroads as required, existing tracks would be used where possible. The constructioncamp would be laid for workers and technicians in the headquarters of the projectcommunes.

The project will include the following items:

- Thai Binh - Hai Phong 220kV T.L, ACSR 500/64, 54km of total length.

- Yen Bai 220kV substation and connections:

+ Yen Bai 220kV substation: 220/1 10/10kV - lxI25MVA

+ Two I 10kV T.L (two circuits), ACSR-185/29, 4km of total length

- Bac Ninh 220kV substation and connections:

+ Bac Ninh 220kV substation: 220/110/10kV - xlx25MVA

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tn Olle 1'1 V T.L. (two circuits), ACSR-185/29, 6. 1km of total length

[we i iU kV T.L (two circuilts), ACSR-185/29, 3.2km of total length

Legal and Administration:

This chapter presents the policy, legal and administrative framework withinwhich the EIA is prepared. It also mentions state pollution regulatory framework,and the relevant environmental standards

Present Status of Project Site

This chapter assesses the dimensions of the study area and describesrelevant physical, biological and socio-economic conditions of the project areas

Project Impacts on Environment

Fundamentally, this chapter identifies expected positive and negativeimpacts, in quantitative terms to the extend possible. It details the range ofenvironmental impacts associated with the transmission system, switchyards,substations, line ROW, access roads, construction, operation and maintenanceactivities. All of these issues will be addressed during the conceptual design andsome will be addressed during the detailed design:

i. transmission line ROW and substation site impacts on land use:residential, agricultural, forest areas, wastelands, etc;

ii. habitat fragmentation and invasion of exotic vegetation species;

iii. access roads, increase in hunting, exploitation of forest resources,induced development due to new access corridors, human settlement;

iv. clearing (erosion, loss of habitat) and control of vegetation in ROW;

v. impaired cultural or aesthetic resources because of visual impacts;

vi. erosion during construction, and along access roads, substation andtransmission tower sites;

vii. potential electromagnetic frequency radiation effects, audible noisealong transmission line route, exposure of substation operationpersonnel to potential EMF hazards;

viii. aircraft hazards from transmission line and towers;

ix. resettlement of project affected persons.

Mitigation Measures:

This chapter primarily deals with mitigation measures and any residual orirreversible negative impacts that can not be mitigated. It also exploresopportunities for environmental enhancement and compensatory approaches.

The following route selection criteria used calls for the route selection toavoid the following types of environmentally sensitive areas:

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. Dense forest areas must be traversed, forest ofl low econiomic andecological value are preferr ed, (according to thie law on Luvir(vlonment ofVietnam, wood cutting is strictly controlled);

Residential structures and settlements;

Holy places, archeologically sites and government sites;

Mangrove forests, national parks and other conservation areas;

Parallel with, or close to telephone and telegraph cables;

. Airports.

Analysis of Alternatives:

This chapter systematically compares feasible alternatives to the proposedproject site, technical aspects, management and operation - including the "withoutproject" situation - in terms of their potential environmental impacts, the feasibilityof mitigating these impacts. Each alternative quantifies the environmental impactsbasing on the investigation results. It explains the basis and rationales for theselected routes and substation site.

Transmission line routes: some alternative routes were analysed for thetransmissipn line. The route that would cause minimum impact on the environmentwas selected, especially from the viewpoint of resettlement limitation.

Location of substations and tower foundations: The substations and towerfoundations will be located in the wasteland or public land areas to avoid impacton houses and properties.

Public Participation and Information Dissemination:

This chapter talks about aims of public participation and informationdissemination and how it takes place during different stages of projectimplementation. It describes local public participation and disclosure processes.Two public disclosure events are planned: the first soliciting comments for the lineroute and TORs and the second, comments upon the conclusion of the draft EIA.These comments have been recorded and summarized in the draft EIA. It alsopoints out types and time of disclosure, and where the draft EIA is on display forpublic review.

Environmental Management Plan

According to the WB OP. 4.01, the EMP is essential elements of EIA reportfor category A projects. The EMP consists of mitigation, monitoring measures tobe taken during implementation and operation to eliminate adverse environmentaland social impacts, offset them, or reduce them to acceptable levels. It alsodiscusses needs for institutional strengthening such as training on environmentalissues.

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Summary of EIA

This chapter summarises basic featnres of the project and comments ofcnvir-onimental specialists. It also describes environmental concerns and givesrecommendations on mitigation measures.

Conclusions

Some conclusions have been made for the areas traversed by the line onproject topography, construction of the project, etc.

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Chapter 1

INT'lRODUCTION

1. Environmental Concern in Power Sector of Vietnam

Strategy for electricity industry development in Vietnam period 2000-2020and beyond in recent master plan stated that electricity of Vietnam needs to followsome strategic direction are outlined below:

* Hydro energy should be given first priority in energy development dueto the very large potential, however large scale hydro power plantsshould not be very carefully considered because of the problems ofresettlements, submerged land...

Clean coal technology is being considered for both in the North. The North isendorsed with very available coal sources and hydro sources.

From the viewpoint, it is believed that power sector of Vietnam has the targetof reducing the environmental impact by those mainly from thermal power station.Thermal power stations in Vietnam now are set in the plan for rehabilitation,upgrading and retrofitting. New stations are to be equipped with advancedtechnology such as Pha Lai thermal station II, built with technology that couldlimit the SOx, C02 to the very low level.

Thus development of power sector has received concerns on environmentamong EVN executives. For overhead line project it could contribute very lowlevel of environmental emission but environmental impact on wildlife, soil,water... Those are to be addressed in the assessment report.

2. Legal and Administrative Framework.

- The Law on Environmental Protection dated 27/7/1993 of the socialistrepublic of Vietnam.

This law stipulates the prevention from bad impacts on the environment andenvironmental protection as well as improvement of ecological environment."Environment" is defined as the natural environment and the one created byhuman comprising air, water, sea, land, mineral mines, forests, grass fields,wildlife, trees, natural and historical sites, natural conservation areas, places ofinterest, cities, villages, etc.

- The Law on Forest Protection and Development issued in 1992.

This law regulates the forest management, protection, development andexploitation, prevention of woodcutting, forest destroy. It also encouragesorganizations and individuals to protect and develop forests so as to make morebenefit of the forest.

- Vietnamese Standard on Environment issued by MOSTE in 1995

- The Government Decree N° 175/CP dated 18/10/1994 guiding theimplementationi of the Law on Environmental Protection.

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This decree uidelilnes execution of law oni enivironmrilent protection and thescope applicationi of the law. This law details requirements for EIA; this report wascompiled in accordance with this law and WB requirements.

- The Govenmment Decree N° 54/1999/ND-CP dated 08/07/1999 on Protectionof High Voltage Networks.

- The Decree N° 70-HDBT dated 30/4/1987 of the Council of Ministersregulating the safety casement of the high transmission lines.

- The criteria on water quality TCVN 5942 - 1995, TCVN 5944 - 1995

- The criteria on air quality TCVN 5949 - 1995

- The criteria on noise TCVN 5949 - 1995

Organization, individuals in the course of their activities must not cause noiseor vibrations that exceed permissible limits, harming the health of surroundingpeople and adversely affecting their life. The people's Committee at all levels shallbe responsible for the implementation of noise control measures in areas ofhospitals, schools, public offices, and residential quarters.

- The criteria on pollution TCVN 5937 - 1995

- The circular N° 490/1998/IT-BKHCMMT dated 29/4/1998 of MOSTEguiding EIA preparation and appraisal.

- The code on Electrical Equipment Installation - Part II - Transmission lines11 TCN-1984.

In this standard the minimum clearance between the live parts of the line andtrees are identified. Trees outside the ROW must ensure two meters clearancebetween conductors and tree parts when falling. The clearance between top of thetrees and conductors in the ROW must be not less than six meters. The ROWidentified by two parallel planes is seven meters far from outer conductors whenthey are vertical and not less than two meters when conductors are at maximumswing angle.

- The preliminary survey report on the transmission line, which is planned tobe financed by the World Bank.

According to the Bank's requirement, an environmental assessment of theproject proposed for Bank financing to ensure that the project is environmentallysound and sustainable, and thus to improve decision making. The EIA reportshould follow WB guidelines for mitigative strategies for transmission lines andWB directives:

+ Operational policies OP. 4.01: environmental assessment

+ Electric power transmission systems, environnmenital sourcebook, WBtechnical paper No.154

3. Objectives of Report.

According to the stipulations of Ministry of Science, Technology andEnvironment (MOSTE) of Vietnam, the 110kV and 220kV power transmission

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lines are classified as type 11 project in terms of environmental consideration. Thisenvironmental evaluationi aims at:

- Describing the environment of the project area.

- Identifying potential adverse impacts on the environment during the projectconstruction and operation.

- Classifying the project impacts.

- Proposing the mitigation measures for the negative impacts as a result of theproject development.

- Proposing an environmental management plan including mitigation measuresfor negative impacts, measures for control of deforestation, pollution control,resettlement action plan and environmental monitoring.

- Recommending on the monitoring and evaluation programme.

- Specifying the cost of mitigation measures.

- Preparation of EIA report following the guidelines of Vietnamesegovernment with modifications to meet the WB guidelines.

4. Methodology:

Basing on the WB guidelines OP. 4.01 and Decree N° 175/CP dated18/10/1994 of the Prime Minister, the environmental impacts are classified asfollows:

a. Small insignificant impact or small impact: for this type of impact, nomitigation or protection measures are required.

b. Moderate impact: mitigation and protection measures are envisaged.

c. Major impact: a thorough study is needed to find optimal mitigationmeasures.

(hapter 2

PROJE(CT DESCRIrTIoN

1. Name of project:

- Thai-Binh - Hai Phong 220kV Transmission line.

- Yen Bai 220kV substation and connections.

- Bac Ninh 220kV substation and connections.

2. Implementing Agencies:

Investor Electricity of Vietnam

Project Manager : Northern Vietnam Power Project Management Board

Consulting company: PECCI

3. Socio-economic Target of Projects:

The Thai Binh - H'ai Ph6ng 220kV transmission line and Bac Ninh 220kVsubstation and 220kV Yen Bai substation are planned to supply electricityadequately to Thabi Binh, Bac Ninh, Yen Bai, Lao Cai, Ha Giang provinces, H'aiPh6ng city, and adjacent provinces for purposes of meeting adequately the socio-economic development in these areas in correlation with the power capacity of thepower plants in the region and reliability of the national power network. Theseprovinces are facing difficulties in developing their infrastructure as well as theeconomy, low population density. Thus, EVN has considered and invested in theseones with WB'"s loans.

The projects aims are:

- To serve people living Thai Binh, Bac Ninh, Yen Bai, Lao Cai, Ha Giangprovinces, Hai Ph6ng city. These areas have low population density, the economymainly bases on agriculture and small business, exploitation of breeding andforestall products. The industry of the some region develops more slowly thanothers of the country and makes up a small part. This is a reason that VietnamGovernment lays down as policy development of some Industrial Zones so as topromote the regional development. The projects to be constructed are to supplyelectricity to some Industrial Zones and Northern provinces as well as reinforcethe safety of Vietnam power networks.

- To intensify the power supply for the some area above - one of the keyeconomic zones in the country by low-cost energy sources produced fromhydropower plants and thermo-electricity plant; to satisfy the rapidly increasingload demands of the area in the stage of 2005-2010 and later.

- To reduce the power losses, energy losses on the network, contributing toimprovement of effective power business of EVN.

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- To strengtheni the reliability of the powel- supply for the existing nrcworkcompared to thie ca•c of have no projects.

- To create a strong coordination betweeni the areas in Vietnamiiese powersystem, strengthening the reliability and safe operation for the entire system.

4. Main Features of Project:

The Thai Binh - Hai Ph6ng 220kV transmission line is planned to supplyelectricity adequately to Thai Binh province, H'ai Ph6ng city.

The 220kV Yen Bai substation and 11OkV branch are planned to supplyelectricity to Yen Bai, Lao Cai, Ha Giang provinces and other areas in Son La.Tuyen Quang, Phu Tho, Lai Chau provinces.

The 220kV Bac Ninh substation and 220kV, 11OkV branch are planned tosupply electricity to Bac Ninh province and to support a existing power network.

Main features:

Thai Binh - Hdi Ph6ng 220kV transmission line

- Rated voltage : 220kV

- Starting point : portal of Thai Binh 220kV substation

- Ending point : portal of (Hai Ph6ng) D6ng H6a 220kV substation

- Length of the line : 54 km

- Number of circuits : 2

- Conductor : ACSR 500/64

- Shield wires : TK-70 and OPGW - 70

- Zinc-galvanized steel tower, bolt-attachment

The Yen Bai 220kVsubstation and connections.

- The 220kV Yen Bai substation will be designed with rate power of2x25MVA. In the first pcriod, the 220kV Yen Bai substation will be installed one125MVA transformer. The substation shall be operated with three voltage level:220kV, 11 OkV and 1OkV.

* 220kV side:

- In the future, if necessary to increase, it will be used a type of a doublebusbar. In this period, the 220kV side will be used a block of one outgoing feederand one transformer, however, it could be easy to extend a double busbar.

* 11 OkV side:

The I lOkV side will be used the double busbar with transfer busbar diagram.In this period, it will be installed all swithgear for five outgoing feeder and onetransformer feeder and one transfer feeder.

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* I0kV sidc:

TIher-e will be it type of a single busbar diagram with 10kV distributioncomplete cubicles, indoor type include one incoming cubicle, one voltage cubicleand one fuse cubicle.

- Total land area: 31,750 m 2

- Power demand at 2005: 173,0 MW

To construct 11 OkV branch from 220kV Yen Bai substation to existing ThacBa - Lao Cai 11OkV line.

Number of line : I (two circuits)

Length : 3 km

Conductor : ACSR-185/29

Shield wire : TK-50

Tower : Double lines steel tower

Foundation : Site precast reinforced concrete ones.

To construct l1OkV branch from 220kV Yen Bai substation to existing YenBai - Nghia Lo 11 OkV line.

Number of line : I (two circuits)

Length : 1 km

Conductor : ACSR-185/29

Shield wire : TK-50

Tower : Double lines steel tower

Foundation : Site precast reinforced concrete ones.

The 22OkVBac Ninh substation and connections

- The 220kV Bac Ninh substation will be designed with rate power of2x25MVA. In the first period, the 220kV Bac Ninh substation will be installedone 125MVA transformer. The substation shall be operated with three voltagelevel: 220kV, 110kV and lOkV.

- 220kV side: There will be a type of muti-angular diagram with four circuitbreakers. In this project, the 220kV side of Bac Ninh substation is used multi-angular diagram with three circuit breakers to include one transformer feeder andone outgoing feeder to Pha Lai and one outgoing feeder to Soc Son and onefeeder to enclose the delta.

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- l1(kV side: 'the I OkV side will be used the double busbar diagram. In thisproject, it will be installed all swithgear for four outgoing feeders and onetransformer feeder and one coupling feeder.

- lOkV side: There will be a type of a single busbar diagram with lOkVdistribution complete cubicles, indoor type include one incoming cubicle, onevoltage cubicle, one fuse.

- Total land area: 17,100 m 2

- Power demand at 2005: 154,4 MW

To construct 220kV branch from 220kV Bac Ninh substation to existing PhaLai - Soc Son 220kV transmission line.

Number of line : I (two circuits)

Length : 6.1 km

Conductor : ACSR-520/67

Shield wire : TK-70 and OPGW - 70

Tower : Double lines steel tower

Foundation : Site precast reinforced concrete ones.

To construct two 1 OkV branchs from 220kV Bac Ninh substation to existingPha Lai - Dong Anh 11 OkV line.

Number of line : 2 (two circuits)

Length :1.6km and 1.62km

Conductor : ACSR-185/29

Shield wire : TK-50

Tower : Double lines steel tower

Foundation : Site precast reinforced concrete ones.

5. Proposed Schedule of Projects.

Thai Binh - Hai Phong 220kV Transmission line

- Feasibility Study Preparation 06/1999

- Approval of FS 12/1999

- Preparation of RAP, EIA 07/2001

- Approval of RAP, EIA 12/2001

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- Survey, Completion of Detailcd El"ineering Design 07/2001

- Approval of Detailed Engineering l)Dc>igII 08/2001

- Completion of Constructioni Drawings 01/2002

- Site Clearance, Compensation 09/2002

- Construction 03/2004

- Completion 06/2004

Yen Bai 220kVsubstation and connections

- Feasibility Study Preparation 10/2001

- Approval of FS 12/2001

- Preparation of RAP, EIA 12/2001

- Approval of RAP, EIA 01/2002

- Survey, Completion of Detailed Engineering Design Ith Quarter of 2002

- Approval of Detailed Engineering Design 3th Quarter of 2002

- Bidding document for supplying equipment 3h Quarter of 2002

- Bidding document for construction and installation 3h Quarter of 2002

- Site Clearance, Compensation 10/2003

- Construction 4h Quarter of 2003

- Completion 4th Quarter of 2004

Bac Ninh 220k V substation and connections.

- Feasibility Study Preparation 6/2001

- Approval of FS 12/2001

- Preparation of RAP, EIA 12/2001

- Approval of RAP, EIA 01/2002

- Survey, Completion of Detailed Engiineering Design Ith Quarter of 2002

- Approval of Detailed Engineering Design 3th Quarter of 2002

- Bidding document for supplying equipment 3th Quarter of 2002

- Bidding document for construction and installation 3th Quartcr of 2002

- Site Clearance, Compensation 10/2003

- Construction 4th Quarter of 2003

- Completion 4th Quarter of 2004

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6. Project Budget.

['he totai investmenilt or th. pio-jeer i estimated at:

Thai Binh - Hai Phong 220kV Transmission line

VND 111,54 billions for 220kV transmission line. Of which:

- Cost for construction VND 90,61 billions

- Spare cost and others: VND 20,93 billions

220kV Yen Bai substation and connection: VND 82,478,870,979

The total investment for 220kV Yen Bai substation is estimated at: VND65,465,260,320

Of which:

- Cost for equipment : VND 34,946,226,963

- Cost for construction : VND 14,464,489,860

- Cost for others : VND 10,103,156,195

- Spare cost : VND 5,951,387,302

* The total investment for communication system is estimated at: VND9,371,518,976

Of which:

- Cost for equipment : VND 1,696,718,482

- Cost for construction : VND 6,269,704,593

- Cost for others : VND 553,139,630

- Spare cost :VND 851,956,271

* The total investment for 1 OkV branch line is estimated at: VND7,642,091,684

Of which:

- Cost for construction : VND 5,679,094,941

- C'ost for others : VND 1,268,261,135

- Spare cost : VND 694,735,608

22OkVBac Ninh substation and connection: VND 93,394,838,320

* The total investment for 220kV Bac Ninh substation is estimated at: VND75,366,273,000

Of which:

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- Cost for equipment : VND 43,044,700,716

Cost for construction VND 14,899,744,269

- Cost tor others : VND 10,570,348,461

- Spare cost VND 6,851,479,345

* The total investment for communication system is estimated at: VND3,096,551,000

Of which:

- Cost for equipment : VND 2,016,564,045

- Cost for construction : VND 468,918,305

- Cost for others : VND 329,563,752

- Spare cost : VND 281,504,610

* The total investment for 220kV and 11OkV branch lines is estimated at:VND 19,932,014,320

Of which:

- Cost for construction : VIND 16,379,726,900

- Cost for others :VND 1,740,286,118

- Spare cost :VND 1,812,001,302

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Chapter 3

PRESENT STATllUS OF PRO.JECT SITE

The Thai Binh - Hai Ph6ng 220kV transmission line is planned to supplyelectricity to Thai Binh province H'ai Ph6ng province. Two projects to contruct of220kV Yen Bai substation and 220kV Bac Ninh substation are planned to supplyelectricity to Yen Bai, Lao Cai, Ha Giang, Bac Ninh provinces and other areas inSon La, Tuyen Quang, Phu Tho, Lai Chau provinces and to support a existingpower network in Northern of Viet Nam.

1. Physical Environment of Project:

1.1. Topography, Geomorphology, Hydrogeology:

The topography of Thai Binh - Hai Phong 220kV transmission line is mainlyflat fields for rice and crops, crossing traffic roads, power lines, communicationline, across canals and channels, particularly two large rivers. Generally, thetopography is rather complicated. The line sections passing paddy fields arefrequently water-submerged, the geography is appreciatively weak. Water sourcesunder ground at deep level of from 1,2m to 4m.

Topography of the and I lOkV transmission lines and Yen Bai 220kVsubstation is rather complicated. There are mainly high mountainous areas that arestrongly divided. The elevations are lower from the West to the East with theconsiderably divided topography. The soil structure is quarterly sedimentcomposed of clay layer, loam, sandy clay with broken stone and boulder. Watersources under ground at deep level of from 2m to 6m.

The topography of 1 lOkV and 220kV transmission lines and Bac Ninh 220kVsubstation is mainly flat fields for rice and crops, crossing traffic roads, powerlines, communication line, across canals and chamnels, particularly one river.Generally, the topography is rather complicated. The line sections passing paddyfields are frequently water-submerged. The project area has soil layer withthickness of 0,3m-0,5m. Soil structure is quite stable. Water sources under groundat deep level of from 1,Om to 2,5m.

1.2. Meteorology:

The areas belong to hot humid tropical weather, which is directly affected bythe northeast monsoon in the winter and southeast monsoon in the summer. Yearis divided in to two separate seasons: Rainy season starts in May and lasts untilOctober, accounting for 80% of annual rainfall; Dry season starts in July and lastsuntil May of the next year. The rainfall ranges from 1400mm to 2000mm.

2. Ecological Environment of Project.

2.1. Features of Project Area:

The topography of Thai Binh - Hai Ph6ng 220kV transmission line is mainlyflat surfaces, fields of rice and crops, scattered orchards.

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The topography of Yen Bai 220kV stubstation and connection: The populationmainly concentrates in small villages in low valleys, narrow delta band alongspring, stream and rivers where may supply water for rice, subsidiary andindustrial crops. The main kinds of trees are: rice, subsidiary crops and low hillsfor timbers.

The topography of 110kV and 220kV transmission lines and Bac Ninh 220kVsubstation is mainly flat surfaces, fields of rice and crops, scattered orchards.

2.2. Ecological Areas in Project ROW.

The Thai Binh - Hai Phong 220kV transmission line is planned to locate on VfiThu, Dong Hung districts (in Thai Binh province), Vinh B'ao, Tien Lang, An Laodistricts, Kien An town (in Hai Phong province).

Layout of line route of 110kV branch lines connect to 220kV Yen Baisubstation are located in Yen Bai province. Layout of line route of 220kV branchline connects to 220kV Bac Ninh substation is located in Que Tan commune ofQue Vo district, Bac Ninh province and Yen Lu commune of Yen Dung district,Bac Giang province and layout of line route of 1 10kV branch lines are located inViet Hung commune and Bong Lai commune of Que Vo district, Bac Ninhprovince..

The ROW will be temporarily affected when stringing lines and erectingtowers but not affected for plants under 4m when completing construction.

The 220kV line ROW is 10.5m wide on both sides of the central line.

The 110kV line ROW is 7.5m wide on both sides of the central line.

Total land area of 220kV Yen Bai substation are 31,750 m 2

Total land area of 220kV Bac Ninh substation are 17,100 m 2

Of which:

- Areas of different land in the ROW are detailed in Annex 2

- Areas of different land acquired ROW arc detailcd in Annex 3

- Areas of different land acquired permanently are detailed in Annex 4

3. Socio-economic Condition.

The economies of the Thai binh, Bac Ninh, Yen Bai provinces of the projectmainly base on agriculture and forestry. Their industries are small with the mainfocuses on processing of agricultural and forestall products, production ofconstruction material. The economic growth rate in recent years is much increasedthanks to the development of goods production, of some industrial trees, orchardtrees with high economic value, and local transportation network. Yet, someprovinces are still in difficulty with low income per head.

Survey results on socio-economic characteristics of the locals

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Chapter 4

PRO(JECT IMPACTS ON ENVIRONMENT

Thai Binh - Hai Phong 220kV transmission line and Thai Binh 220kVsubstation traverse Vii Thu, Dong Hung districts (in Thai BTnh province), ViinhBao, Tien Lang, An Lao districts, Kien An town (Ha'i Phong city). The natural andsocial conditions of these districts are still difficult, infrastructure is poor.

Layout of line route of 110kV branch lines connect to 220kV Yen B3aisubstation are located in Yen Bai province. Layout of line route of 220kV branchline connects to 220kV Bac Ninh substation is located in Que Tan commune ofQue Vo district, Bac Ninh province and Yen Lu commune of Yen Dung district,Bac Giang province and layout of line route of 110kV branch lines are located inViet Hung commune and Bong Lai commune of Que Vo district, Bac Ninhprovince.

The specific impacts generally could be classified as positive and negativeimpacts as below:

* Positive impacts:

Benefit from projects:

- Upgrade and transmit electric to transmission and distribution networks ofmany different provinces in Northern Region of Viet Nam.

- Improve and increase credibility and efficiency of distribution networks.

- Contribute part in the development of electricity in the north provinces.

- Contribute in the development of industry, agricultral and other services.

- Increase income of people in the areas.

* Nagative impacts:

- Out of the above, the projects also may have negative impact onenvironment as following:

- Impact on land within affection areas.

- Impact on human.

- Causing electric field impact on existing infrastructure.

However, as the projects scope is small the lines are not so long, the projectimpacts on the physical environment, biological sources, ecosystem areinsignificant in terms of the impact nature and scope. The specific impacts of theproject on the environment are:

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1. Impact on Physical Environment:

The impact on physical environment considered herein are the affection onwater, air and hydrosphere.

According to the above mentioned characteristics and scope of the projects,the transmission lines and substations would have almost no impact oninsignificantly small impact on physical environment.

According to the criteria on environment: quality of water, air and land, theproject would not produce waste that may pollute the water (surface andunderground water), air and soil in the vicinity of the project. The projectconstruction and operation would not result in a change of characteristics or valueof land, water and air.

Nevertheless, the project construction may have impacts on land form due toconstruction of sustation and tower foundation. It is necessary to have mitigationmeasures during stage of substation construction and conductor stringing due toerosion, rockfall, hazardous conditions may occur such as: reduce soil quality dueto improper disposal of material waste; landslide during site preperation and towerfoundation works on hills or mountainous areas; potential contamination of soiland water from improper construct of substation or maintenance and fuelingequipment as well as lubricants spillage.

2. Impact on Biological Environment and Eco-system:

To construct and operate transmission lines and substations may cause somenegative impacts. VietNam standard on safety ROW network is stipulated asfollows:

The easement of the 220V lines is limited by 2 parallel planes, 6m out of theouter conductors when they are vertical. Trees outside the easement must becontrolled to ensure Im clearance in all condition. The clearance from conductorto the tree top in the ROW must be 2 4m.

All trees of or would be > 4m in the line ROW must be cut down. So if theline routes pass natural and industrial forests with trees higher than the limit, suchtrees must be cut down. This would have certain impact on the biological andecological environment.

Besides, other crops in the line ROW such as rice, vegetables may be affectedas well during construction process (tower transport and wire pulling). However,these are temporary affections (for 3 - 6 months).

Protection of threatenned endemic species is very important currently thatincluding nature reserves, species reserve habitant reserves and landscape reserves.hence one of the most important considerations is an evaluation of alternative andlocation of substation. Many of the environmental impacts resulting from T/L canbe avoided or minimized by careful ROW selection. Consequently impact onindustrial trees, rice and ci-ops, etc cuold be mitigated and remain the ecologicalblance.

3 subprojects of efficiency improvement of 220kV transmission network ofwhich 110kV T/L connect to Yen Bai 220kV substation would traverse partsplanted forest. Thai Binh - Hal Phong 22OkV T/L and T/Ls connect to Bac Ninh220kV substation would traverse parts agricultural land.

There may cause small impacts on eco-system, natural sourses but the blanceof ecological system would not be affected. A mumber of thse impacts wassummarized with detail in the Annex 3.

3. Impact on Human.

3.1. Impact on Residential Areas:

As this is a distribution network, the network serves individual customer. For asuitable network configuration and low investment, the line routes must be closedto the residential areas and usually closed to transportation roads so as to facilitateconstruction, operation and management. The line routes turn frequently to avoidhouses.

As such, project construction would cause impact on the residential areas dueto houses in the ROW. However, the survey data show that there are 49 housesaffected in the ROW (see Annex 5).

3.2. Impact of Electric Field on Human and Animals:

Basing on the criteria of the power sector: "Limitation for power frequencyelectric field intensity" and stipulations on the working environment "Limitation forelectric field intensity, working time in the affected area".

The permissible working time per one day and night would be depend on theelectric intensity as the following table:

Electric intensity < 5 5 8 10 12 15 18 20 20< E < 25 > 2(kV/m)

Permissible unlimited 8 4.25 3 2.2 1.33 0.8 0.5 1/6 0working time perday and night (h) _ _________

Accordingly, the electric field affected area is the area with the powerfrequency electric field intensity of > 5kV/m. For inhabitants living under the lines,the safe electric field intensity is < 5kV/m. However, the electric field of the 220kVlines is small that would not affect human's health in the line ROW.

3.3. Impact of Electric Field on Telecommunication Projects:

Telecommunication projects include:

- Communication lines going closed to or across the 220 kV T/L.

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- Audio frequency, PLC telephone lines going closed to or along the lines.

220kV substations and T/l. of the subprojects were designed far fromtelecommunication projects. Other inter-district and inter-commune communicationlines are not very important that T/L was designed to cross or clossed to with veryfew time. Nevertheless, thelengths of portions tobe crossed are quite short thatimpact of electric field would be insignificant.

3.4. Impact on Lands, Historical Site:

The project traverses areas of different localities. Thus, the impacts on thelands, army sites, airports, historical sites and pagodas have been considered in thesurvey and design stage. This is criteria for the line route selection so such impactswould be avoided.

3.5. Impact on-Safety : Explosion and Fire.

Explosive substances will not be used in construction, the only constructionmeasure is excavation. However, fire due to cooking must be taken intoconsideration in the construction period.

3.6. Impact of Noise, Vibration, Pollution:

Machine operation during construction may cause noise and vibrationincluding trucks for equipment and material transportation. However noise,vibration level is less than 5OdBA (pernitted noise level).

As the designed voltage levels are mainly 220kV and 1 10kV, noise caused byarcing flashover in light rain or humid condition is much lower than pernissiblelevel that will not be considered.

Pollution of dust, noise to human residential area may occur duringconstruction period. However load truck transporting material on roads nearresidential areas would be covered. The noise level from trucks is not exceed levelof 8OdBA in comparison with Vietnam Standard.

Industrial waste (fueling, lubricants spills...) may caused when the substationwas defected. However, in design and installation stage a stagnated tank to disposewaste material would be built. Industrial waste therefore shall not spill or leakedout to surrounding areas.

As the project comprises 2 newly built substations, transformers,disconnecting equipment's will not used oil insulation types of PCB which wasforbidden to use by the government (PCB contained POPs element that was one ofthe 12 difficulty disintegrated organic elements). These to be specified in thebidding documents of substation.

According to analysis above, pollution of waste, dust, noise and vibration tosurrounding areas of the project would not be a considerable impact.

3.7. Worker's Health and Safety.

Operators and workers must strictly follow the state regulations on workingsafety. Thoroughly consider the following safety measures for construction workers:

- Mine and bomb clearing (if any) prior to construction

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- Safety measures for equipment and material transportation

- Excavation and foundation construction.

- Tower erection, arm and insulator installation

- Wire stretching and tensioning, sagging, installation of other fittings.

Besides, consider sanitary and medical measures to prevent and treat commondiseases as: malaria, typhoid fever, diarrhoea, etc. Apply positive measures to limitthe impacts on worker's health during construction period.

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Chapter 5

ANALYSIS OF ALTERNATIVES

During selection of line route and substation location, PECCI engineers hadcarefully studied different alternatives on map and at site and chose one route forinvestigation. Nevertheless, the locations of substations are determined by thePeople's Committee provinces.

Analysis of alternative selection for the 220 kV Thai Binh - Hai Phongtransmission Line

The Thai Binh - Hai Phong 220 kV transmission line is featured as follows:

Voltage level: 220kV

Number of circuits: 2, with 2 shield wires

Sending End : gantry of Thai Binh 220kV substation

Receiving End : gantry of Dong Hoa 220kV substation

Length : 53.377 km

Conductor : ACSR 500/64 and AACSR563 (for crossing Van Uc river)

Shield wires : TK-70; OPGW-70 and AACSR 181.6 and OPGW- 180

Insulator : ceramics or glass

Tower : Zinc-galvanized bolted steel tower

Reinforced concrete foundation: pile foundation, bed-plate

The Thai Binh - Hai Phong 220kV transmission line has 2 alternatives. Thetwo altematives is quite simmiliar, but for section G18-G21 and G25-G29.Comparision of the two alternatinves is given in table as follows:

Section Alternative I Alternative II

G18-G21

Length, km 4.7 4.5

Turning angles 4 3

Houses in ROW 6 34

Relocation possible impossible

G25-G29

Length, km 4.2 3.7

Turning angles 4 5

Houses in ROW 2 defense warehouse

Relocation possible impossible

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From the point of view of resettlemnet it is noticed that, total affected housesin the ROW of alternatives 1 is 34 plus an army facility. The other alternative affects8 houses totally. Hence the analysis could easily pointed out that alternative 1 is morefavorable than the alternative 2.

Line route in the final approval of EVN is the alternative 1. And the actionplan for resettlement has been taken for alternative 1, which substantially reducedpossible impacts caused by the land occupation.

For the considered sections please refer to the line route map enclosed.

Analysis of alternative selectionfor 220kV Bac Ninh Substation and associatedtransmission line

The main target of EVN consideration building the 220kV Bac Ninhsubstation is to supply power to Tien Son and Que Vo industrial zones. The powerdelivered is to extract from the 220kV Pha Lai-Soc Son. Two alternatives for thesubstation are recommended. The first is located in the cultivated land of the VietHung commune, Que Vo district, the other was proposed to locate in the agricultureland of Phuong Mao commune of the same district Que Vo.

Associated with the substation, there is a connection line of 220kVappropximately 6.1km in alternative 1 and about 11 km for alternative 2.

Technical and economic analysis had been conducted for the two alternatives.It is recognised that the alternative 1 is the more attractive one. With this, the lineroute is about 6.1km length.

The line route is sketched in the layout in the annex of this report. It is showedthat the line route had been very carefully spotted against impacts to the localinfrastructure such as houses, industrial tree.... There is no cultural, defense or anyother sensitive facility to give way for the line. However the line route is going as toavoid the houses occupation, far aaw from village, commune, market. The line iscompletely rest on the agricultural land and the land compensation is to be applied asthe policy of RAP

The first location and layout of line route are accepted by the People'sCommittee of Bac Ninh province at agreement on Construction site of 220kV BacNinh substation No 362 dated April, 17th 2001.

* Analysis of alternative selection for 220kV Yen Bai Substation and associatedtransmission line

During selection of substation location, PECCI engineers had carefullystudied different alternatives on map and at site and chose one route for investigation.Nevertheless, the location of substations are determnined by the People's CommitteeYen Bai province at agreement on Construction site of Yen Bai 220 kV substationNo97/UB-CN dated February, 15th 2001.

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x

Chapter 6

MITIGATION MEASURESFOR NEGATIVE IMPACTS ON ENVIRONMENT

1. General Measures:

1.1. Before EIA Preparation:

PECC 1 has conducted detailed survey on the project impacts, discussed andagreed with the local authorities and relevant bodies on least-impact line route. Aharmonious application of Vietnamese and Bank's policies on compensation andsubsidies for the project affected persons for coping with impacts and restoringlife.

1.2. After EIA Preparation:

PECC 1 has consulted relevant bodies such as the provincial people'scommittee, DOSTE and PAPs on EIA measures and policies so as to eliminate,scope or mitigate social and environmental impacts and further modifies EIAreport.

2. Technical Measures:

2.1. Mitigation Measures In Design Stage

The mitigation measures for project impacts should be scrutinized during thedesign stage, especially for line route selection. A well-selected route andsubstation site would reduce much of the project cost as well as impacts on thelocals and environment.

- The route selected is as short as possible, the substation is suitablydesigned for minimum construction cost and land acquisition.

- The transmission line and substations should avoid concentrated residentialand conservation areas by turnings. Though more turning angles meanshigh cost, the compensation cost and delay would be less.

- The transmission line should be as closed to the transportation roads aspossible to facilitate material transport during construction andmanagement and operation, meanwhile reduce land acquisition for accessroads.

- The transmission line should avoid areas with high trees such as industrialtrees, planted and natural forests so as not to impact the eco-system.

- The transmission line should not traverse or be closed to important projectssuch as airports, mine warehouses, radio stations.

- The transmission line should avoid slope sides to reduce levelling.

- The transmission line should avoid turnings as much as possible due tohigh cost of anglc towers.

- The transmission line should use same ROW with existing 110-220 kVtransmission lines in order to facilitate management and operation works.

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During selection of line route and substation location, PECCI engineers hadcarefully studied different alternatives on map and at site and chose one route forinvestigation. For complicated sections, two alternatives were chosen forinvestigation for comparison.

2.2. Mitigation Measures In Implementation Stage

In the next steps, the following mitigation measures should be consideredfurther:

- In detail engineering design stage: PECCI should study more carefullyabout the investigated route and substation site and make necessarymodification to avoid residential houses.

- It is necessary to mobilize workforce to construct complete line sectionsand substation components to minimize temporary land requisition for theproject.

- For annual tree areas, stringing works should be carried out right afterharvest to minimize impact on crops.

- It is necessary to study carefully about access roads to minimize theirimpact. For sections traversing forest, manual transport of materials shouldbe considered to minimize impact on the environment.

For projects, many supply options have been considered and analysed fordifferent localities in the survey design stage to ensure the techno-economiccriteria of the project, meanwhile the project impacts on the environment have alsobeen considered to find out mitigation measures for negative impacts.

2.1.1. Line Route.

Selection of the line routes and mitigation measures:

+ For ecological areas:

Cut all trees of potential impact in the line ROW. According to the law onforest protection, tree cutting is strictly under control. Thus, the line route tries toavoid dense forests. The lines just traverse secondary forests, newly planted forestsand sparsely forests of low economical and ecological value. The acquired forestallarea accounts for 16.27% of the project total acquired area.

The transmission line is to traverse forests in between Kon Tum and QuangNgai provinces. These are regenerated and newly planted forests along the nationalroad that are low in economical as well as ecological value.

As such, there would be a small impact on ecology.

+ For residential areas:

The optimal routes have been considered to avoid houses. For thoseunavoidably traversing residential plots, the mitigation measures arc: numeroussmall angles and road crossings to avoid houses and structures.

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Technical measures have been made of full use: Reasonable span, specialtechnical options for : Towers, arms, guys, foundations at dangerous positions tomitigate the project impacts on houses and structures.

As such, there would be a small impact

+ For communication lines.

+ For communication lines.

All the designed lines are apart from important telecommunication lines. Thelines rarely traverse or go closed to the interdistrict and intercommunetelecommunication lines. Moreover, the transmission lines are only somekilometres long with moderate voltage, as such it is not necessary to mention theinfluence and adverse impact on telecommunication lines.

+ For lands, army sites, airports, historical places, pagodas, graves and otherstructures:

During line route selection, PECCI has worked with the involved localities,meanwhile, agreed with relevant sectors and ministries on the line route so as toavoid sensitive areas.

The actual survey shows that the line would not traverse any historical orcultural places, army sites, airports, pagodas and impact the surrounding lands.

+ Other technical solutions for the line configuration:

To minimize the environmental impacts, the line configuration is selectedbasing on: most negative temperature and weather of the areas.

Thus, ensure the project bearing capacity and minimise electric shock due totower fall and conductor break.

The minimum line-to-ground clearance is designed as 7m for places farresidential areas, 8m for residential areas, other clearances are in compliant withthe electrical regulations, as such, the electric field intensity below the lines ismuch smaller than regulations of WHO and the sector (< 5 kV/m).

2.1.2. 220k]VSubstations:

- The Yen Bai and Bac Ninh 220kV substations are outdoor type. The landacquisition for substations is 48,850 m2. The location of Yen Bai 220kV substationis on hill in Tan Thinh commune of Yen Bai district in Yen Bai province and thelocation of Bac Ninh 220kV substation is on paddy fields in Viet Hung communeof Que Vo district in Bac Ninh province. There are no affection to houses.

- The project transformers will not contain PCB.

- Substations will be equipped with:

+ Drop-out fuses on transformer's MV side for short circuit and overcurrentprotection.

+ Surge arresters for over voltage wave protection.

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x

+ Circuit breaker on LV side for short circuit and overcurrent protection.

Thanks to the protection and automatic equipment, all faults occurring in theoperation stage would be eliminated at once, safety would be assured, dangers topeople living in the served areas would be mitigated. The substation is located on ahill for eucalyptus and paddy fields and causes no impact on houses and residentialareas.

2.2. In Construction Stage:

Mitigation Strategies for Construction are:

2.2.1. Construction Arrangement:

Scientific arrangement, completion of separate project components and theline sections would minimize temporary requisition of land.

Construction activities such as tree cutting, ground clearance, foundationexcavation, material transportation; tower erection, wire tensioning, etc. wouldhave certain impacts on the environment. Therefore, concrete mitigation measuresrequired are:

- Tree cutting, route clearance:

Apply measures of soil filling, tree and grass planting after construction,minimize the impact of tree cutting to mitigate future impacts. For land supposedto erosion, maintain trees with the allowable height in the ROW after cutting hightrees to keep soil.

- Construction of access roads.

Access roads for construction have been considered in the design stage andspecified before commencement. The main mitigation measures are:

+ Access roads would originate from existing roads: main transportation roads(national and provincial roads) etc. and as close to the nearest line as possible. Thetemporary roads would meet the following criteria:

Avoid forests, conservation areas, lakes and ponds, etc.

Grade roads to retard erosion; compensate for lost farn production, industrialtrees, and land used temporarily or permanently for the line operations.

Discuss with local authorities involved.

- Safety measures:

Safety measures for construction must fully respect the safely regulations andprocedures:

+ Use specialized machines for transportation of tools, materials or heavyequipments. Check the machines before use. Ligament must be strong. Respect allregulations on transportation safety.

+ Foundation excavation must comply all safety measures. Since the towerfoundations are small, there would not be much excavation. Foundation works

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would be carried out mainly by manual methods. The maximum unused soilvolume of < Im3 , as a result of excavation, would be left in the surrounding areasas agreed with the local authorities.

Any water pipes, underground sewers, communication or power cables foundduring excavation must be reported to the concerned agency. Strictly followinstructions of the agency.

+ Apply safety measures for tower erection, arm and insulator installation,wire works and installation of other fittings.

Workers must respect the regulations on works, safety, labour protection andconcentrate on their works. They will be given training on their jobs and safetyprocedures.

Besides, conductor tensioning and tower transportation would be carried outright after harvest of the annual crops to minimize the impact on crops in theROW.

2.2.2. Construction Camps:

As for the particular characteristics of the rural electrification project, workersmay set up camps in the commune or town centres for convenient access to food,foodstuff, drinking water and communication means. However, they are notallowed to live together with local residents so as not to interfere people's life.

For construction in difficult terrains, camps may be laid out near the lines andworkers would be carried out very quickly. Thus temporary tents for a limitednumber of workers would be needed.

There are firm regulations on medical and sanitary measures to assureworkers' health. Each construction team would have one official specializing inmedical care to take care of the workers and treat common diseases as malaria,typhoid fever, diarrhoea, etc.

2.2.3. Worker's Health and Safety.

Operators and workers must strictly follow the state regulations on workingsafety. Thoroughly consider the following safety measures for construction workers:

- Mine and bomb clearing (if any) prior to construction

- Safety measures for equipment and material transportation

- Excavation and foundation construction.

- Tower erection, arm and insulator installation

- Wire stretching and tensioning, sagging, installation of other fittings.

Besides, consider sanitary and medical measures to prevent and treat commondiseases as: malaria, typhoid fever, diarrhoea, etc. Apply positive measures to limitthe impacts on worker's health during construction period.

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2.2.4. Safety on Fire and Explosion.

Explosion substances will not used in construction works, manual excavationand filling are main measures. Construction teams would not use forest resourcesbut kerosene for cooking. All substations would be equipped with fire andexplosion protection equipment.

2.2.5. Noise Pollution.

There may be noise and vibration from construction equipment. The smallarcing flashover noise occurring in light rain or humid days would not be takeninto account.

The impacts of noise, vibration on the environment in construction stagewould be insignificant.

In general, with the above mitigation measures, the project impacts would berendered as small impacts.

2.3. In Management and Operation Stage.

2.3.1. Management, Operation, Repair and Maintenance Works:

Scope of works includes: repair, periodical maintenance and fault treatmentfor the transmission lines and substations. The PMB will undertake such tasks.

To mitigate the adverse impacts and limit the network faults, to ensure safeoperation, all workers must strictly follow regulations on safety for management,operation, repair and maintenance of the lines and substations.

According to the project management scheme, PMB will sign contract withlocal people on the project management. Prior to the project operation, training onsafety, basic techniques of the network operation and management should beprovided to the operators. Only the successful trainees with training certificate canundertake the management and operation duty.

2.3.2. ROW Control:

PMB would monitor and control ROW within the province, detect violations inthe ROW: houses, trees, etc. and find prompt resolutions for such violations.

Local authorities and tree owners would supervise tree cutting. Take all cutbranches and trees out of the environmental ROW of the line and substations.Random tree cutting under the name of network repair and maintenance isprohibited.

2.3.3. Access Roads:

In general, the line goes along the existing transportation routes and fewaccess roads will be needed.

All access roads would be revegetated after completion of the project. Groundwould be restored by filling soil, planting grass and trees, etc. some roads alongthe line that do not traverse conservation areas, however, would be kept to servethe periodical maintenance, check and repair.

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The above stipulations create bases for the management units to manage andmitigate the environmental impacts.

* Mitigation measur-es are outlined in the enclosed Table 1, 2, 3

Table No.1

During design phase

Potential Impact TMitigating Measures

1) 220kV and 110kV TILs- Impacts on ecological system: - Line routes selected and designed to avoid natural

trees cutting, deforestation (natural and planted forests; Limit deforestation due toand planted forests) cutting of trees that have economical or ecological

value; replant trees as much as number of trees to becut down (mechanical methods strictly forbidden; itis encouraged to use simple tools for trees cutting)

-Impact on residential areas: Line - Carefully and properly calculated line routes toroutes may traverse houses and avoid houses and other structures; increase towerother constructors; noise length; designed routes turning frequently todisturbance minimize number of houses to be traversed by line

routes (there's no house to be traversed);manufacturers are requested to design equipmentwith maximum noise level when operating notexceed permitted noise level standards

- Impact on communication line - Comply with network safety regulations andsystem and other broadcasting articles stipulated in Degree No. 54 on safety ofrelated means: T/L may traverse or telecommunication transmission lines; Select linecross these systems. routes far from communication line system or

minimize number of times crossing or traverse thesesystems; coordinate with Provincial Post Offices tocables the communication line system in crossingsections; calculate and prepare method to avoid jamor affection to communication line and otherbroadcasting mean systems.

- Impact on landscape, army site, - Coordinate and agree with local authorities onhistorical sites, airport, reversed locations have T/L traverse through; adjust design toareas... avoid historical and cultural sites, reserved areas...

- Impact on sight seeing of the - Hide T/L in side forests; avoid parks, public siteslandscape that has T/L traversed or high ways in order to hide T/L as much asthrough possible; design T/L run along national roads, rail

ways...

- Impact caused by in accurate - Select line structure suitable to weather condition;calculation of project safety during calculate distance from conductor to earth to satisfydesign stage safety requirement of the project;

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Potential Impact Mitigating Measures

2) 220kV Substations

- Increase acquisition land due to - Locations of substation sites are selected mainly inbuilding new substations cultivated land, waste land... far from residential

areas;

- May cause impact on human and l Design protection fence to avoid hazardousanimal in surrounding areas conditions to human and animal in the substation

areas

- Increase risk of fuel, lubricants - The substations were designed with observationspills and environmental pollution tank to solve fuel and lubricants spills sewage before

flowing out to irrigation canals.

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Table No. 2

During Construction Phase

Potential Impact Mitigating Measures

1) 220kV and 110kV T/Ls- Ecological system disturbance: - Limit trees cutting (mechanical methods are

tree cutting within ROW area and strictly forbidden and it is encouraged to use simpletree cutting for site clearance; tools for trees cutting); embank roads; plant grasspollution of dust, noise, fumes, and trees in tower foundation to avoid soil erosion;noise, vibration... during using proper machine and other construction toolstransportation of equipment and that have valid operation license; cover load truck;material; deforestation. water land in construction sites to avoid dust.

- Access road may cause soil - Build roads starting from main roads as much aserosion; tree cutting causes possible;avoid reserved sites; embank roads to avoidlandslides and erosion erosion; compensate crops and agricultural products;

prepare methods for proper drainage to limit soilerosion, landslide... at turning areas of the mainroads.

- Impact on crops, agricultural - Compensate crops on permanent acquisition land;production due to land acquisition arrange working time according to harvest; replantland; soil erosion, dust.., human trees that would not grow over height limit withindisturbance ROW areas

- Pollution of water sources; - Coordinate with authorities in case of impact onimpact on water pipe system, and water pipe, communication line systems; appointcommunication line systems... specialized person to supervise frequently safety

measurements applied during construction; preparemethods to solve waste water; collect and dispose allwaste material to proper area...

2) 220kV substations

- Deforestation and impact on - Construct substations in waste land, agriculturalecosystem due to tree cutting and land, schemed land... to avoid impact on ecosystem;site clearance Compensate trees to be cut down and replant trees in

substation surrounding areas to avoid erosion

- Impact on environment: noise, - Using construction equipment's that have validdust, fumes, vibration due to operation license; use specific trucks for equipmentequipment transportation and and material transportation; water or cover load truckconstruction.- Increase lands acquisition; - Construct substations in waste land, agricultural

destruction of crops, trees, land, schemed land.. to avoid impact on ecosystem;meadows, etc. compensate trees to be cut down; replant trees in the

areas surrounding substations to avoid erosion; selectsuitable working time in temporary acquisition landbasing on harvest; water construction site andmaterial storage site as appropriate

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Potential Impact Mitigating Measures

- Water and soil pollution from - Prepare methods to solve waste water; disposeimproper disposal of waste waste material at appropriate location protected frommaterial washing out, if possible at wetlands

- Impact on human and animal in - Accelerate construction progress; constructsurrounding areas; pollution of completely part by part to avoid human activitieswater from improper material near construction sites; organize and cover materialstorage, management and usage; so storage areas; isolate concrete and other works fromerosion; landslides; Hazard watercourse by using sealed formwork; installconditions of accidents in areas appropriate warning signs (rockfall, landslide, wet ornear construction sites. slippery conditions, dangerous curve, animal or

pedestrian crossing, school...)

3) Newly built roads for operation, reparation and maintenance purposes

- Increase land acquisition; impact - Compensate acquisition land and crops, agriculturalon crops and agricultural productsproductions in the area.

- Risk of fuel, lubricants spills; - Proper handling of lubricants, fuel and solvents bypollution of environment in secured storage; ensure proper loading of fuel andsurrounding areas maintenance of equipment

- Increase deforestation (local - Build fences; disseminate local people impactspeople access forests through new causing from deforestationroads)

- May cause erosion due to tree - Replant trees; embank roads to avoid erosioncutting for road construction.

4) Workers' camps

- May cause impact on security, - Locate workers' camps with suitable distance topeace and order in surrounding residential areas to avoid impact on human activities;residential area; impact on forest forbid workers to use material from forests forresources because workers using cooking or warming purposesmaterial from forest to cook

- Worker health; increase infection - Select proper camps' locations so that food stuff,risk of disease: malaria, typhoid drinking water... and other communication meansfever, diarrhea, etc; hazard could be easily accessed by workers and;apointconditions of accidents... person incharge of medical care to take care workers

and treat common disease that workers may infectedor in case of accidents; provide workers with safetyinstructions and protective equipment; appointperson incharge of supervision of safetymeasurements applied frequently.

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Potential Impact Mitigating Measures

- Pollution due to improper - Build enclosed lavatory to avoid impact ondisposal of living waste, material environment; prepare method of drainage; collect allwaste... waste and dispose to permitted waste recovery

facility

- Noise may cause due to arcing - Network was designed at voltage level offlashover 220,1 10kV therefore noise level causing by arcing

flashover is small and not to be considered.

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Table No. 3

During operation, reparation and maintenance phase:

Potential Impact Mitigating Measures

- Pollution of water, noise, - Operation equipment has noise and vibrationvibration, fuel and lubricants level within permissible limit; ensure properspills.., handling of lubricants, fuel and solvents by secured

storage; ensure proper loading of fuel andmaintenance equipment; solve fuel, lubricantsspills in observation tank before draining out;collect all waste to proper places;

- Hazardous condition to people - Use disconnecting equipment, short circuit overliving around the substation site load protection equipment at HV and MV sides of

the substations in order to disconnect equipmentout of network in case fault occures; installappropriate warning signs

- Electric field impact on human - Equipment installed at voltage level of 220kVhealth and 110kV with appropriate distance, electric field

below conductor is <5kV/m, impact on humanhealth and environment is insignificant and wouldnot to be considered.

- Impact on vegetation due to - Plant trees that would not grow over height limitcutting down of trees grown over in ROW areas.height limit in ROW areas

39

Chapter 7

PUBLIC CONSULTATION ANDINFORMATION DISSEMINATION

World Bank (the Bank) policy regarding community involvement providedin detail in the WB Environmental Assessment Source Book, Vol. 1 (1991). It issummarized as follows.

Bank policy directs the borrower to publicly solicit, hear and consider theconcerns of the local community, other affected groups and local NGOs (non-govemmental organizations) and to fully incorporate into the design andimplementation of the project and the Environmental Assessment (EA). Therationale for consideration and incorporation of the concerns affected parties is toassure community acceptance and enhance the viability of the project. The Bankhas found that where such views have been successfully incorporated into thedesign and plan of implementation, the projects are more likely to be successful.The Bank has not found community participation to be an impediment to projectexecution. On the contrary, projects in which affected parties views have beenexcluded are more likely to suffer from delay and issues resulting fromcommunity resistance.

Vietnam is a socialist country. The State is deternined by the fundamentalprinciple "of people, from people and for people". The democratic approach tothe social management of GOV is expressed in the basic principle of principle"people know, people discuss and people control" all activities of theGovernment.

To avoid negative impacts on project affected people. GovernmentalDecree N 175/CP issued on 18 April 1994 requires that all projects in thedevelopment of industry: energy, transport, water resource, agriculture, etc.should conduct a compliant EIA study meeting the requirements of theenvironmental management authorities and the contents of EIA reports includepredicted impacts and mitigation measures must be discussed with the PAP.

The PAP should submit their comments and concerns to the projectproponents through their authorized representatives, e.g. governmental agencies(the people Committee. People Council) and/or socio-political organizations(Fatherland Front, Farmers Association, Women Union etc.) or non-governmental organizations (e.g. Vietnam Association for the Conservation ofthe Nature and Environment, Biological Association, Economic Association,Foresters Association etc.). These organizations should collect all commentsfrom the local people and send them to the environmental managementauthorities (DOSTE at provincial level or MOSTE at central level) or even toprovincial People's Council or National Assembly. During the environmentalreview process, all comments and requirements of the PAP should be discussedand conclusions reported to the project proponents, so that the project candevelop proper alternatives and implement measures for mitigation of thenegative impacts. The, project will receive an investment license, only after

appropriate modification of location, design, capacity and/or technology of theproject to meet the requirement of environmental protection and resettlement.

Involving affected people, especially the poor, often requires additionalcxpenditurcs. The costs include travel and subsistence for attendance at meetings.Translation and expert advice that the community needs to help to formulate aresponse to the proposal, etc. Such costs should be systematically budgeted. TheEA team must ensure that issues raised in affected communities arecommunicated to the other participants in the EA process, including variouspublic agencies and NGOs that may be in the larger process pf publicconsultation.

As the EA proceeds, the people in the affected area should be keptinformed routinely and systematically. Written material must be translated intolocal languages. Where many are unable to read, oral discussion and visualpresentations sessions (often, by the resident social promoters or facilitators)should be used. Throughout the EA process, the project agency should continueseeking views from and providing feedback to the affected community.

Contents of Public Consultation meetings.

- PECCI will inform the participants of the major technical andenvironmental issued of the project and mitigation measures.

- In the meetings all questions of PAP should be addressed, allrecommendations and concerns of PAP and PC should be recorded.

- List of participant should be noted with their signatures.

- The use of video cameras, photo-camera and recorders is recommended.

Materiials to be presented in the meetings.

The Consultants will present the following materials:

- Booklet/summery of F/S Report and EIA Report

- Maps of the project site

- Figures, tables, photos, pictures, etc. presenting the project activities.

1. Aims of public consultation and information dissemination

Information dissemination to, consultation with and participation ofaffected people and involved agencies (i) reduce the potential for conflicts, (ii)minimize the risk of project delays, and (iii) enable the project to design theresettlement and rehabilitation program as a comprehensive developmentprogram to fit the needs and priorities of the affected people, thereby maximizingthe economic and social benefits of the project investment.

Aims of public consultation and information dissemination are:

- Share all project descriptions, components, purposes as well as projectnegative impacts on environment and restoration and mitigationmeasures.

41

- Collect information on project environment, local people's concern onproject in general and on environmental aspects in particular.

- Find coordination and participation of local people in realizing impactrisks as well as supervising the project activities.

- Reduce probability for social conflicts.

- Reduce risk for project delay.

- Help to establish a comprehensive environment management plan andthus, maximize the project socio-economic benefit.

Public consultation and information dissemination are scheduled for 2stages: project preparation and project implementation. Refer to the meeting listattached for details.

2. Public consultation and information dissemination during projectpreparation stage:

During project preparation stage, the following activities were carried outsequentially:

Phase I-Activity 1: Information & discussion with local authorities on theline route.

After studying maps and visiting the site, PECC 1 had envisaged apreliminary route on 1/50,000 scale map. This map was sent to all locationspassed by the line and relevant local authorities. The local authorities haveagreed on the project line routes. This activity was carried out in 6-8/2001.

Phase I - Activity 2: Inpact survey and statistics

Based on the agreed line route, survey teams had realized the route at site,made the piling and coordinated with the commune officials to make a list ofPAPs' affected land and crops. The socio-economic survey forms were deliveredto affected households (for each commune) as basis for SLS. This activity wascarried out in 6-8/2001.

Phase I - Activity 3: Meetings with local NGOs and people's communitee

When the survey finished, PECC 1 in coordination with the communeofficials held meetings with local NGOs and people's commitee having land inthe line ROW and with village representatives. In these meetings, PECC 1officials informed the participants of the project purposes; presented the projectimpacts on land and crops in detail; introduce the principles, safety methods andadvised people not to build new structures in the line ROW.

Phase I - Activity 4 : Meetings with the concerned PPCs

After working with the communes, in 6/2001 PECC 1 had sent missions towork with the provincial functional agencies such as Financial and pricingservice, Planning and investment service, Agriculture and rural developmentservice, DOSTE, etc. and make the project purposes clear to PPCs; at the same

42

time discuss with local officials on the aims and principles of ground clearance,on the proposed policies of EIA.

Phase I - Activity 5: Consultation on EIA

Basing on the survey result, PECCI shall prepare draft EIA to submit toEVN, WB and concerned PPCs for revision. All comments shall be taken intoconsideration, incorporated in the next version for approval by relevantauthorities.

Phase I - Activity 6: Approval of EIA

In 9-10/2001, PECCI had sent missions to work with the district people'scommittees, DOSTEs on draft EIA. The revised EIA shall be submitted to WBfor approval. EVN shall ask DOSTEs for approval of EIA policies to enforcethem in the province. This shall be legal basis for EIA implementation. Afterpreparation, the draft EIA report has been made available at DOSTEs in 4 monthsfor reference.

3. Public consultation and information dissemination during projectimplementation stage:

Public consultation and information dissemination during projectimplementation is of great importance as the project impacts on the environmentand people at the stage would be worst. The following information campaignshould be carried out:

* General description of project:

Right after signing of credit agreement and preparation of projectcommencement, the first task for PMB is to held meetings with involved PPCs,DPCs so as to inform them of the project policy and ask them for coordination inresettlement activities.

* Information on EIA:

Another information campaign on environment impact mitigation shallalso be lounged beside the information campaign on RAP, the campaign shallinclude:

1. Notification on local means of communication:

PMB shall coordinate with the local authorities in notifying on localnewspapers and television channel about project general information such as:project implementation schedule, project components. Besides, information onproject environment should also be mentioned such as project impacts onenvironment and mitigation measures.

2. Environment information booklet

An environment information booklet (EIB) on impact and mitigationmeasures will be prepared by NPPMB basing on the approved EIA report. Thebooklets will be displayed at offices of involved commune and district people'scommittees, and will be distributed to local unions such as farmers' association,

43

women's association, all heads of project villages, all PAPs in the project area inthe initial duration of the implementation stage of the project.

The EIB contents are outlined below:

- Project basic description

- Description of the main project components to be constructed in the area

- Project design objectives

- Implementation schedule

- Project impacts

- Mitigation measures

- Institutions Responsible for EMP

- Monitoring

3. Notificationfor local authorities about environment impacts:

All environment impacts induced during construction as well as operation ofthe project, if any, will be announced in meetings with local authorities so as tofind prompt solution in order to avoid conflicts and implementation delays. Allproblems will be solved in monthly meetings between local authorities, PMB,contractors and consultants.

44

Chapter 8

ENVIRONMENTAL MANAGEMENT PLAN (EMP)

The project environmental management plan consists of set of mitigation,monitoring and institutional measures to be taken during implementation andoperation to eliminate adverse environmental and social impacts, offset them, orreduce them to acceptable levels. The plan also includes actions needed toimplement these measures.

1. EIA participation and implementation:

- GOV: is responsible for approving the project documents, authorizingMOI for project implementation.

- MOI: is responsible for project implementation.

- EVN: is the project investor responsible for providing PMB with fundand guidance on the project control and implementation as well as EIApreparation and implementation.

- NPPMB: is the project manager responsible for the whole projectincluding resettlement, EMP, assignment for specialized bodies to prepare andimplement the project, submission to EVN for approval on decisions concerningresettlement and environment policies submitted by PPSs, monitoring theimplementation activities.

- PECC 1:

+ Surveying, measuring and confirming AA

+ Coordinating with DRB in classification of affected property.

+ Studying and classifying affected people and houses.

+ Undertaking to collect data, plan EIA for the project basing on collecteddata from RBs.

+ Coordinating with PMB in training enumerators

- Monitoring contractor: is responsible for direct monitor ofimplementation of environment protection and impact mitigation.

- Construction contractor: is responsible for project construction worksand following all regulations in EIA.

- Transmission company: is responsible for Carrying out periodical andsudden checks on the network operation; monitoring and prepare annual statisticson the network incidents and faults; giving guidance and supervising theimplementation of the state regulations on the network protection and safety by thelocal govemments and people

45

- DOSTEs: is responsible for advising the provincial authorities onenvironmental issues, giving comment on and verifying EIA, guidelining andsupervising EIA implementation in the province.

- Provincial p,eople's committees: are responsible for

+ Guiding and monitoring EIA planning and implementation within theprovince

+ Approving estimated compensation cost of the project for the province.

+ Establishiiig provincial resettlement boards and instructing theiractivities

+ Guiding and leading the coordination between sectors, departments inEIA implementation

- Commune people's committees: are responsible for

+ Confirming impact caused by the project in the commune

+ Monitoring EIA implementation in the commune

+ Organizing meetings at commune level

- Provincial environmental monitors: (interministrial) are responsible for:

+ Monitoring the implementation of mitigation measures to minimize theproject impacts in the construction and operation stage

+ Controlling and checking health of workers, operators and inhabitants

+ Managing and checking protection measures for plantations and animalsubject to the impact caused by the project.

2. Environmental impact and mitigation measures

In general, the project impacts on environment are inconsiderable and arescrutinized in chapter 4 of this report.

3. Monitoring

- NPPMB and resettlement boards (to be set up) will be responsible for:counting, verifying the affected assets and crops and compensation for assets andcrops.

- In construction stage, an environment monitoring board will beestablished including staff of NPPMB, DOSTEs and contractors. The monitoringboard will have a monitoring plan with periodic checks taken place duringconstruction or operation stage covering:

* Monitoring the implementation of mitigation measures to minimize theproject impacts in the construction and operation stage

* Erosion along access roads, substation and transmission line foundations

* Trees cutting

46

* Controlling and checking health of workers, operators and inhabitants

* Managing and checking protection measures for plantations and animalsubject to the impact caused by the project.

- Transmission company undertakes to:

* Carry out periodical and sudden checks on the network operation,especially after rains and storms for necessary solutions and goodoperating conditions of the networks. These also help to find out andprevent violations in the line ROW.

* Monitor and prepare annual statistics on the network incidents andfaults.

* Give guidance and supervise the implementation of the state regulationson the network protection and safety by the local governments andpeople. Meanwhile, stop the violations and report to the concernedbodies for violation solving.

4. Capacity development and training:

Environment management is a new task for the power sector, therefore,prior to project implementation there should be training for staff that willparticipate in EMP. Management staff will be equipped with knowledge onmitigation measures for environmental impact and monitoring plan.

Training scope:

- Legal documents on environment

- WB stipulations on safeguard policies

- Responsibilities and rights of state functional bodies in environmentmanagement

- Identification of typical impacts of power transmission line projectsand mitigation measures

Proposed trainees:

- EVN: Appraisal department, Cost and estimate department, Planningdepartment, International cooperation department, Power networkdepartment, Power plant department : 1 staff/department

- NPPMB : 2 staffs

- PECCI :4 staffs

- Contractors : 4 staffs

- Transmission companies : 4 staffs

Costfor t-raining see tables below

47

Unit: 1.000VND

Ognization/ Number Duration Rate/student/day TotalInstitute of (days) Travel Accom- Per Other

studentmodation diem

EVN 1 5 50 100 40 20 1,050

NPPMB 2 5 50 100 40 20 2,100

PECC 1 4 5 50 100 40 20 4,200

Contractors 4 5 50 o00 40 20 4,200

Transmission 4 5 50 100 40 20 4,200companies

Total estimated cost in VND: 15,750

Equivalent amount in USD: 10,500

The cost may be held 4 times and number of students from provinces anddistricts would be higher. The total training estimated costs will be25,00),OOUSD

5. Implementation schedule and cost estimate:

Costfor EMP: see tables below

48

A. MITIGATION PLAN

Phase Issue Mitigating measure Cost (USD) Institutionalrespo sibility

Install Operate Install Operate

Design Natural resource damage, habitat - Select ROW to avoid important natural areas and manage Designer NPPMB/loss, invasion by exotic species ROW to maximize wildlife benefits EVNalong the ROW and access roadsand around substation sites

Habitat fragmentation or - Select ROW to avoid important natural areas such as Designer NPPMB/disturbance wildlands and sensitive habitats EVN

- Maintain habitat beneath the line PTC

Increased access to wildiands - Select ROW to avoid sensitive wildlands Designer NPPMB/

- Utilize existing roads to minimize new construction EVN

Avian hazards from transmission - Select ROW to avoid important bird habitats and flight Designer NPPMB/line and towers routes EVN

Aircraft hazards from - Select ROW to avoid airport flight paths Designer NPPMB/transmission line and towers Design lights to minimize risk of low-flying airplanes EVN

Communication disturbance - Select ROW to avoid communication lines Designer NPPMB/EVN

Corona discharge noise - Suitable design with bundled conductors Designer NPPMB/l_____ EVN

Impaired cultural or aesthetic - Select ROW to avoid sensitive areas including tourist sites Designer NPPMB/resources because of visual and vistas EVNimpacts - Select appropriate support structure design, materials and

l______fn e___________ ____________________finishes

Phase Issue Mitigating measure Cost (USD) Institutionalresponsibil ity

Cons- - Natural resource damage, - Use appropriate clearing techniques Contractor EVN

truction habitat loss, invasion by exotic (Regulated inspecis alog th ROW nd -Maintain native ground cover beneath the lineBidn

species along the ROW and Biddingaccess roads and around - Replant disturbed sites Documents)

substation sites

- Dust from material transport - Cover vehicles to prevent dust dispersion Contractor EVNvehicles - Water construction sites for dust control during dry season (Regulated in

Bidding- Locate concrete mixing plants 200m from boundary of any Documents)

concentrated residential areas

- Noise from construction - Carry out construction works during normal working hours Contractor EVNmachines for site nearby populated areas (Regulated in

- Locate concrete mixing plants 200m from boundary of any Biddingconcentrated residential areas Documents)

- Waste - Collect and correctly dispose waste at approved sites Contractor EVN

- Avoid discharge and disposal of domestic waste from (Regulated inconstruction camps into water Dding

Documents)

- Soil erosion and soil loss - Increased number of drain outlets/culverts Contractor EVN

- Plan for embankment, replant grass (Regulated inBidding

Documents)

- Social impacts on local - Locate camps separate from locals' shelters Contractor EVNpopulation - Avoid discharge and disposal of domestic waste from (Regulated in

construction camps into water Dding

50

Phase Issue Mitigating measure Cost (USD) Institutionall_______ __ _ __ _ _ __ _responsibility

- Safety and health of workers - Not use explosive substances Contractor EVN

- Workers are not allowed to use forest resources for cooking (Regulated inBidding

- Set up adequate camps and sanitation facilities Documents)

- Equip qualified working equipments and tools

- Give necessary training and guidelines on labor safety

- Provide medical first aid at site

Carry out health check by existing local facilities

- Temporary requisition of land - Scientific arrangement, accomplish complete components Contractor EVN(Regulated in

BiddingDocuments)

- Access roads - Use existing roads as much as possible Contractor EVN

- New roads would avoid forests, conservation areas and be (Regulated in I

graded to retard erosion BiddingDocuments)

- Prompt restoration of roads that are not required for ongoingoperations by revegetation

- Hunting and wood cutting - Workers must comply with regulation prohibiting hunting Contractor EVNand tree felling (Regulated in

Bidding.___________________________________________________________________________________________ _ D o cu m en ts)cu m e n ts)

51

Phase Issue Mitigating measure Cost ( SD) | Institutional responsibi ity

Opera- - Noise and - Use transformer type with permitted noise level Transmission company EVNtion vibrations - Periodical examination of equipment for its appropriate

operation, lubricant and maintenance

- Install much vibration equipments on suitably large basesand deep foundations

- Oil leakage - Build an oil pit, use transformer without PCBs Transmission company EVN

- Frequent examination of equipment for its appropriateoperation, lubricant and maintenance

- Appropriate oil discharge, storage and disposal

- Fire - Substations are equipped with fire and explosion protection Transmission company EVNequipments

- Safety and - Comply strictly with operation regulations and working Contractor (Regulated in EVNhealth of time in electric field areas Bidding Documents)workers

- Induced effect - Remove all objects that could be impacted out of the ROW Transmission company EVNfromelectromagnetic

.field .

- Line ROW - Periodical checks and trim of trees that would be of Transmission company EVN

mainternance potential impact to the ROW l

52

B. MONITORING PLAN

Phase What Where How When Why Annual Cost (USD) Institutionalrespon ibility

l_____________ Install Operate Install Operate

Construction - Land slide, Access Visual In Ensure land to be Included in 10000 Contractor NPPMB/erosion roads, construction embanked and project EVN

foundations Measuring stage replanted budget 10000 Ditto Ditto

- Noise Excavation, Ditto Avoid excess limit as Dittoconcreting regulatedsites Measuring 10000 Ditto Ditto

- Vibration Ditto Witness Ditto Ditto Ditto 50000 Ditto Ditto

-Water sources Ditto Ditto Ensure no pollution by Ditto

Visual oil, chemicals 25000 Ditto Ditto

- Dust, waste Ditto Visual Ditto Gather and move out Ditto 30000 Ditto Ditto

- Deforestation Ditto Reporting Ditto Compliance with Ditto

- Safety Ditto regulation 30000 Ditto Ditto

Visual Ditto Ditto Ditto- Landscape, visual Tents, 30000 Ditto Ditto

impacts shelters Interview In & after Ensure the locals' Ditto

- Social impact Local construction lifestyle are not

population, stage affectednearbyvillages,

I __ __ ___ __t_____.___ __ __ ___ __ __to w n s

53

Phase What Where How When Why Annual Cost (USD) InstitutionalI_______________ l _______________________ resp o n sib ilit

Operation - Land slide, Foundations Inspection Periodical Avoid damages to eco- Ditto 10000 Transmissio EVNerosion system n company

Line corona Measuring Once in Avoid negative effect Ditto 15000 Ditto Ditto- Noise location rainy season to habitants

Line ROW Visual Every 3 Ensure no overcutting Ditto 25000 Ditto Ditto- Trees in ROW months of trees

Along line Measuring, Big loads, Protect human, animals Ditto 15000 Ditto Ditto- Electromagnetic At calculation once a year from dangerous area

field substations Visual As regulated Ditto 15000 Ditto Ditto

- Oil of transformer

54

Chapter 9

SUMMARY OF EIA

Transmission line design department - PECCI.

Substation design department - PECCI.

Participants:

- Nguyen Van An: Sub. Department Manager

- Nguyen Duc Thanh: T/L. Department Manager

- Ngo Luu Hung: Project Assistant

Major project components:Thai binh - Hai Phong 220kV transmission line

1. 220 kV transmission line: 54 km

220kV Yen Bai substation and connection

1. The first 1 10 kV branch line: 3 km (two circuits)

2. The second 110 kV branch line: I km (two circuits)

3. Substation capacity : 125 MVA - 220/1 10/OkV

220kVBac Ninh substation and connection

1. The 220kV branch line: 6,1 km (two circuits)

2. The first 110 kV branch line: 1,6 km (two circuits)

2. The second 110 kV branch line: 1 ,62 km (two circuits)

3. Substation capacity : 125 MVA - 220/1 10/1OkV

Comments of environmental specialist:

The investor - PCI must advise construction units to strictly follow theregulations on environmental protection and compensation policy so as to ensuresafety for construction and operation.

Environmental concerns and recommendations:

- The mitigation measures detailed in RAP would significantly mitigatethe environmental impacts on the project served inhabitants.

- Civil workers and operators must properly compile the safety regulationsduring working to minimize bad impacts on health.

- The project manager and officials in charge of monitoring andsupervision must obey all regulations to minimize the environmental impacts.

Necessity for more detailed environmental examination: Not needed asthe measures already prescribed.

x

Chapter 10

CONCLUSIONS

Some conclusions can be made for the areas traversed by the lines:

- Topography: The areas traversed by the lines not differ much in elevation.The line routes mainly go along transportation roads that make it easy fortransportation of material, construction, operation and management.

- Construction of the project will result in a number of environmentalimpacts on the areas traversed by the lines.

- The environmental impacts are limited during the design, construction aswell as operation stages. The designers and environmental experts will co-ordinate to solve problems and work out suitable measures.

- After completion, the project operation would leave certain impacts on theenvironment but the impacts would be of no significance.

56

ANNEX I.1: LOCATIONS PASSED BY THE THAI BINH - HAI PHONG220KV TRANSMISSION LINE

No. Locality Route section Length Notes

(m)

(1) (2) ~~ ~ ~~(3) ()(5)

I Thai Binh province Start point- 18.802G16A

1 Dong Hung district Start point- 7.2665G12A

a Nguyen Xa commune Start point-GlO 3.278

b Dong La commune Start point-Gll 1.673

c Lien Giang commune Start point- 2.3155G12A

2 Quynh Phu district G12A-G16 11.5355

a Quynh Xa commune G12A-G13 3.5165

b An Ap commune G13-G14 2.077

c An Quy commune G14-G15 3.231

d An Ninh commune G15-G16 2.711

II Hai Phong city G16-End point 34.666

1 Vinh Bao district G16-G20 14.664

a An Hoa commune G16-G16A 2.7265

b Tan Hung commune G16A-G17 3.1495

c Trung Lap commune G17-G18 1.762

d Viet Tien commune G18-G19 4.129

e Giang Bien commune G19-G20 2.897

2 Tien Lang district G20-G23 3.552

a Tien Cuong commune G20-G22 2.207

b Tu Cuong commune G22-G23 1.345

3 An Lao district G23-G28 8.604

a Tan Vien commune G23-G24 3.188

57

(1) (2) (3) (4) b Tan Dan commune G24-G25 0.956

c An Thang commune G25-G26 2.243

d An Tien commune G26-G28 2.217

4 An Hai district G28-G33 7.474

a Quoc Tuan commune G28-G31 3.469

b_ Hong Thai commune G31-G32 1.734

c Dong Thai commune G32-G33 2.271

5 Kien An district G33-End point 0.372

a Quan Tru quarter G33-End point 0.372

Total 53.468

58

ANNEX 1.2: LOCATIONS PASSED BY THE TRANSMISSION LINE

No. Locality Route section Length Notes

(1 ) (2) (3) (4)(5

I. YEN BAI 220KV SUBSTATION AND CONNECTIONS

A. 1 10kV connection 1:

I Yen Bai province

1 Yen Bai town

a Tan Thinh quarter 110kV OHL 3000

B. 110kV connection 2:

I Yen Bai province

1 Yen Bai town

a Tan Thinh quarter 110kV OHL 1000II. BAC NINH 220KV SUBSTATION AND CONNECTIONS

A. 220kV connection:

I Bac Ninh province

1 Que Vo district

a Viet Hung commune Start point - G2 2210

b Que Tan commune G2 - G4+430 2700

II Bac Giang province

1 Yen Dung district

a Yen Lu commune G4+430 - End 1210point

B. 110kV connection:

B.1. 110kV connection 1:

I I Bac Ninh province

I Que Vo district

59

(1L ) 4(2) (3) (4) (5)

a Viet Hung+Bong Lai 110kV OHL 1620communes

B.2. 110kV connection 2:

1 Bac Ninh province

1 Que Vo district

a Viet Hung+Bong Lai 110kV OHL 1600communes

ANNEX 2.1: STATISTICS ON AFFECTED AREA WITHIN ROW (THAI BINH - HAI PHONG 220KV T.L)

Unit: m2

No Locality Agricultural land iM2 Forestland m2 Residenti Waste-al land land

Rice Vege- Fruits Bamboo Palm Other Planted Naturaltables Indus. land land

l_______________________________ tre es .

(1) (2) (3) (4 (5) (6) (7) (8) (9) (10) (11) (12)

I Thai Binh 355 477 4 347 10 994

__province1 Dong Hung 141 561 4 347 4 378

district

a Nguyen Xa 64 532 1 996commune

b Dong La 29 862 4 347 924commune

c Lien Giang 47 167 1 459commune

2 Quynh Phu 213 916 6 616

_____ district _ -

a Quynh Xa 50 548 1 563commune

61

(1) __ (2) (3) (4) (5) (6) (7) (8) (9) (10) (11) (12)

b An Ap 42 308 1 309

commune

c An Quy 89 771 2 776

commune

d An Ninh 31 288 968

commune

II Hai Phong 706 146 21 840

city

1 Vinh Bao 298 706 9 238

district

a An Hoa 55 539 1 718

commune

b Tan Hung 64 155 1 984

commune

c Trung Lap 35 892 1 110

commune

d Viet Tien 80 237 2 482

commune

e Giang Bien 62 882 1 945

commune

62

(1) (2) (3) (4) (5) (6) (7) (8) (9) (10) (11) (12)

2 Tien Lang 72 354 2 238

district

a Tien Cuong 44 957 1 390

commune _

b Tu Cuong 27 398 847

commune

3 An Lao 175 263 5 421

____district

a Tan Vien 64 940 2 008

commune

b Tan Dan 19 474 602

commune

c An Thang 68 545 2 120

commune

d An Tien 22 305 690

commune

4 An Hai 152 245 4 709

district

a Quoc Tuan 70 664 2 185

commune

63

(1) ~ -(2) (3) (4) (5) (6) (7) (8) (9) (10) (11) (12)

b Hong Thai 81 582 2 523

commune

5 Kien An 7 578 234

district

a Quan Tru 7 578 234

quarter _____

_ Total 1061623 4 347 32 834

64

ANNEX 2.2: STATISTICS ON AFFECTED AREA WITHIN ROW

Unit : m 2

No Locality A _gricultural land m2 Forestland (m2) Resident Waste

Rice Vege- Fruits Bamboo Palm Other Planted Natural i-al land landtables Indus. land land

_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ tre e s

(1) (2) (3) (4) (5) (6) (7) (8) (9) (10) (11) (12)

I. Yen Bai 220kV substation and connections:

A. llOkV connection 1:

I Yen Baiprovince

1 Yen Bai town

a Tan Thinhquarter

110kV OHL 45000

Total 45000

B. 1lOkV connection 2:

I Yen BaiD rovince - _ _ _ _ I__ _ _ I__ _ _ I__ _ _ _ _ _ _

1 Yen Bai town

65

(1) (2) (3) (4) (5) (6) (7) (8) (9) (10) (11) (12)

a Tan Thinhquarter110kV OHL 15000

Total 15000II. Bac Ninh 220kV and connections:

A. 220kV connection:

I Bac Ninhprovince

I Que Vod istrict _ _ _ _ _ __ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _

a Viet Hungcommune

Start point- 48.620G2

b Que Tancommune

G2 - G4+430 59.400

II Bac Giangprovince

66

(1) (2) (3) (4) (5) 6) (7) (8) (9) (10) (11) (12)

1 Yen Dungdistrict

a Yen Lucommune

G4+430 - End 26.620point

Total 134.640

B. ll OkV connection:

B.1. 110kV connection 1:

I Bac Ninhprovince

1 Que Vodistrict

a Viet Hung +Bong Laicommunes

110kV OHL 24.300 _ l _

B.2. 110kV connection 2:

67

(2) (3) (4) (5) (6) (7) (8) (9) (10) (11) (12)

I Bac Ninhprovince

| 1 Que Vodistrict

a Viet Hung +Bong Laicommunes

110kV OHL 24.000

L___ Total 48.300 _

68

ANNEX 3.1 : STATISTICS ON TEMPORARY LAND ACQUTSITION (THAI BINH - HAI PHONG 220KV T.L)

Unit: m'

No Locality A ricultural land (m2 Forestland (m 2) Resident Waste

Rice Vege- Fruits Bamboo Palm Other Planted Natural i-al land landtables Indus. land land

trees

(1) (2) (3) (4) (5) 6) (7) (8) (9) (10) (11) (12)

I Thai Binh 101 565 1 242 3 141

province

1 Dong Hung 40 446 1242 1 251

district

a Nguyen Xa 18 438 570commune

b Dong La 8 532 1 242 264commune

c Lien Giang 13 476 417

commune .

2 Quynh Phu 61 119 1 890

district

a Quynh Xa 14 442 447commune l .

69

(2) (3) (4) (5) (6) (7) (8) (9) (10) (11) (12)

b An Ap village 12 088 374

c An Quy 25 649 793commune

d An ^ Ninh 8 940 276commune

II Hai Phong 201 756 6 240

city _

1 Vinh Bao 85 344 2 640

district

a An Hoa 15 868 491commune

b Tan Hung 18 330 567communem

c Trung Lap 10 255 317commune

d Viet Tien 22 925 709commune

e Giang Bien 17 966 556commune

70

(1) (2) _(3) (4) (5) (6) (7) (8) (9) (10) (11) (12)

2 Tien Lang 20 673 639

____ district

a Tien Cuong 12 845 397commune

b Tu Cuong 7 828 242commune

3 An Lao 50 075 1 549

district _

a Tan Vien 18 554 574commune

b Tan Dan 5 564 172commune _

c An Thang 19 584 606commune

d An Tien 6 373 197commune _.___

4 An Hai 43 499 1 345

district

a Quoc Tuan 20 190 624commune

71

(1 ) (2) (3) (4) (5) (6) (7) (8) (9) (10) (11) (12)

b Hong Thai 23 309 721

commune

5 Kien An 2 165 67

district

a Quan Tru 2 165 67

quarter _

Total 303 321 1242 9 381

72

ANNEX 3.2: STATISTICS ON TEMPORARY LAND ACQUISITIONUnit m2

No. Locality Agricultural land (m2) | Forestland (iM2) Residen Waste

Rice Vege- Fruits Bamboo Palm Other Planted Natural ti-al land landtables Indus. land land

trees

(1) (2) (3) (4) (5) (6) (7) (8) (9) (10) (11) (12)

I. Yen Bai 220kV substation and connections:

A. 110kV connection 1:

I Yen Baiprovince

I Yen Bai town

a Tan Thinh____ quarter

110kV OHL 12000

Total 12000

B. 110kV connection 2:

I Yen Baiprovince _ _ _ _ -___ ___

1 Yen Bai town | _ _ ________

73

(1) (2) (3) (4) (5) (6) (7) (8) (9) (10) (11) (12)

a Tan Thinhquarter

110kV OHL 4000

Total 4000

II. Bac Ninh 220kV and connections:

A. 220kV connection:

I Bac Ninhp__ rovince_____

1 Que Voa district

l a Viet Hungcommune

Start point- 21.062G2

b Que Tancornmune

G2 - G4+430 25.789

j II Bac Giang

province

74

(1) (2) (3) (4) (5) (6) (7) (8) (9) (10) (11) (12)

I Yen Dungdistrict

a Yen Lu

Icommune

G4+430 -;End 10.364___

,_ ~Total 57.215

B. 1I OkV connection:

B.1. lOkV connection 1:

I Bac Ninhprovince

1 Que Vodistrict

a Viet Hung +Bong Laicommunes

_ lOkV OHL 10.689

B.2. 110kV connection 2:

75

(1) (2) (3) (4) (5) (6) (7) (8) (9) (10) (11) (12)

I Bac Ninhprovince

1 Que Vodistrict i

a Viet Hung +Bong Laicommunes l

110kV OHL 10.668 . I

Total 21.357 _ _

76

ANNEX 4.1: STATISTICS ON PERMANENT LAND ACQUISITION (THAI BINH - HAI PHONG 220KV T.L)

Unit: M2

No Locality Agricultural land (m2) Forestl nd (mi) Resident Waste

Rice Vege- Fruits Bamboo Palm Other Planted Natural i-al land landtables Indus. land land

trees

(1) (2) (3) (4) (5) (6) (7) (8) (9) (10) (11) (12)

I Thai Binh 9 197 112 284

province

1 Dong Hung 3 663 112 113

district

a Nguyen Xa 1 670 52commune __.

b Dong La 773 112 24commune

c Lien Giang 1 220 38I___ commune

2 Quynh Phu 5 535 171

district

a Quynh Xa 1 308 40commune .

77

() (2) (3) (4) (5) (6) (7) (8) (9) (10) (11) (12)

b An Ap 1 095 34commune

c An Quy 2 323 72commune

d An Ninh 810 25commune

II Hai Phong 18 270 565

1city

1 Vinh Bao 7 728 239

district _.

a An Hoa 1 437 44commune

b Tan Hung 1 660 51commune

c Trung Lap 929 29commune

d Viet Tien 2 076 64commune

e Giang Bien 1 627 50commune

78

l(1) (2) (3) (4) (5) (6) (7) (8) (9) (10) (11) (12)

2 Tien Lang 1 872 58

district _

a Tien Cuong 1 163 36commune

b Tu Cuong 709 22commune

3 An Lao 4 535 140

district

a Tan Vien 1 680 52commune

b Tan Dan 504 16commune

c An Thang 1 773 55commune

d An Tien 577 18commune

4 An Hai 3 939 122

district

a Quoc Tuan 1 828 57commune

79

(1)2) (3) (4) (5) (6) (7) (8) (9) t (10) (I1) (12)

b Hong Thai 2111 65commune

5 Kien An 196 6

district

a Quan Tru 196 6quarter I_I__

Total 27 467 112 850

80

ANNEX 4.2: STATISTICS ON PERMANENT LAND ACQUISITION

Unit :m

No. Locality Agricultural land (m2) Forestland (m2)| Residen Waste

Rice Vege- Fruits Bamboo Palm Other Planted Natural ti-al land land

tables Indus. land land

(1) (2) (3) (4) (5) (6) (7) (8) (9) (10) (11) (12)

I. Yen Bai 220kV substation and connections:

A. 110kV connection 1:

I Yen Bai

1 Yen Bai town i

a Tan Thinh ____ quarter

____ 110kV OHL 1200

Total 1200 _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _

B. 110kV connection 2:

I Yen Bai =

_ _ *province _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _8

L 1- Y en B ai tow n __ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ ___ _ _ _ _ _ _ _ _

8 1

(1) (2) (3) (4) (5) (6) (7) (8) (9) (10) (11) (12)

a Tan Thinhquarter

1OkV OHL 400

Total 400

C. Yen Bai 220kV substation:

I Yen Baiprovince

1 Yen Bai town

a Tan Thinhuarter _

Yen Bai 31750220kV

sb___ _ __substation

Total 31750

II. Bac Ninh 220kV and connections:

A. 220kV connection:

I | Bac Ninhprovince

82

(1) (2) (3) (4) (5) (6) (7) (8) (9) (10) (11) (12)

Que Vodistrict

a Viet Hungcommune

Start point- 1 038G2

b Que Tancommune

G2 - G4+430 1211

II Bac Giangprovince

1 Yen Dungdistrict

a Yen Lucommune

G4+430 - End 1 736point

Total 3 985

B. 110kV connection:

83

(1) (2) ____ (3) (4) (5) (6) (7) (8) (9) (10) (

B.i. 110kV connection 1:

I Bac Ninhprovince

1 Que Vodistrict

a Viet Hung +Bong Laicommunes

I 11OkVOHL 651

B.2. 110kV connection 2:

I Bac Ninhprovince

1 Que Vodistrict

a Viet Hung +Bong Laicommunes

110kV OHL 532

Total 1183

84

p (1) 1 (2) (3) (4) (5) (6) (7) (8) (9) (10) (11)

C. Bac Ninh 220kV substation:

I Bac Ninh_ province

1 Que Vo__ _ _ district_ _ _ _ _ _

a Viet Hungcommune

Total 17 130 _ _ _ _

85

ANNEX S.1. THAI BINH - HAI PHONG 220KV TRANSMISSION LINE

No Description 4__9 2000 2001 2002 2003

_ - - Ill IV I II III IV I _ 1 Ill IV I 1I III IV I II ll IV

(1) (2) (3) (4) (5) (6) (7) (8) (9) (10) (11) (12) (13) (14) (15) (16) (17) (18) ( 219) (20) (21) (22)

1 Data survey on FS,RAP, EIA

2 Completion of FS,RAP, EIA ___

3 Approval of FS _ _

4 Survey, completion ofDetailed EngineeringDesign

5 Preparation of BiddingDocument forprocurement ofequipment __

6 Preparation of BiddingDocument for civilworks _ _

7 Bidding for works l _ .-

86

1 (2) 3 4( (5) (6) (7)(8 9) (10) (11) (12) (1 3(1) (15) (16) _(7) (18) _(1) (21 (228 Establishment of CRB,

DRB, PRB andMonitoringOrganisations . _

9 Preparation ofcompensation data onhouseholds

10 Accuracy ofcompensation UnitPrice (CUP for HHs

11 Application of CUP forHHs

12 Payment of____ Allowances

13 Site Clearance

14 Construction

15 Monitoring

16 Completion _ _

17 Disbursement

18 Delayed works

19 Project summary _ __I

87

ANNEX 5.2. YEN BAI 220KV SUBSTATION AND CONNECTIONS

No Description 2001 2002 2003 2004 2005No~ ~ Dsrpin___ ____-l __-___ -V_ _l

___ __________ __11111 I lI I' I 111 IIIIV1 I 11111I IV\ I 1 III Ill V\ II 1 III IV

( 1 ) (2) (3) (4) (5) (6) (7) ()(9) (10) (11) (12) ( (14) (15) (16) (17) (18) (19) (20) (21) (22)

1 Data survey on FS,RAP, EIA__ _ _ _ _

2 Completion of FS,__RAP, EIA

3 Approval of FS _ _ ___

4 Survey, completion ofDetailed EngineeringD esign ____ ____

5 Preparation of BiddingDocument forprocurement ofequipment__ __ _ _ _ _ __ _ _

6 Preparation of BiddingDocument for civilworks

7 Bidding for works ____ = =_ _

88

(1 l) . (2) (3) (4) (5) (6) (7) (8) (9) (10) (11) (12) (13) (14) (15) (16) ) (18) (19) (20) (21) (22)8 Establishment of CRB,

DRB, PRB andMonitoringOrganisations _ .__

9 Preparation ofcompensation data onhouseholds

10 Accuracy ofcompensation UnitPrice (CUP) for HHs _ _ _

11 Application of CUP forHHs

12 Payment ofAllowances

13 Site Clearance ___

14 Construction

15 Monitoring

16 Completion ___

17 Disbursement

18 Delayed works __i_

19 Project summary y _ i _ _ ___

89

ANNEX 5.3. BAC NINH 220KV SUBSTATION AND CONNECTIONS

No Description 2001 2002 2003 2004 2005

_ - III IV I II III lV -- IV I _ _I IV _III I I _II IV

( 1 ) (2) (3) (4) (5) (6) (7) (8) (9) (11) (12) (13) (14) (15) (16) (17) (18) (19) (20) (21) (22)1 Data survey on FS,

RAP, EIA 2 Completion of FS,

RAP, EIA______

3 Approval of FS __ _ = _= = = == =

4 Survey, completion ofDetailed EngineeringDesign__ _ _ _ __ __ _

5 Preparation of BiddingDocument forprocurement ofequipment _

6 Preparation of BiddingDocument for civilworks

7 Bidding for works l l _

90

(b 1 )(2) ( 3 ) ( 5 ) (6 ) (7) (9) 10) (1 2) ( 3) (1 4) (1 5) (1 6) (17) (18) (19) 2 (20) (2 2)8 Establishment of CRB,

DRB, PRB andMonitoringOrganisations _ _ _

9 Preparation ofcompensation data onhouseholds

10 Accuracy ofcompensation UnitPrice (CUP) for HHs _ _ __l

11 Application of CUP for _ _

HHs

12 Payment ofAllowances

13 Site Clearance ___

14 Construction

15 Monitorin - -

t16 Completion _===

17 Disbursement

18 Delayed works

19 Project summary _ . _ _

LIST OF MEATINGS ON EIATHAI BINH- HAI PHONG 220 KV TRANMISION LINE

Date Location Composition's meatings Representative Subject

20/9/ Giang bien peole's - Chairman's Com./P.C Hoang Duc Thien EIA2001 commitee - Fanmer's association Hoang Van Hoc

- Veterant's association Nguyen Van Xa- PECCI Quan Duc Lap

22/9/ An Hoa peole's - Deputy Chairman's Nguyen Trong Dao EIA2001 commitee Com./P.C Pham Van Nam

- Fanmer's association Nguyen Van Xa- Veterant's association Quan Duc Lap- PECC1

25/9/ An Tien peole's - Chairman's Com./P.C Pham Van Ngoan EIA2001 commitee - Farmer's association Nguyen Van Ty

- Women's association Nguyen Thi Ngai- PECCI Quan Duc Lap

28/9/ An Thang peole's - Chairman's Com./P.C Vu Hong Chuyen EIA2001 commitee - Farmer's association Hoang Van Thanh

- Veterant's association Do Van Tuan- PECCI Quan Duc Lap

30/9/ Tan Dan peole's - Chairnan's Com./P.C Bui Duc Dung EIA2001 commitee - Farmer's association Nguyen Huu Nam

- Women's association Hoang thi Nguyet- Veterant's association Nguyen Van Ry- PECC 1 Quan Duc Lap

5/10/ Quan Tru peole's - Chairman's Com./P.C Nguyen Xuan Chinh EIA2001 commitee

- Women's association Nguyen Thi Hoa- Veterant's association Dao Duy Thai- PECCI Quan Duc Lap

9/10/ Hong Thai peole's - Chairnan's Com./P.C Pham Van Thanh EIA2001 commitee - Farmer's association Dang Van Hoc

- Women's association Mai Thi Phuong- Veterant's association Hoang Van Thien- PECCI Quan Duc Lap

11/10 Quoc Tuan peole's - Chairman's Com./P.C Ngo Duc Nhuan EIA/2001 commitee - Farmer's association Nguyen Van Long

- Women's association Tran Thi Bay- PECCI Quan Duc Lap

14/10 Tu Cuong peole's - Chairman's Com./P.C Nguyen Van Dac EIA/2001 commitee - Fanner's association Pham Dinh Chinh

92

- Women's association Ngo Thi Luyen- Veterant's association Nguyen Huu Hoang- PECC I Quan Duc Lap

16/10 Lien Giang peole's - Chairman's com./P.C Nguyen Hao Huu EIA/2001 commitee - Primary school Nguyen Duc Thuy

- Commure people's Council Pham Ngoc Dau- Women's association Nguyen Thi Mui- PECCI Quan Duc Lap

18/10 An Ninh peole's - Chairman's Com./P.C Luong Hoanh Doanh EIA/2001 commitee - Farmer's association Nguyen Viet Hoi

- Women's association Dao Thi Thuc- Veterant's association Duong Van Thinh- PECCI Quan Duc Lap

20/10 An Ap peole's - Chairman's Com./P.C Nguyen Duy Buong EIA/2001 commitee - Quynh Phu irrgational

enterprise Nguyen Thi Thoa- Commure people's Council Phan Thanh Hoi- Farmer's association Nguyen Van Nho- PECC1 Quan Duc Lap

93

LIST OF MEATINGS ON EIAYEN BAI 220 KV SUBSTATION AND CONNECTION

Date | Location Composition's meatings Representative Subject

7/4/ Tan Thinh peole's - Chairman's Com./P.C Hoang Tich Chi EIA2001 commitee - Farmer's association Chu Hong Ha

- Veterant's association Nguyen Ngoc Diep- Women's association Ha Thi Hal- PECC 1 Ngo Dinh Phong

94

LIST OF MEATINGS ON EIABAC NINH 220 KV SUBSTATION AND CONNECTION

Date Location Composition's meatings Representative Subject

9/5/ Viet Hung peole's - Chairman's Com./P.C Nguyen Dang Sam EIA2001 commitee - Farmer's association Vu Quoc Hung

- Veterant's association Vu Van Dung- Women's association Nguyen Thi Thi- PECCI Ngo Luu Hung

11/5/ Bong Lai peole's - Chairman's Com./P.C Nguyen Vu Dung EIA2001 commitee - Farmer's association Nguyen Van Ninh

- Veterant's association Nguyen The Nam- Women's association Vu Thi Dung- PECCI Ngo Luu Hung

12/5/ Que Tan peole's - Chairman's Com./P.C Nguyen Van Giang EIA2001 commitee - Farmer's association Trinh Van Can

- Veterant's association Nguyen Hai Ha- Women's association Nguyen Minh Thu- PECCl Ngo Luu Hung

16/5/ Yen Lu peole's - Chairman's Com./P.C Tran Trung Dung EIA2001 commitee - Farmer's association Vu Dang Ninh

- Veterant's association Nguyen Van Quyet- Women's association Nguyen Thanh Hai- PECCI Ngo Luu Hung

95

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" h (;a (hu.n litiori tqvi'(n o'ir'ncc dAyi. 220 K', 1Thir I7i6nic -i7Jir "inli - Namn7 D)!lh. f7r,4 La, - !Uc: G,anz, TNW Lai - .&I &'cin

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1 ii iFinh [-;ii Jlhibn f11i NiO2n t-(Iii b5n ve lv 1 L.b) o6 1/50.000 sO 4-495 -PDD01IInh[1C I PTh9Q. Iwilt lai l-ac GCing1 UiT@ hi-iu treln btiw, ve khong q6 t- 1] 1/50.000f.1;inl. 9/i QC'. Pita al - ()C Sn IJ 1ti 11i i tTr8i baii v( IdOn1 sId UiALI 9/1 Q'>5

136 T6ng ilbart) Trttu c6 ' kiEn rll sau:

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- I U '.'cl 6 t7Ig t1 6t y iNialli ibilli l-. idu iirihr-liai t1b'n t(i iliul, tThn1 alnl Vc t v I

b1iil (16 1/50.000 sO 4495-DD.01 Uiiing 11/ 1995. Rjt.n12 dciuL tc11 tG tu ( (t I Il(9, (314 dc'n Ci16, 020 (1t-i G26 tIli(ng 11hll t.l pIuKTn l1 an ll (fic drunc (ieill

k1hico s-t tluLrc dia cua 13 QuOc pIi6no11 Qugui Q hu 3 ciinl COng tV kSEK dien 1flti6ii ntlrihl cli;tih MuY1i dE tiuilii c.ic cuirn kIho hiei dana s r (luroi.

- I velt dirfnoi dAy PiOl Lai - d3an Si. (lg uLn hie). II8i1 ba11 Ve S1 {\ IC,b,in ve 1/5.000 t016n1 11/1995.

- l1iveli ( trbnlo dAy MiA 1 lai -S6c Som 016 Ii(t.n trli b"in *'e kn)1g st v I i' 1/50.00() tIldina 1 1/1 90ffK

2. D6 ltil ing cOng lx Di&i luc Vi^.t 1Nain cili (130 cac (Imil ,I t[liilt kC' Hp

oirL c,ic bnlli) v' fait hbuig cnna tilufg ltyuvn (ltirng v dy diEn Ninl (oa thnuilft 1ntf ir-ii h (16 111aduk (K-1h6 0n 1 Itri gun VE vI )t vi klpi 1p(1 lui,p khu vurc (i;l

luinl ei. in- damij, 1h ro11 6,g i- v 1u klCm{ chiili xAc rifin rA( k,h khil clio vi&' xern x5.d6i Ci0 1 diic (il rlh dli jliar 11. 'ui 16 v;i llhuc dki:0

(,71] U LU? K/F TONG TT 1AM NMIut I R(o1NGICl

-7 A7r I r,6 . 1-) N TH 1AM iMUll TRU-0Y1\'G-(771<57 k dun 1/'C7VL. I;/10 1<&, hoa c,' I-J 0L1^ ,rI

-171 7!. (2 1nkhu I.

ch7(.I r?> Q7 A. N1i

O~~~~~~~~~~~~~~~~~

UY hIAN NlikN IJAN C(NG 1OA Xi HOT CHU NGHTIA V1tT NAMTiNH YEN 13A1 Doc lAp - Ttr do - I-IHanl phui

S61: I / U3 U - CN YO'n Bdi, tagoy 023 ilz4ing m7mm 2001V/v: ThoA thuAn dIta (lidm

Trsnn 220 KV vh tuy6n du&&g dAydgul n6l vNo trein-

K(n)i giri: T4ong C6ng ty Dien lirc Viet Narni

Ngay 15 tlhaig 02 nAin 2001 UBND Tinjl YOnii BIi da c6 c6ng van s6 97/lB-CN V/v tho'a thufn dia didrn tiam 220 KV vi' tuy6n dding day d,u n6i vAo tram,

NgAy 03 th6ng 5 nAm 2001 COng ty tY v'n xay d\rng difn 1 c6 van bAn 452t

EVN/TV- XDD 1.20 dL1 nglhi xin tlioi' thwhn lai tuydn DDK 220 KV ViUt Til - YCnBAi, Tram 220 KV Ydn BIi v'a cAc tuy6n 110 KV dau n6i vAo tiram. Nguyfn nhAntuy6n DDK 220 KV Vi¢t Trl - YBn B6i c6 Anh hu6ng den an nisi1i qu6c phrng.

T) dAm bHo an ninh qu6c ph6ng vc phli h,ap v6i qui hoach chung phit tridntr6i diEn qu6c gia i kju vtrc Yen Bai, U' ban nhfln dan rinh c6 9 ki'n nhu sau:

1. D6ng y cho T6ng COng ty Di)n Wc ViWt Nam xAy dt1mg tuy6n DDK 220 KVVi8t Th) - Y6n BAi, Tram 220 KV Y4n BAi vi cAc DDK 110 KV Mhu n6i vAo t8amthco noi dlung vali bAln theoa llluSli lai cua C6ng ty lu v&n xay dtrng Ditn I s6 452/EVN,TVXDD 1.20 ngay 3/5/2001 Lo han d6 52. 20 DD - 01 A (412001) k6m theo.

2. C6ng ty tu vAin xAy durng DiNri I va cac co quan chde niing cua T6ng Cong WyDien lLac ViAt Nam tri6n khai thuc hii c*ac buttc dNu tv xty dlung theo qui dinh hiinhanh c'ua nh'u nu&c.

VAn bAn nAy tlhay th6 van bAn s6 97/UB- CN ngay15/02/2001 cU UBND Tinh

Yen BAi./.

CHli TCII UI3NI) TiNHI YEN IBAINoaS nh4n: t KIT CHt TlCHNhux rtn PIIO ClUO lICH

* C6ng ty iu vgn xAy durng Dion 1.CAc S& Dja Chtnh, C'N, XD, Dion luc Yen 13I.

* Chuyen vi6n N144, XD,DTH.ru IIC, CN

-- oAlng XuAtt Li,c

Bo QUOC PI1ONG ((ONG HOA XA HOI (AiU NGMIA VILT NAM** :k OCe lap - 'T'i do - Hanh plitc

S6: ?060 1 IQf Ngay 49 ihdng/-' ndma 2001

V/v Ihoai thIuAii (uy6n DD)K 220k \ CUC TAC CHIENVi6 TTi-Y6n Bai va doan DDK1 lUk\'d1u 6l ti -ri1tc tranm 22(1kv YWn [J /

Kinh giri: T6n( Cfmong tY Dien ltrc Viet Nami

Sau khi nghien cCru c6ng van so: 250EVNf/D ngay 16 thAng 01 namn 2001cuta T6ng C6ng ty Dien lurc V"ict Nam vc vi&c xin thoa thuAn tuyen DDK 220kVViet tri - YWn Bai vt doan DDK I IOkV dau n6i trmdc tram 220kV Y&n BAi, B6Quoc ph6ng c6 y kien nhlut sair

1- Tuyen DDK 220 k\' Vii Tui-YCn Baii dirm diu dAu vao Tram 220kVVict Tri,.didin cuoi dS9u v.no (i amlz blei&i ap 220kV Yen Bai (vi tri m6i xin xay dull)va doan n6i DDK I 10 kV vo narn 220kV, khong anh hutr&ig 16n dnei nhi6m vuIqu6c p'h6lig trei kimii virc doc Iw\tYn. Cong trinh duu-cc thurc hicn se tao dI&I kiclnthuhn loi clio viec plAil rnh kn th xa h6i a dia phuoing. B6 Qu6c ph6ng d6ligtinh ilg ho. .

2- Thco pluron2 in h1" Wyn ( bi.An ve scd d6 kem thco c6ng van 25()EVN/TD cua T6ng C6n,g ty DiCI 1 ]LrC Viet Nam ) c6 m6t so vi tli tu G 29 denTram 220kv Yen BAi, tuy6n di qua kiti d^tt qu6c ph6ng do Quan khu 2 quin ly.Vi vAy phai nan tuyeln tiralnl xutiug phia nam theo theo so do B,S Qu6c ph6ng dixac dinji koein thlen va khli Ilian kTh;zi thi- ke ky thuAt, chu dur An can lam vicct1lil Ilhttt k'6 i t1Reo \!'i t;l lilf t1'; I leth6ncg nh6t \VOj dcoY vI tal ihiki di

3- Bo Qu6c phdlnQ uv f llhc Clio BTL Quan khu 2, giai quyet cac vNll de CIdi6 cua du iin c6 11Žn (quami t6 Ili iti Vu q4llc ph6ng an ninh. Nhlinlg v6n de vLrqiquii tharm quVen BTL Qtiziii kll ' c6 triAchl nhi6m bao cao xiii k$ kien cli dao ctnnB6./.

KTr. BO TRu6NG r3 QU6c, PHONGTH1rTR6UONG

A'oi ,:ha,; i:- Nhif :i

- (Cly iTr viJ: XI) IihŽ1 1 IQK2

-(ucT*YA chiCn -

Trung tr6ng11 f ',\N DUNG

UY BAN NHAN DAN CONG HOA XA H6I CHU NGHIA VItT NAMTINH BAC NINH O.c lap - T'r do - Hanh phuc

S6 :562 /NCN cT Bac Nilh, ngay'A7 thang 4 ndm 2001

V/v thoa thuan dia didm tram220KV Bac Ninh vA cAc tuy6n

DDK - 220, 11 OKV.

Kinh gii: - UBND huydn Qu6 v6- C6ng ty tir van didn lic I.

X&t d& nghi cfua Cong ty .tu van di6n luc 1 tai van ban s6 48EVN/TVXDDI - D20 ngay 4.1.2001, ciua UBND huyEn Qu6 Vo tai t6 trinh s679/IT-UB ngay 17.4.2001v6 vi6c thoa thuin dia didm xay dung tram 220KVBac Ninh va cac tuy6n DDK-220, 110 KV dau n6i v&i tram; Chlu tich UBNDtinh c6 5 ki6n nhu sau:

D6ng y v6i vi tri xAy durng tram 220KV Bac Ninh va cdc tuy6n DDK -220, 110 KV dgu n6i v6i tram nrhu sc d6 tuy6n do Cong ty tur vTn xfty dungDifn I lAp.

UBND tinh thong bao de Cong ty tu vgn xay d\mg Didn I hoan thidn hosci thi6t ke c6ng trimh ./. -

Noi nhdn: KT. CHU TICH UBND TINHPRO CHU TICH

- NhLykinh grin,,- C6c S&: CN-TFCN,DC,

XD, NN-PTNT,- Dien lue Bac Ninh,- Lru: HC, NCN, CVP.

Vii Ditc Trung

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0 4" AD ONECIO LACE OF SUBSTATION AND CONNECTION/ ~~~~ ~ ~~~~~~~~~~~~~~~~~~~~~'551-7 Vice Director Le Von Luc

0 ~~~~~~~~~~~~Chef of Div. Nguyen Von An

' ox rOj Monoger Ngo Di nh Phong_________ __

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