Post on 17-Jul-2020
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Quanta Shanghai
Manufacturing City
(QSMC)
Greenhouse Gas
Inventory Report
Compile Date: June 11, 2011
Writer: Aimee Ding
Reviewed: Walter Lee
Approval: C. T. Huang
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Directory
Chapter 1 Organization Summary .................................................................................... 3
1.1 Foreword....................................................................................................................... 3
1.2 COMPANY PROFILE ......................................................................................................................... 3
1.3 POLICY STATEMENT ........................................................................................................................ 4
1.4 THE BASIS OF THE REPORT PRODUCTION ......................................................................................... 4
Chapter 2 Organizational boundaries .............................................................................. 4
2.1 SETTING ORGANIZATIONAL BOUNDARIES ........................................................................................ 4
2.2 THE TIME AND RESPONSIBILITY THE REPORT COVERS ...................................................................... 5
2.3 ORGANIZATIONAL BOUNDARIES AND DESCRIPTION OF CHANGES ..................................................... 5
Chapter 3 Operational boundaries ................................................................................... 5
3.1 DEFINITION ..................................................................................................................................... 5
3.2 GREENHOUSE GASES CATEGORY DESCRIPTION ............................................................................... 6
3.3 THE TOTAL OF GREENHOUSE GASES EMISSIONS ............................................................................... 9
Chapter 4 Quantify greenhouse gas .............................................................................. 10
4.1QUANTITATIVE METHODS .............................................................................................................. 10
4.2 EMISSION FACTOR MANAGEMENT ................................................................................................. 11
4.3 QUANTITATIVE METHODS CHANGE DESCRIPTION .......................................................................... 12
4.4 EMISSION FACTORS CHANGE DESCRIPTION .................................................................................... 12
4.5 DATA QUALITY MANAGEMENT ..................................................................................................... 12
4.6 DATA UNCERTAINTY ASSESSMENT METHOD AND THE RESULTS ...................................................... 14
Chapter 5 Base Year ........................................................................................................ 22
5.1 BASE YEAR SELECTED ................................................................................................................... 22
5.2 THE CHANGE OF BASE YEAR .......................................................................................................... 23
Chapter 6 Verification ...................................................................................................... 23
6.1 INTERNAL VERIFICATION ............................................................................................................... 23
6.2 EXTERNAL VERIFICATION .............................................................................................................. 23
Chapter 6 Management of the report ............................................................................. 23
7.1 THE PURPOSE OF REPORT FABRICATION ......................................................................................... 23
7.2 THE MANAGEMENT AND SAFEKEEPING OF THE REPORT ................................................................. 23
Chapter 8 Attachment ...................................................................................................... 24
8.1 THE INVENTORY OF GREENHOUSE GAS INVENTORY OF QSMC ...................................................... 24
Chapter 9 Reference documents .................................................................................... 24
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Chapter 1 Organization Summary
1.1 Foreword
The current global warming trend is accelerating, and human life and industrial
emissions of greenhouse gases into the atmosphere continues to increase. As members
of society, inventory and controlling of greenhouse gas emissions is the companies’ due
responsibilities and obligations, The production of this report is to illustrate the total
emissions of the greenhouse gas in the air by the sources of greenhouse gases from
QSMC, which is hope to master the state of greenhouse gas emissions, make carbon
reduction policy to achieve the sustainable development goals of energy conservation and
carbon reduction.
1.2 Company Profile
QSMC (Quanta Shanghai Manufacturing City) was founded in March 2001, located in
China Shanghai Songjiang Export Processing Zone, covers an area of about 1400,000
square meters, is the manufacturing base of Taiwan's Quanta Group in Shanghai. Now
QSMC have F1, F2, F4, F5, F6, F7, Q-BUS A / B / C and other modern standard factories
mainly produces notebook computers, servers, mobile phones, GPS, wireless
communications, and other high-tech products; Q-BUS D / F and repair workshop, mainly
for product maintenance; QSMC laboratory building mainly uses for new product
development and product testing; H1/H2 logistics center uses for logistics flow and
storage of goods; Also QSMC provide staff with a campus-like modern living quarters,
living quarters equipped with modern life, leisure, entertainment and sports facilities and
venues, is the warm home to majority of employees stay.
As the same with Shanghai region, QSMC belongs to the impact of the Yangtze River
Delta plain, flat terrain, a typical subtropical monsoon climate with four distinct seasons. It
is warm and rainy in spring, hot and humid in summer, cool in autumn, cold and dry in
winter. The annual average temperature is 15.4 ℃. Periphery around the factory is set
greenbelt; the whole green area is filled with flowers, fresh air and beautiful scenery.
With excellent R & D and production capacity, QSMC rapidly develop, only 10 years,
company size increases from 200 to 50,000 people over the development, export volume
increases from 170 million dollars in 2001 to $38 billion in 2008. In 2009, the company's
notebook shipments come to 37 million. Company lines up industry elites, strong in
manufacturing and R & D team, won the world's leading global IT industry enterprises of
all ages, have become its customers.
Since QSMC is set up, it has received many honors, and awarded the first of hundred
enterprises export in 2002, 2003, 2004 for three consecutive years. In 2003, QSMC
ranked second in exports of foreign invested enterprise in China. In 2004, QSMC ranked
fourth in top 500 foreign enterprise in China. With export, it is the top 10 of Chinese
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foreign-invested enterprises.
1.3 Policy Statement
The climate and environment of the earth is becoming worse day by day because of
the influence from greenhouse gas. As a member of global civics and in order to take
responsibility for environment protection and earth care, QSMC will try our best to
accomplish the following items:
1, We will commit ourselves to check greenhouse gas emission in QSMC, and make
sure that we can master the status of greenhouse gas emission.
2,Make further efforts to lower greenhouse gas emission voluntarily according to the
result of checking.
3,Propel forward and support measures of energy saving and carbon reducing
continuously to get sustainable development and take the enterprise’s responsibility well.
4,We will obey the laws and rules related with environment and comply with the
demanding of the customers etc.
1.4 The basis of the report production
The production of this report is based on the first part of ISO14064 greenhouse gases:
the organizational level to quantify greenhouse gas emissions and reporting standards
with guidelines of the IS 2006 version.
Chapter 2 Organizational boundaries
2.1 Setting organizational boundaries
Greenhouse gas inventory of organizational boundaries set in accordance with
ISO14064-1-related criteria, and refer to Greenhouse Gas Protocol, then set it by the way
of ” Operational control”.
Organizational boundaries set is based on Taiwanese Quanta Group's manufacturing
-located in mainland China Shanghai Songjiang Export Processing Zone Quanta
Shanghai Manufacturing City (referred to as QSMC), including the "Tech-Front (Shanghai)
Computer Co., Ltd., Tech-Com (Shanghai) computer Co., Ltd., Tech-Lead (Shanghai)
Computer Co., Ltd., Tech-Giant (Shanghai) computer Co., Ltd., Tech-Wave (Shanghai)
Logistics Co., Ltd., Shanghai Songseh Property management Co., Ltd "six companies,
including the range (F1, F2, F4, F5, F6, F7, Q-BUS (A, B, C, D, F), H1, H2, living area
(including Stage 1, Stage 2, Stage 3, and pine club house of four parts. Not including
outsourcing of restaurants, supermarkets, post office, pharmacy, bookstore, hair salon.)),
see below.
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2.2 The time and responsibility the report covers
2.2.1 The contents of this inventory report is the greenhouse gas which produced
within the boundaries of operating of QSMC Quanta Shanghai Manufacturing City during
January 1, 2010 to December 31, 2010.
2.2.2 This report is in January of each year, preceding the annual greenhouse gas
emissions inventory work, and develop the contents of the report, which includes
summary of greenhouse gas emissions at previous year, and as references for report of
greenhouse gas for this year and next year .
2.2.3 The scope of this report inventory Quanta Shanghai Manufacturing City
operating range of greenhouse gas emissions, while part of Quanta total emissions, when
operating boundary changes, the report will be revised, reissued .
2.2.4 When the report was released, the report is revised or repealed until valid.
2.3 organizational boundaries and description of changes
The object is interrogated which is owned by Quanta, located in Songjiang Export
Processing Zone of Quanta Shanghai Manufacturing City in Shanghai in China. QSMC
organizational boundary changes, when the revised report will be issued.
Chapter 3 Operational boundaries
3.1 Definition
3.1.1 Definition of greenhouse gases
Greenhouse gases are gaseous components of the atmosphere, which naturally
present in the atmosphere and due to human activities, which can absorb and distribute
Factory*5
Living Campus-II Q-Bus
Living Campus-I
Living Campus-III
FF55
FF77
FF22
FF11
HH22
HH11
FF33
FF44
FF66
FF88
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the wavelength of the radiation within the infrared spectrum produced by the earth's
surface, atmosphere and clouds. ISO14064 definition and control of the six greenhouse
gases, namely CO2、CH2、N2O、HFCs、PFCs、SF6.
3.1.2 The operational boundaries of this inventory includes direct (category 1), energy
indirect (scope 2) greenhouse gas emissions. Greenhouse gas emissions include six
categories with CO2, CH2, N2O, HFCs, PFCs, SF6. Category in the table below:
Operational boundaries Sources
Scope 1 (direct emissions
source)
official cars, fire fighting truck, transfer truck, generators supply
emergency power, cooling / dehumidification / humidity / temperature
equipment (Refrigerant: R23/R134a/R404a/R407c/R410a/R507), fire
extinguishing systems / fire extinguishers (HFC -227ea/CO2), boilers,
cesspool.
Scope 2 (emissions source
from indirect energy)
Input electric power
3.1.3 Operating boundary map
All factories and living area which belongs to Quanta Shanghai Manufacturing City
are in the inventory range. It conducts the inventory with all facilities and emission sources
of living area and factory.
When the operational boundaries change, this report will be revised and issued
together.
3.2 Greenhouse Gases category description
There are four categories with QSMC emissions of greenhouse gases, which is
carbon dioxide (CO2), methane (CH4), nitrous oxide (N2O), hydrogen carbon fluoride
(HFCS). The emissions profile is shown in inventory results of Annex Inventory.
3.2.1 Direct greenhouse gas emissions (Scope 1)
3.2.1.1 Definition: Scope 1 is for the emission source controlled or owned by the
factory directly.
3.2.1.2 Direct emission sources contains the following projects:
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SCOP1 direct
emissions source
CO2、CH2、N2O、
HFCs、PFCs、SF6
CO2、CH2、N2O、HFCs、
PFCs、SF6
Living area:
Air conditioning /
chiller
Generator
Boiler
Fire extinguisher
Cesspool ... ...
Factory:
Fire extinguishers / fire
extinguisher system
Cooling/dehumidification/
humidity/temperature equipment
Official car / fire fighting truck /
transfer truck
Generator
Cesspool ... ...
Purchased
electric Power
Goods
transport,
staff
traffic,
business
travel,
outsourci
ng work,
etc.
SCOP2 emissions source
from indirect energy SCOP3 other
emissions source
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category classification Building Facility Sources
Scope 1
Direct
greenhouse-
gas
emissions
Stationary
combustion
sources
F1/F2/F4/F5/F6/F
7/H1/H2/Q-BUS/
living area
Emergency generator Diesel fuel
living area Boiler, Dormitory Natural gas
Mobile
combustion
sources
H1/H2 transfer Truck Diesel fuel
F1 Official cars Gasoline
F1 Official cars / fire fighting truck Diesel fuel
Fugitive
emission
sources
F1/F2/F4/F5/F6/F
7/H1/H2/Q-BUS/
living area
Air conditioning chillers, dehumidifiers, cooling
equipment of solder paste printing, reflow oven ice
machine, vertical freezer, vertical freezer, water
dispenser, refrigerator, high and low temperature
(heat) test chamber, thermal dispenser equipment,
heat pump, official vehicle air-conditioning,
refrigeration equipment, refrigerators, high and low
temperature (heat) chambers, rapid temperature
changes (heat) chamber, walk-in high and low
temperature (heat) test chamber, thermal shock
chambers, open-temperature slot, sunshine testing
machine, constant temperature and humidity box
R23/R134a/R
404a/R407c/R
410a/ R507
F1/F2/F4/F5/F6/F
7/H1/H2/Q-BUS/
living area
Carbon dioxide fire extinguisher
Carbon
dioxide
F5 Heptafluoropropane fire extinguisher system HFC -227ea
F1/F2/F4/F5/F6/F
7/H1/H2/Q-BUS/
living area
Cesspool Methane
3.2.1.3 Direct emissions inventory results
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In 2010 Quanta Shanghai Manufacturing City QSMC, the total direct emissions is
14964.1684 tons CO2e. The direct emissions source categories as follows:
⑴ Stationary combustion sources: 10847.6343 tons CO2e of greenhouse gases.
⑵ Mobile combustion sources: 467.3085 tons CO2e of greenhouse gases.
⑶ Fugitive emission sources: 3649.2255 tons CO2e of greenhouse gases.
⑷There isn't manufacturing process emission sources, so that none of these
greenhouse gas emissions.
3.2.1.4 The company doesn’t have CO2 emissions from biomass burning.
3.2.2 Greenhouse gas emissions from the Indirect energy (Scope 2)
3.2.2.1 Definition: Scope 2 refers to the import or input power, steam and heat energy
generated by the indirect greenhouse gas emissions.
3.2.2.2 Indirect emissions inventory results
The total of indirect emissions is 297,224.4550 tons CO2e in QSMC at 2010.
3.3 The total of greenhouse gases emissions
The total of greenhouse gas emissions is 312,188.6233 tons CO2e in QSMC at
2010.
3.3.1 The Scope and emissions of greenhouse gas
Scope Scope 1 Scope 2 Scope 3 Total
emissions (tons CO2e /
year) 14,964.1684 297,224.4550
Not included in
the Inventory
of work
312,188.6233
Percentage 4.7933% 95.2067% 100.0000%
3.3.2 The total and emissions of individual greenhouse gas
Greenhouse gas
emissions of non-FCs CO2 CH4 N2O HFCs PFCs SF6 Total
Emissions (tons CO2e /
year) 308,520.7953 2,084.6779 17.5968 1,565.5534 - - 312,188.6233
Percentage 98.8251% 0.6678% 0.0056% 0.5015% 0.0000% 0.0000% 100.0000%
3.3.3 The direct emissions of each greenhouse gas (Scope 1)
Types of greenhouse
gases CO2 CH4 N2O HFCs PFCs SF6 Total
Emissions (tons CO2e /
year) 11,296.3403 2,084.6779 17.5968 1,565.5534 - - 14,964.1684
3.3.4 The indirect emissions of each greenhouse gas (Scope 2)
Types of greenhouse
gases CO2 CH4 N2O Total
Emissions (tons CO2e /
year) 297,224.4550 - - 297,224.4550
<Greenhouse Gas Inventory>Please refer to Annex.
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Chapter 4 Quantify greenhouse gas
4.1Quantitative methods
4.1.1 Quantitative principles:
The quantitative methods of greenhouse gas mainly include in: the emission factor
methods, the direct monitoring methods and the weight balance methods. In the case of
feasible technical methods, we can use the mass balance method. If government or other
functional departments give us the monitoring report, we can use the direct monitoring
method. Any other situations, we use the internationally accepted emission factor method.
The discharge amount of greenhouse gas emission sources mainly adopt the emission
factor method to calculate. Calculations are as follows:
The volume of use or output × emission factor × GWP (Global Warming Potential
factor = CO2e (the number of equivalents of CO2)
1) According to the different sources of various kinds of greenhouse gas emissions,
we need to exchange the unit into the weight or volume unit (kg or l)
2) A variety of occurrence sources, according to the emission coefficient and
calculation method which are provided by IPCC 2006 Greenhouse Gas Inventory
Guidelines
3) After choosing the emission coefficient, according to the GWP of varies
greenhouse gas which comes from the Fourth Assessment Report of greenhouse gases
in 2007, the all calculate numerical values are converted to CO2e(the number of
equivalents of CO2),the unit is metric ton/year.
4.1.2 Method of calculating greenhouse gas emissions
4.1.2.1 Direct sources of emission
Stationary sources of combustion:
The stationary sources of emission of QSMC are diesel fuel and natural gas.
The calculation of greenhouse gas
The discharge amount of CO2, CH4, N2O =annual consumption × emission factor ×
GWP (data source: The IPCC 2006 version)
{emission coefficient = The IPCC 2006 version emission coefficient of CO2,CH4,N2O
× 10-9
× Calorific value}
Diesel density comes from the information provided by suppliers, and the density is
0.842Kg/L. The calorific value derives from 2009 Energy Statistics Yearbook. GWP
derives from IPCC 2007 version of the Fourth Assessment Report.
Mobile sources of combustion:
The mobile sources of emission of QSMC are diesel fuel and gasoline.
The calculation of greenhouse gas
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The discharge amount of CO2, CH4, N2O =annual consumption × emission factor ×
GWP (data source: The IPCC 2006 version)
{emission coefficient = The IPCC 2006 version emission factor of CO2,CH4,N2O ×
10-9
× Calorific value}
Diesel and gasoline density comes from the information provided by suppliers, the
density is 0.842Kg/L, and the gasoline density is 0.725Kg/L. The calorific value derives
from 2009 Energy Statistics Yearbook. GWP derives from IPCC 2007 version of the
Fourth Assessment Report.
Fugitive greenhouse gas emissions
The main fugitive greenhouse gas emissions in QSMC are refrigerant
(R23/R134a/R404a/R407c/R410a/R507)and CO2 or Seven fluorine methane from the
daily fire fighting affairs.
Fugitive emissions from refrigerant(use coefficient of Fugitive method to count)
Annual HFCS emissions =rated amount of filling material of each unit X leakage
rate X GWP( Source: IPCC 2006 edition)
Amount of filling material of each unit is come from a data plate or the related
evidence from the vendor. Leakage rate is come from IPCC 2006 edition. GWP is come
from IPCC 2007 edition.
Fire fighting facilities (use completion method to count)
The fire extinguisher used in QSMC is dry powder, CO2 fire extinguisher and seven
fluorine methane fire-extinguishing systems. Every year we will fill them after drilling. The
annual usage amount equals the Padding amount.
Annual GHG emissions of seven fluorine methane and CO2=The annual usage
amount ×GWP
The annual usage amount is come from the Actual consumption. GWP is come from
IPCC 2007 edition.
4.1.2.2 Indirect greenhouse gas emission (scope 2)
Input from outside the organizational boundaries of electricity
Purchased electricity to create the method for calculating CO2 equivalent
The annual amount of CO2 emissions = power consumption × emission factor ×GWP
(Source: IPCC 2006 edition)
Annual power consumption is come from the GA’s related evidence. Emission facto is
come from The government report(0.8592Kg CO2e/KWh).GWP is come from IPCC 2007
edition.
4.2 Emission factor management
QSMC use of the principle of priority in the use of emission factors or mass balance
measurement calculated coefficient, followed by the emission factor for the country or
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countries outside the region of the emission factor, if not applicable emission factor is the
application of coefficients of the adoption of international notice. At present the use of
national emission factors for purchased electricity, CO2 fire extinguisher use of mass
balance, using the IPCC published oven refrigerant coefficient of diesel with no
measurements and with no national emission factors, so use of the application of IPCC
announcement × heat value conversion factor derived from the coefficient.
4.3 Quantitative methods change description
Quantitative methods change, divided by a new calculation method of calculation,
and need for comparison with the original, shows the differences between the two and the
reason for choosing the new method of calculation, this is the base year inventory, and no
change in calculation method.
4.4 Emission factors change description
Selection of emission factors and instruction refer to the discharge coefficient table, if
the source of data changes, the discharge calculation coefficient of emission not only
needs re-filing and computing, but also shows differences with the original coefficients,
this is the base year inventory, and no change in the discharge coefficient of emission.
4.5 Data Quality Management
4.5.1 To require the accuracy of the data quality, the responsible authority must
specify the data sources, such as the requisitions basis, meter records, requisitioned
records, computer database records or computer reports, etc., which it can be proved and
supporting the credibility of the data should be investigated, and data remains in the
responsible authority in order to facilitate tracking the basis for future audit.
4.5.2 Interrogation and data quality control of jobs to meet ISO14064-1 criteria
correlation (Relevance), integrity (Completeness), coherence (Consistency), transparency
(Transparency) and accuracy (Accuracy) for the purpose of such principles, job content
are described as follows:
4.5.2.1 Inventory quality management: the greenhouse gas inventory team is
responsible for implementation, members of group have the responsibility of coordinated
the relevant departments, external agencies, and units of the factory or good interaction
between projects.
4.5.2.2 Development of quality management processes: Prepare inventory processes,
to ensure the accuracy requirements, QC program priorities should focus on General and
specific sources of quality checking job.
4.5.2.3 Quality of implementation of the General review: according to data
collection/input/processing, data files and emission measuring process, the error caused
by the negligence of a generic error, undertake critical medium quality review.
4.5.2.4 Check of specific quality: the appropriateness of the boundary for the
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qualitative descriptions of the inventory, re-calculation operation, the quality of a particular
source of input data and the main reason of data uncertainty in specific areas for a more
rigorous review.
Job content of general and specific quality check are shown in the following table.
Job content of general quality check
Inventory Session Work content
Data collection, input and
processing operations
1. Check whether the input data of the transcription errors.
2. Check the complete integrity, or whether it missed to fill.
3. Ensure the implementation of appropriate version of the electronic file
control operations.
Establishment of data files
1. Confirm all the table-level data (including reference data) of the source.
2. Check the references of the literature have been filing.
3. Check the items used in the following assumptions and criteria has been
selected filing: borders, the baseline year, methods, operating data,
emissions factors and other parameters.
Calculating emissions and
inspection calculations
1. Check the emission units, parameters, and conversion factor has modest
mark.
2. Check the calculation process, the units are appropriately labeled and used
properly.
3. Check the conversion factor.
4. Check the table in the data processing steps.
5. Check the table in the input data and calculation data, should be clearly
differentiated.
6. Check the calculation of a representative sample.
7. With a brief algorithm to check the calculations.
8. Check the different source categories, and the different business units of
data aggregation.
9. Check the different time series with the years between the input and
calculation consistency.
Job content of specific quality check
Inventory type The focus
Emission factors and other
parameters
1. Emission factors and other parameters of the reference is appropriate.
2. Factors or parameters and activity data of the units are consistent.
3. Unit conversion factor is correct.
Activity data
1. Data collection operations with continuity.
2. Data are consistent over the years with changes.
3. The same type of facilities / departments of the activity data
cross-comparison.
4. Production capacity and product activity data is a correlation.
5. Activity data for the base year recalculation result in changes.
Emission calculations 1. Whether emission calculations are correct computer built-in formula.
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2. Whether emissions estimates over the years with consistency.
3. The same type of facilities / departments of the emission
cross-comparison.
4. Measured value and the difference between emissions estimates.
5. Whether emissions and product capacity is a correlation.
4.6 Data uncertainty assessment method and the results
The uncertainty of the data evaluation need to consider three aspects: activity data
type, emission coefficient type and equipment calibration level, respectively according to
the sources of data, emission classification score and equipment calibration classification
assignment requirements of the weighted average calculated the level of each data. Data
level is divided into five levels, the higher the level, the better the data quality is, which is
used to judge the accuracy of the data. Grading requirements: average scored ≥ 5.0: level
1; 5.0 > score ≥ level 2; 4.0 > score ≥ 3.0 level 3; 3.0 > score ≥2.0 level 4; score < 2.0 level
5. The greenhouse gas emissions data of activity date total greenhouse gas emissions
multiplying activity data classification get the value, according to the data quality score
classification level requirements judgment. All activities of the heavy data are summed to
get the average score, according to the data quality classification requirements, the score
still judge level.
1) Activity data is divided into three categories According to the collection class, and
were given the 1, 3, 6 score. As below.
Item Activity data classification Endow score
1 Automatic and continuous measurement 6
2 Regular measurement (including meter
reading)
3
3 proper motion estimate 1
The endow score of QSMC greenhouse gas emissions source activity data in 2010
Number emission sources Activity data type
Activity
data
classific
ation
QSMC+001 Natural gas 1.Automatic and
continuous measurement 6
QSMC+002 Kerosene 2. Regular measurement
(including meter reading) 3
QSMC+003 gasoline 1. Automatic and
continuous measurement 6
QSMC+004 Kerosene 1. Automatic and 6
15
continuous measurement
QSMC+005 Extinguish ant 1. Automatic and
continuous measurement 6
QSMC+006 The methane emissions from digestion tank 3. proper motion estimate 1
QSMC+007 The leak of freezing medium HFC-R134a (The
emission factor of facility refrigerant0.003) 3. proper motion estimate 1
QSMC+008 The leak of freezing medium HFC-R134a (The
emission factor of facility refrigerant0.004) 3. proper motion estimate 1
QSMC+009 The leak of freezing medium HFC-R134a (The
emission factor of facility refrigerant0.001) 3. proper motion estimate 1
QSMC+010 The leak of freezing medium HFC-R134a(The
emission factor of facility refrigerant0.03) 3. proper motion estimate 1
QSMC+011 The leak of freezing medium HFC-R134a(The
emission factor of facility refrigerant0.05) 3. proper motion estimate 1
QSMC+012 The leak of freezing medium HFC-R134a(The
emission factor of facility refrigerant0.08) 3. proper motion estimate 1
QSMC+013 The leak of freezing medium HFC-R134a(The
emission factor of facility refrigerant0.085) 3. proper motion estimate 1
QSMC+014 The leak of freezing medium HFC-R134a(The
emission factor of facility refrigerant0.15) 3. proper motion estimate 1
QSMC+015 The leak of freezing medium HFC-R407c(The
emission factor of facility refrigerant0.01) 3. proper motion estimate 1
QSMC+016 The leak of freezing medium HFC-R407c(The
emission factor of facility refrigerant0.03) 3. proper motion estimate 1
QSMC+017 The leak of freezing medium HFC-R407c(The
emission factor of facility refrigerant0.055) 3. proper motion estimate 1
QSMC+018 The leak of freezing medium HFC-R407c(The
emission factor of facility refrigerant0.08) 3. proper motion estimate 1
QSMC+019 The leak of freezing medium HFC-R404a(The
emission factor of facility refrigerant0.003) 3. proper motion estimate 1
QSMC+020 The leak of freezing medium HFC-R404a(The
emission factor of facility refrigerant0.03) 3. proper motion estimate 1
QSMC+021 The leak of freezing medium HFC-R404a(The
emission factor of facility refrigerant0.05) 3. proper motion estimate 1
QSMC+022 The leak of freezing medium HFC-R404a(The
emission factor of facility refrigerant0.085) 3. proper motion estimate 1
QSMC+023 The leak of freezing medium HFC-R404a(The
emission factor of facility refrigerant0.12) 3. proper motion estimate 1
QSMC+024 The leak of freezing medium HFC-R404a(The
emission factor of facility refrigerant0.15) 3. proper motion estimate 1
QSMC+025 The leak of freezing medium HFC-R410a(The
emission factor of facility refrigerant0.03) 3. proper motion estimate 1
QSMC+026 The leak of freezing medium HFC-R23(The
emission factor of facility refrigerant0.01) 3. proper motion estimate 1
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QSMC+027 The leak of freezing medium HFC-R23(The
emission factor of facility refrigerant0.03) 3. proper motion estimate 1
QSMC+028 The leak of freezing medium HFC-R23(The
emission factor of facility refrigerant0.05) 3. proper motion estimate 1
QSMC+029 The leak of freezing medium HFC-R23(The
emission factor of facility refrigerant0.085) 3. proper motion estimate 1
QSMC+030 The leak of freezing medium HFC-R23(The
emission factor of facility refrigerant0.15) 3. proper motion estimate 1
QSMC+031 The leak of freezing medium HFC-R507(The
emission factor of facility refrigerant0.03) 3. proper motion estimate 1
QSMC+032 HFC-227ea 3. proper motion estimate 1
QSMC+033 electricity 1. Automatic and
continuous measurement 6
1)Emission factor type and emission factor classification is divided into six categories
according to the collection source, and were given the 1, 2、3、4、5、6 score.
As below
Item emission factor source emission
factor type
emission factor
classification
Remark
1 Measurement / mass balance
income coefficient
1 6 Discharge coefficient is
calculated emission categories
by using parameters, can be
divided into six categories, the
smaller the number that its
precision is higher. Coefficient
of discharge grade score
representing the data
accuracy, more accurate data
more, from 1 to 6 is described.
2 The same process / equipment
experience coefficient
2 5
3 coefficient provided by the factory 3 4
4 Regional emission coefficient 4 3
5 National emission coefficient 5 2
6 International emission coefficient 6 1
The endow score of QSMC greenhouse gas emissions source emission factor type and
classification in 2010.
Item Activity/Facility Emission
factor category
Emission
factor level
QSMC+001 Boiler, dormitory 6 1
QSMC+002 Diesel generator 6 1
QSMC+003 Service Car 6 1
QSMC+004 Fire truck, Service Car, Allocate and transfer Car 6 1
QSMC+005 CO2 extinguisher 1 6
QSMC+006 septic-tank 2 5
QSMC+007 3 dehumidifiers, 26 Drinking Fountains, 13 refrigerators, 8 Freezers 2 5
17
QSMC+008 1 Vertical Refrigerator,1 Vertical Freezer,1 Dehumidifier 2 5
QSMC+009 12 refrigerating machines 、 6 low temperature and low/high
temperature (muggy) test chambers 2 5
QSMC+010 2 Solder paste printer heat sink devices 2 5
QSMC+011 6 ice makers 2 5
QSMC+012 2 ice makers, 56 Solder paste printer heat sink devices、33 reflow
refrigeration equipments 2 5
QSMC+013 11 6 ice makers 2 5
QSMC+014 Service Car、4 low temperature and low/high temperature (muggy)
test chambers 2 5
QSMC+015 4 refrigerators 2 5
QSMC+016 20 Dispenser heat sink devices、13 refrigerators 2 5
QSMC+017 4 Heat pumps 2 5
QSMC+018 38 reflow refrigeration equipments、24 Dispenser heat sink devices、
1 Solder paste printer heat sink device 2 5
QSMC+019 2 iceboxes 2 5
QSMC+020 3 low/high temperature (muggy) test chambers, 1 heat and cold
impact test chamber, 5 constant temperature humidity chambers 2 5
QSMC+021
12 low/high temperature (muggy) test chambers, 1 low temperature
and low/high temperature (muggy) test chamber, 10 open type
thermostats, 1 sunlight testing machine, 1 constant temperature
humidity chambers
2 5
QSMC+022 8 low/high temperature (muggy) test chambers, 5 low temperature
and low/high temperature (muggy) test chambers 2 5
QSMC+023
4 Rapid temperature variation (muggy) test chambers, 3 Step in
type low/high temperature (muggy) test chambers, 1 heat and
cold impact test chamber
2 5
QSMC+024
4 low/high temperature (muggy) test chambers, 2 Rapid
temperature variation (muggy) test chambers、3 Step in type
low/high temperature (muggy) test chambers,2 heat and cold
impact test chambers, 1 constant temperature humidity chamber
2 5
QSMC+025 4 constant temperature humidity chambers 2 5
QSMC+026 4 constant temperature humidity chambers 2 5
QSMC+027 1 constant temperature humidity chamber 2 5
QSMC+028 1 heat and cold impact test chamber 2 5
QSMC+029 4 low/high temperature (muggy) test chambers 2 5
QSMC+030 2 heat and cold impact test chambers 2 5
QSMC+031 1 constant temperature humidity chamber 2 5
QSMC+032 fire extinguisher system 1 6
QSMC+033 Manufacture and life electricity utilization 4 3
3)Instrument calibration level category is divided into three categories, and scores were
given 1,3,6. Please refer to form 4-5.
18
Calibration Level
1. No relevant implementation requirements 1
2.No regulations, but data is recognized or the regulations but the
data does not meet the requirements 3
3. According to regulations, data meet the requirements 6
Instrument calibration level assignment in 2010 of QSMC
Number Emission source Instrument calibration category Instrument
calibration level
QSMC+001 Natural gas 3. According to regulations, data meet the
requirements 6
QSMC+002 Diesel oil 3. According to regulations, data meet the
requirements 6
QSMC+003 gasoline 3. According to regulations, data meet the
requirements 6
QSMC+004 Diesel oil 3. According to regulations, data meet the
requirements 6
QSMC+005
extinguish ant 2.No regulations, but data is recognized or
the regulations but the data does not meet
the requirements
3
QSMC+006
methane form septic-tank 2.No regulations, but data is recognized or
the regulations but the data does not meet
the requirements
3
QSMC+007
The leak of freezing medium
HFC-R134a (The emission
factor of facility refrigerant0.003)
2.No regulations, but data is recognized or
the regulations but the data does not meet
the requirements
3
QSMC+008
The leak of freezing medium
HFC-R134a (The emission
factor of facility refrigerant0.004)
2.No regulations, but data is recognized or
the regulations but the data does not meet
the requirements
3
QSMC+009
The leak of freezing medium
HFC-R134a (The emission
factor of facility refrigerant0.01)
2.No regulations, but data is recognized or
the regulations but the data does not meet
the requirements
3
QSMC+010
The leak of freezing medium
HFC-R134a (The emission
factor of facility refrigerant0.03)
2.No regulations, but data is recognized or
the regulations but the data does not meet
the requirements
3
QSMC+011
The leak of freezing medium
HFC-R134a (The emission
factor of facility refrigerant0.05)
2.No regulations, but data is recognized or
the regulations but the data does not meet
the requirements
3
QSMC+012
The leak of freezing medium
HFC-R134a (The emission
factor of facility refrigerant0.08)
2.No regulations, but data is recognized or
the regulations but the data does not meet
the requirements
3
QSMC+013 The leak of freezing medium 2.No regulations, but data is recognized or 3
19
HFC-R134a (The emission
factor of facility refrigerant0.085)
the regulations but the data does not meet
the requirements
QSMC+014
The leak of freezing medium
HFC-R134a (The emission
factor of facility refrigerant0.15)
3. According to regulations, data meet the
requirements 3
QSMC+015
The leak of freezing medium
HFC-R407c (The emission
factor of facility refrigerant0.01)
3. According to regulations, data meet the
requirements 3
QSMC+016
The leak of freezing medium
HFC-R407c (The emission
factor of facility refrigerant0.03)
2.No regulations, but data is recognized or
the regulations but the data does not meet
the requirements
3
QSMC+017
The leak of freezing medium
HFC-R407c (The emission
factor of facility refrigerant0.055)
3. According to regulations, data meet the
requirements 3
QSMC+018
The leak of refrigerant
HFC-R407c(The emission
factor of facility refrigerant 0.08)
3. According to regulations, data meet the
requirements 3
QSMC+019
The leak of refrigerant
HFC-R404a(The emission
factor of facility refrigerant
0.003)
2.No regulations, but data is recognized or
the regulations but the data does not meet
the requirements
3
QSMC+020
The leak of refrigerant
HFC-R404a(The emission
factor of facility refrigerant 0.03)
3. According to regulations, data meet the
requirements 3
QSMC+021
The leak of refrigerant
HFC-R404a(The emission
factor of facility refrigerant 0.05)
3. According to regulations, data meet the
requirements 3
QSMC+022
The leak of refrigerant
HFC-R404a(The emission
factor of facility refrigerant
0.085)
2.No regulations, but data is recognized or
the regulations but the data does not meet
the requirements
3
QSMC+023
The leak of refrigerant
HFC-R404a(The emission
factor of facility refrigerant 0.12)
3. According to regulations, data meet the
requirements 3
QSMC+024
The leak of refrigerant
HFC-R404a(The emission
factor of facility refrigerant 0.15)
3. According to regulations, data meet the
requirements 3
QSMC+025
The leak of refrigerant
HFC-R410a(The emission
factor of facility refrigerant 0.03)
2.No regulations, but data is recognized or
the regulations but the data does not meet
the requirements
3
QSMC+026
The leak of refrigerant HFC-R23
(The emission factor of facility
refrigerant 0.01)
3. According to regulations, data meet the
requirements 3
QSMC+027 The leak of refrigerant HFC-R23 3. According to regulations, data meet the 3
20
(The emission factor of facility
refrigerant 0.03)
requirements
QSMC+028
The leak of refrigerant HFC-R23
(The emission factor of facility
refrigerant 0.05)
2.No regulations, but data is recognized or
the regulations but the data does not meet
the requirements
3
QSMC+029
The leak of refrigerant HFC-R23
(The emission factor of facility
refrigerant 0.085)
3. According to regulations, data meet the
requirements 3
QSMC+030
The leak of refrigerant HFC-R23
(The emission factor of facility
refrigerant 0.15)
3. According to regulations, data meet the
requirements 3
QSMC+031
The leak of refrigerant
HFC-R507(The emission factor
of facility refrigerant 0.03)
2.No regulations, but data is recognized or
the regulations but the data does not meet
the requirements
3
QSMC+032 HFC-227ea 3. According to regulations, data meet the
requirements 3
QSMC+033 Electricity 3. According to regulations, data meet the
requirements 6
4)The uncertainty assessment of QSMC source activity data in year 2010.
NO. source
Activit
y data
class
Emiss
ion
coeffi
cient
level
Equip
ment
calibr
ation
level
Overall
rating
data
score
Data
level
Emissions tons
CO2e
Emissio
ns
proporti
on %
The
weight
ratio of
average
score
QSMC+0
01 Natural gas 6 1 6 4.3333
5.Fifth
degree
10830369.692
0 3.4692 0.1503
QSMC+0
02 Diesel fuel 3 1 6 3.3333
4.Fourth
degree 17264.6102 0.0055 0.0002
QSMC+0
03 Gasoline 6 1 6 4.3333
5.Fifth
degree 262199.7027 0.0840 0.0036
QSMC+0
04 Diesel fuel 6 1 6 4.3333
5.Fifth
degree 205108.8154 0.0657 0.0028
QSMC+0
05 Carbon dioxide 6 6 3 5.0000
6.sixth
degree 6365.0000 0.0020 0.0001
QSMC+0
06
Methane emissions from septic tanks
1 5 3 3.0000
4.Fourth
degree 2077307.1413 0.6654 0.0200
QSMC+0
07
The leak of refrigerant HFC-R134a
(The emission factor of facility
refrigerant 0.003)
1 5 3 3.0000 4.Fourth
degree 34.2900 0.0000 0.0000
QSMC+0
08
The leak of refrigerant HFC-R134a
(The emission factor of facility 1 5 3 3.0000
4.Fourth
degree 5.1194 0.0000 0.0000
21
refrigerant 0.004)
QSMC+0
09
The leak of refrigerant HFC-R134a
(The emission factor of facility
refrigerant 0.01)
1 5 3 3.0000 4.Fourth
degree 97.1771 0.0000 0.0000
QSMC+0
10
The leak of refrigerant HFC-R134a
(The emission factor of facility
refrigerant 0.03)
1 5 3 3.0000 4.Fourth
degree 25.7400 0.0000 0.0000
QSMC+0
11
The leak of refrigerant HFC-R134a
(The emission factor of facility
refrigerant 0.05)
1 5 3 3.0000 4.Fourth
degree 136216.0800 0.0436 0.0013
QSMC+0
12
The leak of refrigerant HFC-R134a
(The emission factor of facility
refrigerant 0.08)
1 5 3 3.0000 4.Fourth
degree 54643.5261 0.0175 0.0005
QSMC+0
13
The leak of refrigerant HFC-R134a
(The emission factor of facility
refrigerant 0.085)
1 5 3 3.0000 4.Fourth
degree 1050678.2000 0.3366 0.0101
QSMC+0
14
The leak of refrigerant HFC-R134a
(The emission factor of facility
refrigerant 0.15)
1 5 3 3.0000 4.Fourth
degree 8998.2750 0.0029 0.0001
QSMC+0
15
The leak of refrigerant HFC-R407c
(The emission factor of facility
refrigerant 0.01)
1 5 3 3.0000 4.Fourth
degree 164.6133 0.0001 0.0000
QSMC+0
16
The leak of refrigerant HFC-R407c
(The emission factor of facility
refrigerant 0.03)
1 5 3 3.0000 4.Fourth
degree 1777.3977 0.0006 0.0000
QSMC+0
17
The leak of refrigerant HFC-R407c
(The emission factor of facility
refrigerant 0.055)
1 5 3 3.0000 4.Fourth
degree 117074.1000 0.0375 0.0011
QSMC+0
18
The leak of refrigerant HFC-R407c
(The emission factor of facility
refrigerant 0.08)
1 5 3 3.0000 4.Fourth
degree 10271.3010 0.0033 0.0001
QSMC+0
19
The leak of refrigerant HFC-R404a
(The emission factor of facility
refrigerant 0.003)
1 5 3 3.0000 4.Fourth
degree 6.5412 0.0000 0.0000
QSMC+0
20
The leak of refrigerant HFC-R404a
(The emission factor of facility
refrigerant 0.03)
1 5 3 3.0000 4.Fourth
degree 1270.5984 0.0004 0.0000
QSMC+0
21
The leak of refrigerant HFC-R404a
(The emission factor of facility
refrigerant 0.05)
1 5 3 3.0000 4.Fourth
degree 11058.9120 0.0035 0.0001
QSMC+0
22
The leak of refrigerant HFC-R404a
(The emission factor of facility
refrigerant 0.085)
1 5 3 3.0000 4.Fourth
degree 15700.1256 0.0050 0.0002
QSMC+0 The leak of refrigerant HFC-R404a 1 5 3 3.0000 4.Fourth 18712.0556 0.0060 0.0002
22
Uncertainty assessment of sources data are in the table below.
The total weight ratio average score: 4.9524
The level of total weight ratio average score: second level
Guarantee substantiality error ≤5%
Chapter 5 Base Year
5.1 Base year selected
Because QSMC conduct greenhouse gas inventory officially in 2010, so selected 2010
year to be the base year, emission inventory please refer to the inventory of greenhouse
gas inventory. QSMC base year discharge is 312188.6233 t CO2e.
23 (The emission factor of facility
refrigerant 0.12)
degree
QSMC+0
24
The leak of refrigerant HFC-R404a
(The emission factor of facility
refrigerant 0.15)
1 5 3 3.0000 4.Fourth
degree 89177.1840 0.0286 0.0009
QSMC+0
25
The leak of freezing medium
HFC-R410a (The emission factor of
facility refrigerant0.03)
1 5 3 3.0000 4.fourth
level 557.3625 0.0002 0.0000
QSMC+0
26
The leak of freezing medium HFC-R23
(The emission factor of facility
refrigerant0.01)
1 5 3 3.0000 4.fourth
level 177.6000 0.0001 0.0000
QSMC+0
27
The leak of freezing medium HFC-R23
(The emission factor of facility
refrigerant0.03)
1 5 3 3.0000 4.fourth
level 444.0000 0.0001 0.0000
QSMC+0
28
The leak of freezing medium HFC-R23
(The emission factor of facility
refrigerant0.05)
1 5 3 3.0000 4.fourth
level 1480.0000 0.0005 0.0000
QSMC+0
29
The leak of freezing medium HFC-R23
(The emission factor of facility
refrigerant0.085)
1 5 3 3.0000 4.fourth
level 20128.0000 0.0064 0.0002
QSMC+0
30
The leak of freezing medium HFC-R23
(The emission factor of facility
refrigerant0.15)
1 5 3 3.0000 4.fourth
level 26640.0000 0.0085 0.0003
QSMC+0
31
The leak of freezing medium
HFC-R507 (The emission factor of
facility refrigerant0.03)
1 5 3 3.0000 4.fourth
level 215.1900 0.0001 0.0000
QSMC+0
32 HFC-227ea 1 6 3 3.3333
4.fourth
level 0.0000 0.0000 0.0000
QSMC+0
33 electricity 6 3 6 5.0000
6.sixth
level
297224454.96
05 95.2067 4.7603
Total: 14964168.3504 100.0000 4.9524
23
5.2 The change of base year
5.2.1 There is no change of base year now
5.2.2 If there are situations as below, base year greenhouse gas inventory should be
recalculated and reviewed according to the new.
5.2.2.1 The change of operational boundary.
5.2.2.2 The ownership/control of greenhouse gas source immigrate or emigrate boundary,
lead to the change of greenhouse gas emission exceed the recalculate threshold.
5.2.2.3 Quantification method change, resulting in greenhouse gas emissions change in
excess of recalculating threshold.
Chapter 6 Verification
6.1 Internal verification
6.1.1 Internal verification greenhouse gas inventory result is one time in every year.
6.1.2 The report of GHG could be officially launched after the internal (The first person)
verification and defect improvement.
6.2 External verification
When necessary, the second party (customer) or through a third party (third-party notary
units) to verify.
Chapter 6 Management of the report
7.1 The purpose of report fabrication
7.1.1 Showing greenhouse gas inventory results of Quanta Shanghai manufacture City.
7.1.2 Introducing QSMC greenhouse gas information, and promote image of good
corporate citizenship.
7.1.3 Recorded QSMC greenhouse gas emissions inventory, to facilitate future verification,
validation, future domestic, international policy and customer needs.
7.2 The management and safekeeping of the report
7.2.1 The report the accreditation program before is issued: the report is produced by
EHS team, and reviewed by the Management Representative of GHG Promotion
Committee, approved issuance by the chairman.
7.2.2 Release object and Public limit, The report is based on plant inventory report, a
condensed version of internal information,for reference purposes only third-party
applications to understand, as well as stakeholders.
7.2.3 The report is currently only announced on the company's Web site, if subject is
changed, announced separately.
24
7.2.4 Consulting the report content by following in:
Company name: Tech-Front (Shanghai) Computer Co, Ltd
Linkman: Aimee Ding
Tel: 86-21-37818168 Ext: 12164
E-mail: Aimee.Ding@quantacn.com
Address: No.2, Lane 58, Sanzhuang Road, Songjiang Export Processing Zone, Shanghai,
China
Chapter 8 Attachment
8.1 The inventory of greenhouse gas inventory of QSMC
Chapter 9 Reference documents
The report made reference to the following documents:
9.1 ISO14064-1 GHG-Part 1: The guidance of organizational levels of greenhouse gas
emissions and removals quantified report specification.
9.2 "China Energy Statistical Yearbook 2009"
9.3 2006 IPCC Guidelines for National Greenhouse Gas Inventories Vol.2
9.4 National development and reform committee with climate change, enclosure 1 of
publicly Chinese electric fence standard line exhaust factor [fuel parameter] content in
2010.
9.5 < greenhouse gas inventory Tools > (3 edition)
9.6 Revised 1996 IPCC guidelines for national greenhouse gas inventories Reference
manual (Vol.3). (Greenhouse gas emission coefficient management table reference)