Of
VIBHUTI KHAND, GOMTI NAGAR, LUCKNOW
(2010 - 11)
Conducted By
E-42/2, Okhla Industrial Area, Phase-II,New Delhi – 110 020 (India)
Phone: 91-11–30854900/ 01/ 02; Fax: 91-11–26385333
E-mail: [email protected]; URL: www.energoindia.com
Acknowledgement
Energo Engineering Projects Limited (EEPL) expresses sincere thanks to the State
Designated Agency, U.P. for assigning us the Investment Grade Energy Audit of Dr Ram
Manohar Lohia Hospital, Lucknow.
EEPL extends special thanks to Sh. Navneet Sehgal, IAS – Chairman, UPPCL,
Sh. Narendra Bhooshan, IAS – Additional Managing Director, UPPCL for taking special
interest in taking up Energy Conservation projects in UP Government buildings/ Hospitals. We
are thankful to Shri V.K.Verma, Chief Engineer, UPSDA, Shri Saurabh, Supdt. Engineer,
UPSDA, Shri R. M. Chitranshi, Executive Engineer, UPSDA and Mrs. Varalika Dubey,
Executive Engineer, UPSDA for giving us an opportunity to carry out this study and for
coordinating with various authorities to make this project a reality.
We are indeed touched by the helpful attitude and co-operation of all the officers, technicians,
staff and operators who have rendered their valuable assistance during the course of study.
Energy Audit Team
Shri T N Chaturvedi Energy Auditor
Shri Aniruddha Neogi Consultant
Shri Ram Kishore Jaiswal Energy Auditor
Mr Ashutosh Kumar Energy Auditor
Shri Vijay Veer Singh Consultant
Shri Gagandeep Field Executive
Shri Ashish Trivedi Field Executive
Shri Sujeet Choudhary Field Executive
(Signatory)Energo Engineering Projects Limited
Contents
Chapter-1 Introduction.............................................................................................2
1.1. Broad Scope of Work...................................................................................................2
1.2. Methodology Adopted for The Energy Audit................................................................2
1.3. Instrumentation Support Used.....................................................................................2
Chapter-2 Review of Present Electricity and Fuel Consumption.........................2
2.1. Purchased Power.........................................................................................................2
2.1.1. Maximum Demand Variations.........................................................................2
2.1.2. KVAH and KWH Consumption Pattern...........................................................2
2.1.3. Operating Monthly Power Factor Variations...................................................2
2.1.4. Purchased Power Cost...................................................................................2
2.2. Self Generated Power..................................................................................................2
2.2.1. DG Sets..........................................................................................................2
2.3. Recommendations.......................................................................................................2
2.3.1. Maintaining Higher Operating Power Factor...................................................2
Chapter-3 Electrical Distribution System And Power Quality..............................2
3.1. Building Operational Load............................................................................................2
3.2. Power Quality & Harmonics.........................................................................................2
Chapter-4 Lighting System......................................................................................2
4.1. Systems Installed.........................................................................................................2
4.2. Lux Levels....................................................................................................................2
4.2.1. Recommended Levels....................................................................................2
4.2.2. Measured Lux Level.......................................................................................2
4.3. Recommended Lux Levels..........................................................................................2
4.4. Recommendations.......................................................................................................2
4.4.1. Installation of Energy Efficient Lights..............................................................2
4.4.2. Lighting Control..............................................................................................2
Chapter-5 Other Areas of Focus..............................................................................2
5.1. Load on Other Motors..................................................................................................2
5.2. Control lighting with Occupancy Sensors....................................................................2
5.3. Timed Based Control or Daylight Linked Control.........................................................2
5.4. Localized Switching.....................................................................................................2
Chapter-6 Energy Monitoring and Accounting............................................................2
List of Annexures
Annexure-1 Energy Efficient Equipment Suppliers
Annexure-2 Project Plant (Phase-1 & 2)
Annexure-3 Abbreviations Used
Investment Grade Energy Audit of Dr Ram Manohar Lohia Hospital, Lucknow
(Draft Report)
CHAPTER-1INTRODUCTION
With the advent of energy crisis and exponential hikes in the costs of different forms of energy, Energy Audit is manifesting its due importance in Commercial Establishments. Energy Audit helps to understand more about the ways energy and fuels are used in any Establishments and helps in identifying areas where waste may occur and scope for improvement exists.
Energy Audit is the key to a systematic approach for decision-making in the area of energy management as it attempts to balance the total energy inputs with its use and serves to identify all the energy streams in a facility/ Establishment.
It was with this objective that Energo Engineering Projects Limited was entrusted by the UP Power Corporation Limited (UPPCL) UPSDA, Lucknow, the Investment Grade Energy Audit of Dr Ram Manohar Lohia Hospital, Vibhuti Khand, Gomti Nagar, Lucknow.
1.1. BROAD SCOPE OF WORK
Review of present electricity, fuel oil & estimation of energy consumption in various load centers like lighting, Air-Conditioning, Water Pumping and usage of other electrical appliances such as room heater, computers, water coolers/refrigerators etc.
Electrical Distribution System
Review of present electrical distribution system like Single Line Diagram (SLD), Transformer loading cable loading, normal, peak hour loading & emergency loads in various areas/floors etc.
Study of Reactive Power Management and option for power factor improvement.
Study of power quality like Harmonics, current unbalance, voltage unbalance etc.
Exploring the Energy Conservation Option (ENCON) in electrical distribution system.
(Page-1)
Investment Grade Energy Audit of Dr Ram Manohar Lohia Hospital, Lucknow
(Draft Report)
Lighting System
Review of present lighting system, lighting inventories etc.
Estimation of lighting load at various locations like different floors, outside (campus) light, pump house and other important locations.
Detailed lux level survey at various locations and comparison with acceptable standards.
Study of present lighting control system and recommend for improvement.
Analysis of lighting performance indices like Lux/m2, lux/watt,
Exploring the Energy Conservation Option (ENCON) in lighting system.
Motor Load Survey
Conducting the motor load survey of all drives to estimate the % loading
Exploring the ENCON options in electric drive system
Energy Monitoring & Accounting System
Detail review of present energy monitoring &accounting system in terms of metering, record keeping, data logging, periodic performance analysis etc.
Recommend for effective energy monitoring & accounting system.
Heating, Ventilation & Air-Conditioning System (HVAC System).
Review of present HVAC system like central AC, window AC, split AC, package AC, Water Coolers, and Air heaters etc.
Performance assessment of window AC, Split AC and Package AC system. Performance assessment of Chillers, Cooling Towers, Air Handling Units (AHUs) and cold insulation system of central AC.
Analysis of HVAC performance like estimation of Energy Efficiency Ratio (EER i.e. KW/TR), Specific Energy Consumption (SEC) of Chilled Water Pumps, Condenser Water Pumps, AHUs etc. and comparison of the operating date with the design data.
Exploring the Energy Conservation Option (ENCON) in HVAC System.
(Page-2)
Investment Grade Energy Audit of Dr Ram Manohar Lohia Hospital, Lucknow
(Draft Report)
Water Pumping System
Review of water pumping, storage and distribution systems.
Performance assessment of all major water pumps i.e. power consumption vs. flow delivered, estimation of pump efficiency etc.
Exploring the Energy Conservation Option (ENCON) in Water Pumping System.
Others
Review of present maintenance practice, replacement policies and building safety practices as applicable to high rising buildings and recommend for improvement.
Cost Benefit Analysis of each ENCON options indicating simple payback period return on investment (ROI), Internal Rate of Return (IRR).
Building Energy Audit Report / Detail Project Reports must fulfill the above
mentioned points in scope of work and the bidder can also provide other Energy Conservation Option.
1.2. METHODOLOGY ADOPTED FOR THE ENERGY AUDIT
Methodology adopted for achieving the desired objectives viz. Assessment of the Current operational status and Energy savings included the following:
Discussions with the concerned officials/ supervisors in the Building for identification of major areas of focus and other related systems
A team of Certified Energy Auditors and Field staff visited the building complex to collect data/ information on the Load Distribution and Energy Consumption pattern. The data was analyzed to arrive at a base line energy consumption pattern.
Measurements and monitoring with the help of appropriate instruments including continuous and/ or time-lapse recording, as appropriate and visual observations were made to identify the energy usage pattern and losses in the system.
Computation and in-depth analysis of the collected data, including analysis and other techniques as appropriate was done and to evolve suitable energy conservation plan/s for improvements/ reduction in Specific Energy Consumption.
(Page-3)
Investment Grade Energy Audit of Dr Ram Manohar Lohia Hospital, Lucknow
(Draft Report)
1.3. INSTRUMENTATION SUPPORT USED
Name of the Instrument (Make/ Model)
Primary Measured
Parameters
Measuring Range
Accuracy Resolution
Load Manager with appropriate CT’s and Voltage Probes for HT & LT measurements (Krykard/ALM 8 & ALM 30)
Active Power 0 – 9999 KW + 1% 4 digit
Reactive Power
0 – 9999 KVAR + 1% 4 digit
Power Factor 0.14 – 1 + 1.5% 0.001
Anemometer (Extech/ 45118)
Air Velocity 0.5 – 89 miles/hr + 3% 3½ digit LCD with multi function
indicators
Digital Pressure Meter (Comark, UK)
Pressure 0 – 350 mbar + 0.2% 4 digit
Lux Meter (TES 1332) Lux 0 to 200000 lux + 3% 3½ digit LCD
Surface Temperature Indicator with appropriate Probe (CHY 501 K)
Temperature -50°C to 450°C + 0.3% 0.5°C
(Page-4)
Investment Grade Energy Audit of Dr Ram Manohar Lohia Hospital, Lucknow
(Draft Report)
CHAPTER-2REVIEW OF PRESENT ELECTRICITY AND FUEL CONSUMPTION
2.1. PURCHASED POWER
2.1.1. MAXIMUM DEMAND VARIATIONS
Contracted Load: 333.33 KVAMinimum Billable Demand (75% of CD): 250 KVA
Billing Month
Contract Demand
(KVA)
Minimum Billable
Demand (KVA)
Actual Demand (KVA)
Billing Demand
(KVA)
Remarks
Jul-09 333.33 250 717.0 717.0 Unwanted Scenario
Aug-09 333.33 250 605.4 605.4 Unwanted Scenario
Sep-09 333.33 250 535.2 535.2 Unwanted Scenario
Oct-09 333.33 250 560.8 560.8 Unwanted Scenario
Nov-09 333.33 250 853.2 853.2 Unwanted Scenario
Dec-09 333.33 250 484.8 484.8 Unwanted Scenario
Jan-10 333.33 250 385.2 385.2 Unwanted Scenario
Feb-10 333.33 250 512.0 512.0 Unwanted Scenario
Mar-10 333.33 250 334.0 334.0 Ideal Scenario
Remarks:- The Contracted Billable Demand is 333.33 KVA and the recorded demand has always exceeded the contracted demand indicating scope to enhance the Contract Demand. The Fixed Demand Charges is being charged @ Rs 140/- per KVA
Analyzing the above data (09 months), the following scenarios emerge:
Scenario-1: The Actual Demand was Lower than the Minimum Billable Demand of 250 KVA, as a result the complex had to pay more. Unwanted Scenario.
Occurrence: Nil
Scenario-2: The Actual Demand is between the Minimum Billable Demand of 250 KVA and Contract Demand of 333.33 KVA. Ideal Scenario.
Occurrence: Observed in the month of March (1 month).
(Page-5)
Investment Grade Energy Audit of Dr Ram Manohar Lohia Hospital, Lucknow
(Draft Report)
Scenario-3: The Actual Demand exceeds the Contract Demand of 333.33 KVA. An Unwanted Scenario.
Occurrence: In the month of July, August, September, October, November, December, January & February.
(Page-6)
Investment Grade Energy Audit of Dr Ram Manohar Lohia Hospital, Lucknow
(Draft Report)
2.1.2. KVAH AND KWH CONSUMPTION PATTERN
Billing Month
KWh Consumption
KVAh Consumption
Energy Charges (Rs)
Electricity Duty (Rs)
Jul-09 168588 186078 632665 15173
Aug-09 257928 288684 981526 23214
Sep-09 156616 179152 609117 14095
Oct-09 184156 217360 739024 16574
Nov-09 148938 190416 647414 13404
Dec-09 145728 185880 631992 13116
Jan-10 211968 236562 804311 19077
Feb-10 185436 234474 797212 16689
Mar-10 152958 186528 634195 13766
Remarks:- The Energy Charges is being charged @ Rs 3.40/- per KVAh (as on Mar-2010) and Electricity Duty is being Charged @ 9 paisa per KWh (as on Mar-2010)
(Page-7)
Investment Grade Energy Audit of Dr Ram Manohar Lohia Hospital, Lucknow
(Draft Report)
2.1.3. OPERATING MONTHLY POWER FACTOR VARIATIONS
Billing Month Power Factor
Jul-09 0.906
Aug-09 0.893
Sep-09 0.874
Oct-09 0.847
Nov-09 0.782
Dec-09 0.784
Jan-10 0.896
Feb-10 0.791
Mar-10 0.820
During the above nine months, for which the data is available, the monthly average operating power factor has varied from 0.782 to 0.906, with an overall average of 0.844.
(Page-8)
Investment Grade Energy Audit of Dr Ram Manohar Lohia Hospital, Lucknow
(Draft Report)
2.1.4. PURCHASED POWER COST
Billing Month
Energy Consumption Energy Charges (Rs)
Fixed/ Demand Charges (Rs)
Excess Demand Surcharge (Rs)
Electricity Duty (Rs)
AC Charges (Rs)
Net Bill (Rs)
KWh KVAh
Jul-09 168588 186078 632665 100380 107428 15173 13500 869146
Aug-09 257928 288684 981526 84756 76180 23214 13500 1179175
Sep-09 156616 179152 609117 74928 56524 14095 13500 768164
Oct-09 184156 217360 739024 78512 63692 16574 - 897802
Nov-09 148938 190416 647414 119448 145564 13404 - 925830
Dec-09 145728 185880 631992 67872 42412 13116 - 755391
Jan-10 211968 236562 804311 53928 14524 19077 - 891840
Feb-10 185436 234474 797212 71680 50028 16689 - 935609
Mar-10 152958 186528 634195 46760 - 13766 - 694721
Average per month
179146 211682 879742
Total per Annum
2149752 2540184 10556904
Purchased Power Rate Rs 4.16/- per KVAh
Equivalent to Rs 4.91/- per KWh
(Page-9)
Investment Grade Energy Audit of Dr Ram Manohar Lohia Hospital, Lucknow
(Draft Report)
2.2. SELF GENERATED POWER
2.2.1. DG SETS
The Hospital has installed four DG Sets of different rating for their In-house power generation during load shedding/ power cuts.
Rated specifications of the DG Sets has been given under:-
Particulars DG Set-1 DG Set-2 DG Set-3 DG Set-4
AC Alternator
Make Kirloskar Green Kirloskar Green Kirloskar Electric Co. Ltd.
Kirloskar Electric Co. Ltd.
Rating (KVA) 320 125 25 25
Speed (rpm) 1500 1500 1500 1500
Current (Amps) 445.2 174 24.8 24.8
Power Factor 0.80 0.80 0.80 0.80
Voltage (Volts) 415 415 415 415
Frequency (Hz) 50 50 50 50
Engine
Make Kirloskar Oil Engined Ltd.
Kirloskar Oil Engined Ltd.
Greaves Cotton Ltd.
Greaves Cotton Ltd.
Power 284 KW / 386 HP 115 KW / 156 HP 37.1 KW 37.1 KW
2.3. RECOMMENDATIONS
2.3.1. MAINTAINING H IGHER OPERATING POWER FACTOR
The main incomer supply to the Hospital is at 11 KV, which is subsequently stepped down to 433 volts using 02 Transformers of the following specifications.
(Page-10)
Investment Grade Energy Audit of Dr Ram Manohar Lohia Hospital, Lucknow
(Draft Report)
Rating 750 KVA
Voltage Ratio 11 KV / 433 V
Current Ratio 39.36 / 1000 A
Make P M Electronics Limited
Mfg Year 1996
No Load Losses 1200 Watts
Full Load Losses 7500 Watts
The Hospital has not installed Capacitor Banks for power factor improvement. After analyzing the data for nine months, it was observed that the monthly average operating power factor has varied from 0.782 to 0.906, with an overall average of 0.844, which is quite low and as a result of this the monthly KVAh consumption goes up substantially.
Based on the actual maximum demand during the nine months for which the data was available, the total KVAR requirements in the hospital have been worked out below.
Calculation indicating the estimated size of the Capacitor to be installed
Actual Maximum Demand (observed in Nov-09) 853.2 KVA
Average Operating Power Factor (considering overall average from the Electricity Bills of nine months)
0.844
Corresponding Maximum Load 720 KW
Desired Power Factor 0.99
KVAR Requirement 355 KVAR
Formula
KVAR = Power Drawn x [tan{cos-1(Old power factor)}-tan{cos-1(New power factor)}]
Analysis
Billing Month
KWh Consumption
KVAh Consumption
Power Factor at present
Revised KVAh Consumption with 0.99 Pf
Net Reduction in KVAh
Consumption
Net Reduction in Energy
Charges (Rs)
Jul-09 168588 186078 0.906 170291 15787 53676
Aug-09 257928 288684 0.893 260533 28151 95713
Sep-09 156616 179152 0.874 158198 20954 71244
Oct-09 184156 217360 0.847 186016 31344 106570
(Page-11)
Investment Grade Energy Audit of Dr Ram Manohar Lohia Hospital, Lucknow
(Draft Report)
Billing Month
KWh Consumption
KVAh Consumption
Power Factor at present
Revised KVAh Consumption with 0.99 Pf
Net Reduction in KVAh
Consumption
Net Reduction in Energy
Charges (Rs)
Nov-09 148938 190416 0.782 150442 39974 135912
Dec-09 145728 185880 0.784 147200 38680 131512
Jan-10 211968 236562 0.896 214109 22453 76340
Feb-10 185436 234474 0.791 187309 47165 160361
Mar-10 152958 186528 0.820 154503 32025 108885
Total 1905134 1628601 276533 940213
Monitory Benefit
Net Reduction in the Energy Charges Rs 9.40 Lacs per annum
Estimated Investments for installed 355 KVAR Capacitor Banks
Rs 8.88 Lacs
Simple Payback Period 11- 12 months
(Page-12)
Investment Grade Energy Audit of Dr Ram Manohar Lohia Hospital, Lucknow
(Draft Report)
CHAPTER-3ELECTRICAL DISTRIBUTION SYSTEM AND POWER QUALITY
3.1. BUILDING OPERATIONAL LOAD
Two transformers has been installed for supplying power to the hospital and colony. Both the transformers are working in parallel. The combined load of the building was as follows:
Particulars General Load Emergency Load
Total Load
Voltage (Volts)
"R" Phase 252 252
"Y" Phase 252 251
"B" Phase 250 249
Current (Amps)
"R" Phase 150 152
"Y" Phase 140 154
"B" Phase 172 133
Power Factor
"R" Phase 0.817 0.757
"Y" Phase 0.795 0.771
"B" Phase 0.875 0.72
Power Drawn (KW)
"R" Phase 30.88 29.00
"Y" Phase 28.05 29.80
"B" Phase 37.63 23.84
Total 96.56 82.64 179.2
Power Drawn
(Page-13)
Investment Grade Energy Audit of Dr Ram Manohar Lohia Hospital, Lucknow
(Draft Report)
Particulars General Load Emergency Load
Total Load
(KVA) "R" Phase 37.8 38.304
"Y" Phase 35.28 38.654
"B" Phase 43 33.117
Total 116.08 110.08 226.16
3.2. POWER QUALITY & HARMONICS
Equipment based on frequency conversion techniques generates harmonics. With the increased use of such equipments, harmonics related problems have enhanced which are leading to heating of cables, bus bars and transformers, overloading of electrical distribution system, frequent tripping of switchgears, frequent failure of costly mother boards, Power PCBs and capacitors of equipments etc.
The harmonic currents generated by different types of loads, travel back to the source. While traveling back to the source, they generate harmonic voltages. Harmonic voltages, which appear on the system bus, are harmful to other equipment connected on the same bus. In general, sensitive electronic equipment connected on this bus, will be affected.
The measured Harmonics Level on each Transformer was as follows.
(Page-14)
The Harmonic Voltage and Current Limitations set forth by IEEE 519
1992 are:
Investment Grade Energy Audit of Dr Ram Manohar Lohia Hospital, Lucknow
(Draft Report)
Location Voltage Harmonics (VTHD)
Current Harmonics (ATHD)
RPH YPH BPH RPH YPH BPH
General Load 1.1 1.7 2.0 18.0 23.2 15.3
Emergency Load 1.4 1.1 2.1 8.6 5.3 7.3
The overall harmonic levels are within the permissible limits.
(Page-15)
Investment Grade Energy Audit of Dr Ram Manohar Lohia Hospital, Lucknow
(Draft Report)
CHAPTER-4LIGHTING SYSTEM
4.1. SYSTEMS INSTALLED
ParticularsS
TL
Fit
tin
gs
(4
0 W
)
DT
L F
itti
ng
s (4
0 W
x 2
N
os)
CF
L F
itti
ng
s (1
5 W
)
CF
L F
itti
ng
s (9
W x
2 N
os)
CF
L F
itti
ng
s (3
6 W
x 2
N
os)
CF
L F
itti
ng
s (3
6 W
x 3
N
os)
CF
L F
itti
ng
s (2
3 W
)
CF
L F
itti
ng
s (1
8 W
x 2
N
os)
CF
L F
itti
ng
s (5
W)
En
erg
y
Eff
icie
nt
T-5
F
itti
ng
s (1
4
w)
ST
L F
itti
ng
s
(18
W x
4
No
s)
Ground Floor
Radiology Deptt.
Hall + Counter 28 3
Rooms 14 15 4 3
Physiotherapy Deptt 50 4 2
State Refrell Center 1 11 7 5
General ward-1 38 11
General ward-2 38 11
General ward-3 38 11
General ward-4 38 11
General ward-5 38 11
(Page-16)
Investment Grade Energy Audit of Dr Ram Manohar Lohia Hospital, Lucknow
(Draft Report)
Particulars
ST
L F
itti
ng
s
(40
W)
DT
L F
itti
ng
s (4
0 W
x 2
N
os)
CF
L F
itti
ng
s (1
5 W
)
CF
L F
itti
ng
s (9
W x
2 N
os)
CF
L F
itti
ng
s (3
6 W
x 2
N
os)
CF
L F
itti
ng
s (3
6 W
x 3
N
os)
CF
L F
itti
ng
s (2
3 W
)
CF
L F
itti
ng
s (1
8 W
x 2
N
os)
CF
L F
itti
ng
s (5
W)
En
erg
y
Eff
icie
nt
T-5
F
itti
ng
s (1
4
w)
ST
L F
itti
ng
s
(18
W x
4
No
s)
General ward-6 38 11
Private Ward-4 43 10 30
Private Ward-3 43 10 30
Private Ward-2 43 10 30
Private Ward-1 43 10 30
Stairs 2
Gallery G/F 38
Gallery 1st Floor 40
G/F Service Block Gallery
9
G/F Kitchen 42 18
G/F Medical Record Room
2 4
G/F Laundry 9
G/F Contingency Store room
7
G/F Main Medicine Store
5 16
(Page-17)
Investment Grade Energy Audit of Dr Ram Manohar Lohia Hospital, Lucknow
(Draft Report)
Particulars
ST
L F
itti
ng
s
(40
W)
DT
L F
itti
ng
s (4
0 W
x 2
N
os)
CF
L F
itti
ng
s (1
5 W
)
CF
L F
itti
ng
s (9
W x
2 N
os)
CF
L F
itti
ng
s (3
6 W
x 2
N
os)
CF
L F
itti
ng
s (3
6 W
x 3
N
os)
CF
L F
itti
ng
s (2
3 W
)
CF
L F
itti
ng
s (1
8 W
x 2
N
os)
CF
L F
itti
ng
s (5
W)
En
erg
y
Eff
icie
nt
T-5
F
itti
ng
s (1
4
w)
ST
L F
itti
ng
s
(18
W x
4
No
s)
G/F Emergency Ward 49 12 17
Bathroom 3 4 3 6
G/F Emergency OT Ward
30 18
Emergency OPD 16 12 4 5 11
Gynae Ward 39 28
G/F NICU 9
OT-1 1 15
OT-2 & 3 1 23
OT-4 1 15
OT-5 & 6 1 23
OT Gallery (Backside)
19
OT Patient Hall 27
OT Gallery (Front side)
22 5
General Ward-8 11 15 2
IC Unit 8 8
(Page-18)
Investment Grade Energy Audit of Dr Ram Manohar Lohia Hospital, Lucknow
(Draft Report)
Particulars
ST
L F
itti
ng
s
(40
W)
DT
L F
itti
ng
s (4
0 W
x 2
N
os)
CF
L F
itti
ng
s (1
5 W
)
CF
L F
itti
ng
s (9
W x
2 N
os)
CF
L F
itti
ng
s (3
6 W
x 2
N
os)
CF
L F
itti
ng
s (3
6 W
x 3
N
os)
CF
L F
itti
ng
s (2
3 W
)
CF
L F
itti
ng
s (1
8 W
x 2
N
os)
CF
L F
itti
ng
s (5
W)
En
erg
y
Eff
icie
nt
T-5
F
itti
ng
s (1
4
w)
ST
L F
itti
ng
s
(18
W x
4
No
s)
General Ward-7 19 18
OPD Deptt.
Main Hall 47 11 1
Room-9 2
Room-11 2
Room-10
Room-12
Room-13 3
Room-1 3
Room-15 3
Room-26 3
Room-2 2
Room-3 2
Room-4 2
Room-5 2
Room-7 2
Room-8 2
(Page-19)
Investment Grade Energy Audit of Dr Ram Manohar Lohia Hospital, Lucknow
(Draft Report)
Particulars
ST
L F
itti
ng
s
(40
W)
DT
L F
itti
ng
s (4
0 W
x 2
N
os)
CF
L F
itti
ng
s (1
5 W
)
CF
L F
itti
ng
s (9
W x
2 N
os)
CF
L F
itti
ng
s (3
6 W
x 2
N
os)
CF
L F
itti
ng
s (3
6 W
x 3
N
os)
CF
L F
itti
ng
s (2
3 W
)
CF
L F
itti
ng
s (1
8 W
x 2
N
os)
CF
L F
itti
ng
s (5
W)
En
erg
y
Eff
icie
nt
T-5
F
itti
ng
s (1
4
w)
ST
L F
itti
ng
s
(18
W x
4
No
s)
Room-6 3
Registration Counter 6 3
Room-16 2
Room-17 2
Room-18 2
Room-19 2
Room-20 2
Room-21 2
Room-22A 2
Room-22B 2
Room-23A 2
Room-23B 8
Room-24 2
Room-25 2
Room-26 3
Gents Toilet 4
Ladies Toilet 4
(Page-20)
Investment Grade Energy Audit of Dr Ram Manohar Lohia Hospital, Lucknow
(Draft Report)
Particulars
ST
L F
itti
ng
s
(40
W)
DT
L F
itti
ng
s (4
0 W
x 2
N
os)
CF
L F
itti
ng
s (1
5 W
)
CF
L F
itti
ng
s (9
W x
2 N
os)
CF
L F
itti
ng
s (3
6 W
x 2
N
os)
CF
L F
itti
ng
s (3
6 W
x 3
N
os)
CF
L F
itti
ng
s (2
3 W
)
CF
L F
itti
ng
s (1
8 W
x 2
N
os)
CF
L F
itti
ng
s (5
W)
En
erg
y
Eff
icie
nt
T-5
F
itti
ng
s (1
4
w)
ST
L F
itti
ng
s
(18
W x
4
No
s)
Medicine counter 10
Room-29 2
Room-30 2
Room-31 2
Room-32 2
Room-33 2
Room-34 2
Dressing Counter 2
Dressing Room 2
First Floor
Room-101 2
Room-102 5
Room-103 2
Room-104 2
Room-105 2
Room-106 1 1
Room-107 2
(Page-21)
Investment Grade Energy Audit of Dr Ram Manohar Lohia Hospital, Lucknow
(Draft Report)
Particulars
ST
L F
itti
ng
s
(40
W)
DT
L F
itti
ng
s (4
0 W
x 2
N
os)
CF
L F
itti
ng
s (1
5 W
)
CF
L F
itti
ng
s (9
W x
2 N
os)
CF
L F
itti
ng
s (3
6 W
x 2
N
os)
CF
L F
itti
ng
s (3
6 W
x 3
N
os)
CF
L F
itti
ng
s (2
3 W
)
CF
L F
itti
ng
s (1
8 W
x 2
N
os)
CF
L F
itti
ng
s (5
W)
En
erg
y
Eff
icie
nt
T-5
F
itti
ng
s (1
4
w)
ST
L F
itti
ng
s
(18
W x
4
No
s)
Room-108 & 109 7
Room-110 2
Room-111 & 112 8 6
Room-113 2
Hall 34 17
Stairs 4
Room-114 2
Room-115 2
Room-116 2
Room-117 2
Room-118 3
Room-129 3
Room-130 2
Room-131 2
Room-134 2
Room-135 2
Room-136 2
(Page-22)
Investment Grade Energy Audit of Dr Ram Manohar Lohia Hospital, Lucknow
(Draft Report)
Particulars
ST
L F
itti
ng
s
(40
W)
DT
L F
itti
ng
s (4
0 W
x 2
N
os)
CF
L F
itti
ng
s (1
5 W
)
CF
L F
itti
ng
s (9
W x
2 N
os)
CF
L F
itti
ng
s (3
6 W
x 2
N
os)
CF
L F
itti
ng
s (3
6 W
x 3
N
os)
CF
L F
itti
ng
s (2
3 W
)
CF
L F
itti
ng
s (1
8 W
x 2
N
os)
CF
L F
itti
ng
s (5
W)
En
erg
y
Eff
icie
nt
T-5
F
itti
ng
s (1
4
w)
ST
L F
itti
ng
s
(18
W x
4
No
s)
Blood Bank 41 11
Pathology Deptt. 29 41
Second Floor
Admin Block
Bathroom 1
Cashier Room 4
Gallery 9
CMS Room 2 4
MS Room 1 4
Female MS Room 3 4
Female CMS Room 1 4
Vacant Room 1
Conference Room 4
Office 3
Camp Office 1
Computer Room 1
Attached Room 1
(Page-23)
Investment Grade Energy Audit of Dr Ram Manohar Lohia Hospital, Lucknow
(Draft Report)
Particulars
ST
L F
itti
ng
s
(40
W)
DT
L F
itti
ng
s (4
0 W
x 2
N
os)
CF
L F
itti
ng
s (1
5 W
)
CF
L F
itti
ng
s (9
W x
2 N
os)
CF
L F
itti
ng
s (3
6 W
x 2
N
os)
CF
L F
itti
ng
s (3
6 W
x 3
N
os)
CF
L F
itti
ng
s (2
3 W
)
CF
L F
itti
ng
s (1
8 W
x 2
N
os)
CF
L F
itti
ng
s (5
W)
En
erg
y
Eff
icie
nt
T-5
F
itti
ng
s (1
4
w)
ST
L F
itti
ng
s
(18
W x
4
No
s)
Outer Area + Stairs/ Gallery
33 26
Electrician Room + Polio Booth
3 5
Admn Building Entrance
6 8
MRI 15
(Page-24)
Investment Grade Energy Audit of Dr Ram Manohar Lohia Hospital, Lucknow
(Draft Report)
Summary of Fittings Installed
Type Quantity Connected Lighting Load (Watts)
STL Fittings 1234 Nos (40 W) 49360
DTL Fittings 359 Nos (40 W x 2 Nos) 28720
CFL Fittings 45 Nos (15 W) 675
CFL Fittings 11 Nos (9 W x 2 Nos) 198
CFL Fittings 23 Nos (36 W x 2 Nos) 1656
CFL Fittings 36 Nos (36 W x 3 Nos) 3888
CFL Fittings 4 Nos (23 W) 92
CFL Fittings 14 Nos (18 W x 2 Nos) 504
CFL Fittings 157 Nos (5 W) 785
Energy Efficient T-5 Fittings 2 Nos (14 W) 28
STL Fittings 142 Nos (18 W x 4 Nos) 10224
Total 96130(say 100 KW)
4.2. LUX LEVELS
4.2.1. RECOMMENDED LEVELS
The recommended lux level for Corridors, Passageways, Stairs is around 100, Exterior Walkways & Platforms 50. The Service Illuminance on Task, which is mainly required in the building, should not be less than 200 lux. The recommended lux levels for various activities are as follows:
General Building Area- Circulation Area Recommended Lux
Lifts 100
Corridors, Passageways, Stairs 100
Escalators, Travelers 150
(Page-25)
Investment Grade Energy Audit of Dr Ram Manohar Lohia Hospital, Lucknow
(Draft Report)
General Building Area- Circulation Area Recommended Lux
General Lighting for Rooms and areas used either infrequently and/or casually or Simple visual tasks
Exterior Circulating Areas, Outdoor Stores, Stockyards etc 20
Exterior Walkways & Platform 50
General Lighting for Interiors
Service Illuminance on Task 200
4.2.2. MEASURED LUX LEVEL
Particulars Measured Lux
OPD Deptt.
Room-9 157
Room-11 149
Room-10 187
Room-12 200
Room-13 226
Room-1 235
Room-15 220
Room-26 228
Room-2 150
Room-3 220
Room-4 130
Room-5 230
Room-7 240
Room-8 210
Room-6 250
Registration Counter 210
Room-16 215
Room-17 209
Room-18 200
(Page-26)
Investment Grade Energy Audit of Dr Ram Manohar Lohia Hospital, Lucknow
(Draft Report)
Particulars Measured Lux
Room-19 210
Room-20 215
Room-21 209
Room-22A 190
Room-22B 209
Room-23A 150
Room-23B 210
Room-24 190
Room-25 210
Room-26 205
Medicine counter 200
Room-29 181
Room-30 140
Room-31 190
Room-32 235
Room-33 210
Room-34 195
Dressing Counter 200
Dressing Room 188
1st Floor
Room-101 200
Room-102 178
Room-103 186
Room-104 140
Room-105 190
Room-106 210
Room-107 150
Room-110 130
Room-113 250
Room-114 185
(Page-27)
Investment Grade Energy Audit of Dr Ram Manohar Lohia Hospital, Lucknow
(Draft Report)
Particulars Measured Lux
Room-115 212
Room-116 230
Room-117 200
Room-118 220
Room-129 189
Room-130 204
Room-131 230
Ground Floor
Radiology Deptt.
General ward-1 228
General ward-2 226
General ward-3 243
General ward-4 182
General ward-5 159
General ward-6 146
Private Ward-4 238
Private Ward-3 233
Private Ward-2 251
Private Ward-1 184
Gallery G/F 218
Gallery 1st Floor 198
G/F Service Block Gallery 204
G/F Kitchen 169
G/F Medical Record Room 216
G/F Laundry 265
G/F Contingency Store room 255
G/F Main Medicine Store 268
G/F Emergency Ward 166
Bathroom 195
G/F Emergency OT Ward 205
(Page-28)
Investment Grade Energy Audit of Dr Ram Manohar Lohia Hospital, Lucknow
(Draft Report)
Particulars Measured Lux
Emergency OPD 227
Gynae Ward 233
G/F NICU 228
OT-1 208
OT-2 & 3 228
OT-4 226
OT-5 & 6 243
OT Gallery (Backside) 182
OT Patient Hall 159
OT Gallery (Front side) 146
General Ward-8 238
General Ward-7 233
Second Floor
Admin Block
Cashier Room 235
CMS Room 952
MS Room 840
Female MS Room 800-900
Female CMS Room 1100
Vacant Room 159
Conference Room 200
Office 250
Note:- The lux Levels given above is the average values. Number of illuminance measurement points are different for each room/ area which has been decided based on the room index, calculated based on the [length, Width and Height of the luminaries above the plane of measurement.
(Page-29)
Investment Grade Energy Audit of Dr Ram Manohar Lohia Hospital, Lucknow
(Draft Report)
The unit of luminous intensity is the candela (Cd) also known as the international candle. One lumen is equal to the luminous flux, which falls on each square meter (m2) of a sphere one meter (1m) in radius when a 1-candela isotropic light source (one that radiates equally in all directions) is at the center of the sphere. Since the area of a sphere of radius r is 4r2, a sphere whose radius is 1m has m2
of area, and the total luminous flux emitted by a 1-cd source is therefore 41m.
Thus the luminous flux emitted by an isotropic light source of intensity is given by:
Luminous flux (lm) = 4× luminous intensity (Cd)
The difference between the lux and the lumen is that the lux takes into account the area over which the luminous flux is spread. 1000 lumens, concentrated into an area of one square meter, lights up that square meter with an Illuminance of 1000 lux. The same 1000 lumens, spread out over ten square meters, produce a dimmer Illuminance of only 100 lux.
4.3. RECOMMENDED LUX LEVELS
Offices
General Offices 300
Deep Plan General Offices 500
Computer Work Station 300
Conference Rooms, Executive Offices 300
Computer and Data Preparation Rooms 300
Filing Rooms 200
Drawing Offices
General 300
Drawing Boards 500
Print Rooms 200
Counter, Office Area 300
(Page-30)
Correction Factor considered for Lux Meter
Light Source Correction Factor
Mercury Lamp X 1.14
Fluorescent Lamp X 1.08
Sodium Lamp X 1.22
Daylight X 1.00
Metal Halide X 1.00
Investment Grade Energy Audit of Dr Ram Manohar Lohia Hospital, Lucknow
(Draft Report)
Public Area 200
4.4. RECOMMENDATIONS
4.4.1. INSTALLATION OF ENERGY EFFICIENT L IGHTS
Various types of light fittings are installed in the Hospital. Use of energy efficient lights is suggested, as the efficacy of the conventional lights is quite poor. For comparison purpose the Energy flow of various lights has been indicated in the figures:
Suggested Replacement Options
Conventional tube lights STL & DTL may be replaced with Energy efficient Lights (T-5 or equivalent).
Energy Efficient Fluorescent Lamps are based on the highly sophisticated tri – phosphor fluorescent powder technology as they offer reduction in the power consumption besides excellent color rendering properties and high luminous efficacy.
Asian, Philips, Osram and other manufacturers have come up with high wattage LED and/ or T-5 based Compound Lighting, which is an energy efficient replacement for HPSV Lamps. The LED based lights provides “White Light”. The height of the Lighting Fixture has however to be reduced depending upon the intensity of Light required.
(Page-31)
Energy Flow of Incandescent lamps
Energy Flow of Florescent Lamps
Energy Flow of SVL Lamps
Investment Grade Energy Audit of Dr Ram Manohar Lohia Hospital, Lucknow
(Draft Report)
Energy Savings
Particulars Present Situation Post Implementation
Conventional STL’s & DTL’s may be replaced with Energy Efficient (EE) Lights (T-5 or equivalent)
Power drawn per STL (Watts)
52 28
No of lights to be replaced 1234
Net Reduction in the Power Drawl (A)
29616 Watts
Power drawn per DTL (Watts)
104 56
No of lights to be replaced 359
Net Reduction in the Power Drawl (B)
17232 Watts
Total reduction in the Power Drawl (A+B) 46848 Watts
Working Hours per annum 3650
Energy Savings per annum 170995 Kwh
Overall Purchased Power Rate Rs 4.91 per Kwh
Monetary Benefit Rs 8.39 Lacs
Estimated InvestmentsEE Tube Lights @ Rs 750 per STL & Rs 1000 per DTL
Rs 12.84 Lacs
Simple Payback Period 18-19 months
(Page-32)
Investment Grade Energy Audit of Dr Ram Manohar Lohia Hospital, Lucknow
(Draft Report)
4.4.2. L IGHTING CONTROL
Although there is no simpler way to reduce the amount of energy consumed by lighting system than to manually turn OFF whenever not needed, this is not done as often as it could be. In response, automatic lighting control strategies can be adopted:
Scheduling Control: Use a time scheduling device to control lighting systems according to predetermined schedules
A central processor with relays is usually capable of controlling several output channels, each of which may be assigned to one or more lighting circuits. Overrides can be provided to accommodate individuals who use the space during scheduled off hours.
Day lighting: Control lights in response to the presence of daylight illumination in the space
Lumen Maintenance: gradually adjust the electric light levels over time to correspond with the depreciation of light output from ageing lamps.
Occupancy Sensing: Control light in response to the presence or absence of people in the space
These are automatic scheduling devices that detect motion and turn ON / OFF the lights accordingly. Most of these devices can be calibrated for sensitivity and for the length of time delay between the last detected occupancy and extinguishing of light. Occupancy sensors typically consist of a motion detector, a control unit and a relay. There are two major types of occupancy controls.
(Page-33)
Investment Grade Energy Audit of Dr Ram Manohar Lohia Hospital, Lucknow
(Draft Report)
CHAPTER-5OTHER AREAS OF FOCUS
5.1. LOAD ON OTHER MOTORS
Particulars Phase Submersible Pump
Rated Power KW 18.5
Rated FL Efficiency of the Motor % 90%
Rated Input KW 20.6
Voltage (Volts) Phase "R" 247
Phase "Y" 245
Phase "B" 250
Current (Amps) Phase "R" 17.5
Phase "Y" 17.3
Phase "B" 17.8
Power Factor R 0.83
Y 0.84
B 0.85
Load (KW) RPH 3.60
YPH 3.56
BPH 3.76
Total 10.93
Load (KVA) Phase "R" 4.32
Phase "Y" 4.24
Phase "B" 4.45
Total 13.01
Percentage Loading % 70%
Remarks Satisfactory Loading
(Page-34)
Investment Grade Energy Audit of Dr Ram Manohar Lohia Hospital, Lucknow
(Draft Report)
5.2. CONTROL LIGHTING WITH OCCUPANCY SENSORS
Occupancy-linked control can be achieved using infrared, acoustic, ultrasonic or microwave sensors, which detect either movement or noise in room spaces. These sensors switch lighting on when occupancy is detected, and off again after a set time period, when no occupancy movement detected. They are designed to override manual switches and to prevent a situation where lighting is left on in unoccupied spaces. With this type of system it is important to incorporate a built-in time delay, since occupants often remain still or quiet for short periods and do not appreciate being plunged into darkness if not constantly moving around.
5.3. T IMED BASED CONTROL OR DAYLIGHT L INKED CONTROL
Timed-turnoff switches are the least expensive type of automatic lighting control. In some cases, their low cost and ease of installation makes it desirable to use them where more efficient controls would be too expensive. Newer types of timed-turnoff switches are completely electronic and silent. The best choice is an electronic unit that allows the engineering staff to set a fixed time interval behind the cover plate. This system is recommended for street Lighting application in the building. Photoelectric cells can be used either simply to switch lighting on and off, or for dimming. They may be mounted either externally or internally. It is however important to incorporate time delays into the control system to avoid repeated rapid switching caused, for example, by fast moving clouds. By using an internally mounted photoelectric dimming control system, it is possible to ensure that the sum of daylight and electric lighting always reaches the design level by sensing the total light in the controlled area and adjusting the output of the electric lighting accordingly. If daylight alone is able to meet the design requirements, then the electric lighting can be turned off. The energy saving potential of dimming control is greater than a simple photoelectric switching system.
5.4. LOCALIZED SWITCHING
Localized switching should be used in applications, which contain large spaces. Local switches give individual occupants control over their visual environment and also facilitate energy savings. By using localized switching it is possible to turn off artificial lighting in
(Page-35)
Investment Grade Energy Audit of Dr Ram Manohar Lohia Hospital, Lucknow
(Draft Report)
specific areas, while still operating it in other areas where it is required, a situation which is impossible if the lighting for an entire space is controlled from a single switch.
CHAPTER-6ENERGY MONITORING AND ACCOUNTING
Energy Management should be seen as a continuous process. Strategies should be reviewed annually and revised as necessary. The key activities suggested have been outlined below:
Clear accountability for energy consumption needs to be established, appropriate financial and staffing resources must be allocated and reporting procedures initiated. An energy management programme requires commitment from the whole organization in order to be successful.
A record of Energy consumption both Electrical and Thermal of the main equipments like central air conditioning plants, DG Sets must be kept and monitored on regular basis, to optimize the Energy consumption. For this, various meters and gauges shall be required to be installed. This will enable an overview of energy use and its related costs, as well as facilitating the identification of savings that might otherwise not be detected. The system needs to record both historical and ongoing energy use, as well as cost information from billing data, and capable of producing summary reports on a regular basis. This information will provide the means by which trends can be analyzed and reviewed for corrective measures.
Some facts and figures related with energy may be displayed on boards or posters in the premises, to create awareness among the workmen and staff. A key ingredient to the success of an energy management program is maintaining a high level of awareness among staff. This can be achieved in a number of ways, including formal training, newsletters, posters and publications. It is important to communicate program plans and case studies that demonstrate savings, and to report results at least at 12-month intervals. Staff may need training from specialists on energy saving practices and equipments. As incentives, new ideas and implementation of energy saving point must be recognized and awarded.
The findings and implementation status of Energy audits should be reviewed periodically/annually for further action plan.
(Page-36)
Annexure-1
Energy Efficient Equipment Suppliers
Product/ Equipment Contact Details
AC Drives Rockers Control System, SCO 819, 2nd Floor, NAC, Manimajra, Chandigarh 160101Ph: 0172 – 2730900, 5071627
AC Drives Allen Bradley India LtdC-11, Industrial Area, Site-IV, Sahibabad, Ghaziabad 201 010
AC Drives Asea Brown Boveri Ltd.Guru Nanak Foundation Building, 15-16, Qutab Institutional Area, Saheed Jeet Singh Sansanwal Marg, New Delhi - 110 067
AC Drives Crompton Greaves Ltd.Machine 3 Division, A-6/2, MIDC Area, Ahmednagar 414 111.
Automation, Panel Meters Conzerv System44P Electronic City Phase –II, East Hosur Road, Bangalore – 560100Ph: 080-51189700 www.conzerv.com
Automation, Panel Meters Selec controls Pvt LtdE – 121, Ansa Industrial Estate, Saki Vihar Road, Mumbai 400072Ph: 022-28471882, 28476443 www.selecindia.com
Building Automation, sensors, twilight switches
Electro ArtPlot No K-11, MIDC Area, Ambad, Nashik –422010,Ph: 0253-5603954, 2380918 www.electronicswitchesindia.com
Burners WESMAN ENGINEERING (P) LTD. 503-504 Eros Apartments, 56 Nehru Place, New Delhi 110019Tel: +91 (11) 26431723 Fax: +91 (11) 26434577
Burners, Furnace Recuperators, Hot air generators, Heating & Pumping unit, Laddle preheating
ENCON12/3, Mathura Road, Faridabad-121003Phone: 0129 -25275454 Fax: 0129 –25279070www.encon.co.in
Capacitors Asian Electronics Ltd.Plot 68, MIDC, Satpur, Nasik, Nashik - 422 007
Capacitors Shreem Capacitors Pvt. Ltd.7/39, Vikram Vihar, Lajpat Nagar-IV, New Delhi - 110 024
Capacitors and APFC Panels Matrix Controls & Engineers Pvt Ltd Rajeev Batra 9811624440, [email protected] 725 DSIDC, Industrial Complex, Narela, GT Road, Delhi – 110040Ph: 01127786945 / 46 / 47www.matrixcapacitor.com
Capacitors and APFC Panels Standard Capacitors B-70/43, DSIDC Complex, Lawrence road Industrial Area, Delhi –110035Ph: 011 –27181490, 27151027www.standardcapacitors.com
Product/ Equipment Contact Details
Capacitors and APFC Panels Saif Electronics174, Hira Building, 1st Floor, Carnac Road, Opposite Police Commissioner office , Mumbai – 400002Ph : 022 – 22064626 , 22086613www.saifel.com
Compressed Air Piping Legris India Pvt Ltd.Legris House, 99 Pace city –1, sector 37, Gurgaon- 122001Ph : 9958297093 , 9811054826www.transair.legris.com
DG Synchronization, Automation and Capacitors
SGS Industrial Controls & Solutions Pvt LtdFloor-II, Madanpur Khadar, Sarita Vihar, New Delhi.Ph 011 – 29942516, 41402992
Eco-ventilators Nu Plast pipes & profilesSCF – 124, sector 17 Market, Faridabad – 121002Ph : 0129 – 6546217 , 4070023
Electrical measurement Instruments Riken Instrumentation Ltd369, Industrial Area, Phase –II, Panchkula, HaryanaPh : 0172 – 2591651, 2592028 , www.rikeninstrumenatation.com
Energy Management & Control Systems Manaco Energy Solutions (P) Ltd.A-6, Shanti Apts.,21 & 22, 1st Cross St, TTK Road, Alwarpet, Chennai-18 , 044-42316164, www.mesco.co.in
Energy Saving Products Gautam Enterprises 205, Vinay Indl. Est., Chicholi Bunder Link Road, Malad (West),Mumbai - 64, IndiaTel: (91-22) 2875 04 22, Fax: (91-22) 2873 6985www.gautament.com
Energy Saving products Techmark Engineers & Consultants.K-1/28 Ground Floor, Chittaranjan Park New Delhi-110019 Telephone: 91-011-26238349Fax : 91-011-51603925
Flue Gas Analyzers / Oxygen Analyzer Nevco Engineers Pvt. Ltd., 90A (2nd Floor), Amritpuri B, Main Road, East of Kailash, Opp. Iskcon Temple, New Delhi – 110 065Telephone No 26226328, 26213009; Fax: 26285202www.nevco.co.in
Flue Gas Analyzers / Oxygen Analyzer ACE Instruments & Controls 1, Biradari, Above Kashi Dairy, M.G. Road, Ghatkopar (W), Bombay – 400 086Tel.: 5125153, 5122762
Flue Gas Analyzers / Oxygen Analyzer Testo India Pvt LtdPune 020 – 25665085, www.testo.com
FRP Blades and cooling tower accessories
Eneertech EngineersSCO 144 – 145, Sector 34A, ChandigarhPh : 0172 – 5018077, 9876022225
Product/ Equipment Contact Details
HVAC related instruments Thermocouples, pipe fittings, pressure gauges
Waaree , 36 Damji shamji Industrial ComplexOff Mahakali caves road, Andheri East Mumbai 400093022 –66963030 26874778www.waaree.com
Infrared Temperature Meters (600 °C to 1800 °C)
Toshniwal Industries Pvt. Ltd.Industrial Area, Mahukupura, AJMER - 305 002, Ph 91145 269 5171, 91145 269 5205 [email protected] www.tipl.com
Infrared Temperature Meters (upto 1500 °C)
KUSAM MECO, G-17 , Bharat Industrial Area , T.J. Road, Sewree Mumbai 400015, Ph : 022 – 24156638, 24124540www.kusam-meco.co.in
Insulations Lloyd Insulation (India) Ltd. P.B. No. 4321, Kalkaji Industrial Area,Punj Sons Premises, New Delhi – 110 019 Ph: 26430746-7 Fax: 26478601/26467259
Insulations Himal Supply (India) Ltd168 , Rajagarden, New Delhi – 110015Ph : 011-25438602 , 25448602www.himalsupply.com
LED lighting Synergy Solar (P) ltdSCO 133, sector 28D, Chandigarh Ph 0172-6451133www.synergysolars.com
Lighting Systems Philips India LtdRegional office-North, 9th floor Ashoka Estate, 24, Barakhamba Road New Delhi – 110 001Telephone No.: 3353280, 3317442, Fax No.: 3314332
Lighting Systems Crompton Greaves Ltd. Lighting Business Group, 405, Concorde, RC Dutt Road,Baroda – 390 007
Lighting Systems OSRAM India Ltd. Signature Towers,11th Floor, Tower B, South City-I, Gurgaon 122001, HaryanaTel: 0124- 6526175, 6526178, 6526185Fax: 0124- 6526184
Lighting Systems Asian ElectronicsSurya Place, First Floor, K-185/1, Sarai Julena, New Friends Colony, New Delhi – 110 025
Lighting Systems Asian ElectronicsSurya Place, First Floor, K-185/1, Sarai Julena, New Friends Colony, New Delhi – 110 025
Lighting Systems Philips India Limited , Technopolis Knowledge Park,Nelco Complex, Mahakali Caves Road, Chakala, Andheri (East), Mumbai 400 093.Tel : 022 56912000
Product/ Equipment Contact Details
Lighting Systems Surya Roshni Ltd.Padma Tower-I, Rajendra Palace, New Delhi 110 006.
Lighting Systems Wipro LimitedSco 196-197, Sector 34-A, Chandigarh - 160 022
Lighting Systems OSRAM India Ltd. Signature Towers,11th Floor, Tower B, South City-I, Gurgaon 122001, HaryanaTel: 0124- 6526175, 6526178, 6526185Fax: 0124- 6526184
Lighting Voltage Control Systems Jindal Electric & Machinery CorporationC-57, Focal Point, Ludhiana – 141010Ph : 2670250 , 2676890 ,www.jindalelectric.com
Lighting Voltage Control Systems ES Electronics (India) Pvt. Ltd.Plot No.82, KIADB Industrial Area, Bommasandra – Jigani Link Road, Jigani Hobli, Anekal Taluk, Bangalore District – 562 106Telefax: +91 - 8110 – 414547 / 414548, 414549 / 414550E-mail ID: [email protected] Website: www.energysaversindia.com
Soft starters Amtech Electronics (India) LtdE-6, GIDC Electronics Zone, Ghandinagar – 382028 , Gujarat Ph : 079 –23289101-3, www.amtechelectronics.com
Thermocouples and Heaters Beeco Electronics450 –A, Industrial Area, Phase-II, Chandigarh 160002,Ph : 0172 – 5083350, 5073750 ,www.beecoelectronics.com
Thermocouples and temperature gauges & sensors
Radix Microsystem , 1005, Hemkunt House, 6, Rajendra Place New Delhi, Ph : 011-25786350, 09312600075 ,www.radix.co.in
Note: -The suppliers mentioned above are not the only ones or the best in the market. The management may contact other suppliers for competitive rates/ specifications.
Annexure-2
Project Plant
Phase-1
Building Name/ No From To No of Days
Shakti Bhawan (Main Bldg) 9-Nov-2010 to 13-Nov-2010 5 -
Shakti Bhawan (Extn Bldg)
9-Nov-2010 to 13-Nov-2010 5 -
22-Nov-2010 to 22-Nov-2010 1 -
UP Rajkiya Nirman NigamLimited,
24-Nov-2010 to 26-Nov-2010 3 (23rd was a Holiday)
Dr. Ram Manohar Lohia Hospital 27-Nov-2010 to 29-Nov-2010 2 (28th was a Sunday)
Indian Telephone Industries Ltd., 1-Dec-2010 to 2-Dec-2010 2
U.P. State Tourism Development Corpn 3-Dec-2010 to 6-Dec-2010 3 (5th was a Sunday)
Commissioner Trade Tax 7-Dec-2010 to 9-Dec-2010 3 -
Building No 8 10-Dec-2010 to 13-Dec-2010 3 (12th is a Sunday)
Building No 9 14-Dec-2010 to 16-Dec-2010 3 -
Building No 10 17-Dec-2010 to 20-Dec-2010 3 (19th is a Sunday)
Building No 11 21-Dec-2010 to 23-Dec-2010 3 -
Building No 12 24-Dec-2010 to 27-Dec-2010 3 (26th is a Sunday)
Building No 13 28-Dec-2010 to 30-Dec-2010 3 -
Building No 14 31-Dec-2010 to 3-Jan-2011 3 (2nd is a Sunday)
Building No 15 4-Jan-2011 to 6-Jan-2011 3 -
Building No 16 7-Jan-2011 to 10-Jan-2011 3 (9th is a Sunday)
Building No 17 11-Jan-2011 to 13-Jan-2011 3 -
Building No 18 14-Jan-2011 to 17-Jan-2011 3 (16th is a Sunday)
Phase-2Building Name A/C Plant Start Date
Shakti Bhawan (Extension Building) Yes 20-Apr-11
Shakti Bhawan (Main Building) Yes 23-Apr-11
UP State Transport Corporation No 26-Apr-11
UP State Tourism Development Corporation Ltd Yes 28-Apr-11
Commissioner Trade Tax No 30-May-11
UP Awas Evam Vikas Parishad No 03-May-11
Lucknow Development Authority. No 06-May-11
UP Jal Nigam No 09-May-11
UP Rajkiya Nirman Nigam Ltd. No 11-May-11
Indian Telephone Industries Ltd. No 13-May-11
Yojana Bhawan Yes 16-May-11
RSA VVIP Guest House Yes 18-May-11
VIP Guest House No 20-May-11
Dr. Ram Manohar Lohia Hospital Yes 23-May-11
Jawahar Bhawan Yes 25-MAy-11
Indira Bhawan Yes 27-May-11
Shyama Prasad Mukherjee Civil Hospital No 30-May-11
UP State Sugar Corporation Ltd. No 01-Jun-11
Annexure-3
Abbreviations Used
APFC Automatic Power Factor Correction
pf Power Factor
KW Kilo Watt
KVA Kilo Volt Ampere
Amps Amperes
KVAh Kilo Volt Ampere hour
KVAR Kilo Volt Ampere Reactive
CFL Compact Florescent Lamp
LED Light Emitting Diode
Cfm Cubic Feet per minute
M3 Cubic Meter
AC Air Conditioner
TR Ton
Top Related