Monitoring report form (Version 04.0)

Transcription

1 Monitoring report form (Version 04.0) Complete this form in accordance with the Attachment Instructions for filling out the monitoring report form at the end of this form. MONITORING REPORT Title of the project activity WWF Ningshan County High Efficient Cook Stove Project Reference number of the project activity GS 2429 Version number of the monitoring report 04 Completion date of the monitoring report 11/06/2015 Registration date of the project activity 28/05/2014 Monitoring period number and duration of this monitoring period 1 st Monitoring period: 29/07/ /12/ Project participant(s) Host Party(ies) Sectoral scope and selected methodology(ies), and where applicable, applied standardized baseline(s) WWF China (NGO) South Pole Carbon Asset Management Consulting (Beijing) Ltd. (Private entity) P.R.China Sectoral scope(s): 03 Energy efficiency CDM methodology AMS-II.G. Energy efficiency measures in thermal applications of non-renewable biomass --- Version 05.0 Estimated amount of GHG emission reductions or net anthropogenic GHG removals by sinks for this monitoring period in the registered PDD Actual GHG emission reductions or net anthropogenic GHG removals by sinks achieved in this monitoring period Actual GHG emission reductions or net anthropogenic GHG removals by sinks achieved during the period up to 31 December 2012(if applicable) Actual GHG emission reductions or net 12,383 tco 2 e 2 7,006 tco 2 e N/A 7,006 tco 2 e : 156 days; 2014: 365 days 2 (8692/365)*( )=12,383 Version 04.0 Page 1 of 23

2 anthropogenic GHG removals by sinks achieved during the period from 1 January 2013 onwards (if applicable). CDM-MR-FORM SECTION A. Description of project activity A.1. Purpose and general description of project activity The proposed project plans to reconstruct or improve 1,379 old cook stoves with the high efficient cook stove (HES, see picture 1) in the villages neighbouring the giant panda habitat Huangguanshan Nature Reserve (henceforth HNR) located within Huangguan Town, Simudi Town and Xinchang town of Ningshan County, Shaanxi Province during 2013 to The project aims to protect local forest resources and giant panda habitat as well as to improve the indoor living and hygiene environment of local households by replacing the current low efficient fixed cook stoves in the kitchen with high-efficient ones. Meanwhile, the project can significantly reduce the workload and time spent on cutting wood every year and hence improves the community development. HES could reduce greatly the non-renewable biomass combustion and associated CO 2 emissions. Nowadays, wood is still the primary fuel source for cooking and heating in the local communities within the deep mountains in Ningshan County. Every year each household needs to collect a huge amount of wood from their forest area and store in their house. As a result, the forest has been degraded over years. At present, families living within the project boundary use firewood as the main fuel for cooking and heating. The Old Mud Stove (OMS, see picture 2) and Traditional Cooking Stove (TCS, see picture 3) are the main cooking instruments; no other cooking instruments are used. Due to low thermal efficiency, these old stoves use a considerable amount of firewood per year, causing local people to spend a lot of time gathering firewood. As populations increase, so too does the demand for firewood. This leads to more deforestation and an increase in the rate at which the MNR is retreating. In addition to deforestation, cooking with the old stoves causes health threatening smoke pollution, especially for women and children who typically spend more time in the kitchen area than men. HES has been used for several decades in China. The technology is mature. Compared with TCS and OMS, HES has an additional air flowing system, which includes a chimney and grate (see pictures 4 and 5). The chimney and grate allow the firewood to be combusted completely (typically in the kitchen area) and the smoke to escape the room. A fire-block-circle (see picture 6) reduces the amount of thermal energy loss by keeping the hot smoke for a longer period of time under pots that run directly into the chimney. This allows the pots to absorb the thermal energy carried by the smoke. Experience shows that HES saves on wood consumption (thus less deforestation) and reduce cooking time. The overall size of the HES is L 148cm*W 76cm*H 78cm. The chimney height is 3.5m, with the cross of 15cm*15cm. The chimney should be at least 0.5m higher than the roof. Typically, HES contains two or three pots with the diameter of 60cm. Version 04.0 Page 2 of 23

3 CDM-MR-FORM Pic.1 High Efficient Stove (HES) Pic.2 Old Mud Stove (OMS) Pic.3 Traditional cooking stove in the project area (TCS) Pic.4 Structure of HES Version 04.0 Page 3 of 23

4 Pic.5 Grate of HES CDM-MR-FORM Pic.6 Detail of Fire-Block-Circle WWF have started the feasibility research of the proposed project since The GS Local stakeholder Consultation meeting was held on 19/06/2013 in Huangguan township. The construction started on 29/07/2013 and expects to be finished by the end of March, The first stove was put into use on 30/07/2013. The total GHG emission reduction in this monitoring period (29/07/ /12/2014) is 7,006 tco 2 e. A.2. Location of project activity The HES of the proposed project are distributed in the Huangguan, Xinchang and Simudi towns around the Huangguanshan Nature Reserve in Ningshan county, Shaanxi province, P.R.China. Coordinates of the towns Town Latitude Longitude Huangguan 33`38'39''-33`31'34'' 108`17'50''-108`28'56'' Xinchang 33`44'20''-33`37'04'' 108`10'40''-108`24'26'' Simudi 33`32'33''-33`26'31'' 108`06'12''-108`10'37'' Version 04.0 Page 4 of 23

5 Pic.7 Location of Shaanxi CDM-MR-FORM Pic.8 Location of Ningshan County Version 04.0 Page 5 of 23

6 Pic.9 Location of Huangguanshan Nature Reserve CDM-MR-FORM A.3. Parties and project participant(s) Party involved ((host) indicates a host Party) Private and/or public entity(ies) project participants (as applicable) Party A (host) WWF China (NGO) No Party B South Pole Carbon Asset Management Consulting (Beijing) Ltd. (Private entity) Indicate if the Party involved wishes to be considered as project participant (Yes/No) A.4. Reference of applied methodology and standardized baseline CDM methodology AMS-II.G Energy efficiency measures in thermal applications of non-renewable biomass --- Version 05.0 A.5. Crediting period of project activity A crediting period of one-off 10 years period 29/07/ /07/2023 is selected for the proposed for the project. The starting date of the crediting period is 29/07/2013 when the construction of project started. The first monitoring period of the project is 29/07/ /12/2014. The start date of the monitoring period is 29/07/2013. No A.6. Contact information of responsible persons/ entities The monitoring report was completed by: Yi Lin, South Pole Carbon Asset Management Ltd. Tel: Fax: y.lin@southpolecarbon.com Version 04.0 Page 6 of 23

7 SECTION B. Implementation of project activity B.1. Description of implemented registered project activity The project has registered in GS on 28/05/2014. The project started on 29/07/2013 and the stoves were put into usage gradually since 30/07/2013. A total of 1,238 stoves have been put into usage. 366 stoves were constructed in stoves were constructed in B.2. Post registration changes B.2.1. Temporary deviations from registered monitoring plan, applied methodology or applied standardized baseline N/A B.2.2. Corrections N/A B.2.3. Permanent changes from registered monitoring plan, applied methodology or applied standardized baseline N/A B.2.4. Changes to project design of registered project activity N/A B.2.5. Changes to start date of crediting period N/A B.2.6. Types of changes specific to afforestation or reforestation project activity N/A Version 04.0 Page 7 of 23

8 SECTION C. Description of monitoring system 1. Monitoring Parameters There are 3 parameters which are the actual stove efficiency (η new ), the stove quantity has been built up (n1) and fraction of the non-renewable biomass (f NRB,y ) should be monitored during credit period for the emission reduction calculation. At the same time, 4 GS sustainable development indicators including Air condition, Biodiversity, Livelihood of poor and Access to affordable and clean energy services 2. Monitoring Organization and monitoring method Onsite and data classify and data analysis were finished by WWF China, Xi an office and South Pole Carbon Asset Management Ltd Stove efficiency test (η new ) 25 FCS were selected by random and test as the national stove thermal efficiency test standard NY/T Thermal performance test method for civil firewood stoves annually by local rural energy office, other rural energy institute or expert by sample. The sample was applied according to the latest CDM guidance General guidelines for sampling and surveys for small-scale CDM project activities with the precision of 10/90. Equipments for thermal efficiency test KT-50B Moisture meter for wood Temperature meter Weight All equipments were newly purchased and within the qualified period during the test stage. Apply relevant measurements to secure the accuracy of test Strictly follow the procedure and requirements of the national stove thermal efficiency test standard NY/T Thermal performance test method for firewood stoves The staffs are fully trained. Always more than two staffs conduct the test in order to secure the quality of works. Test twice for each stove. If the difference of two results is less than 4%, the average value is applied. Otherwise, a new test has to be conducted. Quality control of the stove installation and deal with the problematic stove with low efficiency Encourage artisans to learn from each other and exchange their experiences in order to increase their work quality. An artisan will be not even hired if the first stove he installed is not qualified. A new stove will be installed if the previous one with low quality, such as low thermal efficiency. If one artisan has the quality problem twice, he will be fired. If the stove user raises any problem, the artisan, who installed that stove, has to solve this problem. The implementation team will check the quality for each newly installed stove. The stove user will sign and confirm the quality control. The artisan will receive payment by showing the signed receipt. Maintenance services The regular maintenance is provided during the efficiency test if it is needed. Villager can contact the staffs of Ningshan Huangguanshan Nature Reserve directly if there is any problem during the usage of the stove for the maintenance service. Version 04.0 Page 8 of 23

9 2.2. Number of project devices (N y,i ) The quantity of the stove that is in good condition would be checked by sample during verification according to the latest CDM guidance General guidelines for sampling and surveys for small-scale CDM project activities with the precision of 10/90. 10% of the stove users would be interviewed annually during the 10-years credit period Fraction of non-renewable biomass (f NRB,y ) The f NRB,y will be re-calculated as the method in the B of the registered PDD as the newly monitored data Sustainable development indicators The indicators of Air condition, Biodiversity, Livelihood of poor were verified by random interview by asking whether the cook smoking has been reduced obviously, how much the firewood and wood collecting time were saved after using the new stoves. The indicator Access to affordable and clean energy services, which focus on if the 1,238 local families have obtained the free new stoves, could be proved by the construction record database Data Management Stove efficiency test result as well as the test record will be prepared in the form of HES Efficiency Test Report. The stove quantity sample household list is record. All the data and report would be kept in hard copy and electronic backups for an additional period of 2 years following the end of the crediting period. All the stove information including the stove user, location and construction and start date were kept in the Ningshan Huangguanshan Nature Reserve during construction period. The stove quantity in use and the stove condition would be monitored by Ningshan Huangguanshan Nature Reserve as a measure to release the forest pressure. As a necessary instruments during their daily life, stove users could contact the protect station for reparation when the stove is out of usage. For the collapsed HES or the HES with collapsed experience identified during the sampling process, they would be excluded from the VER estimation for the whole monitoring period and corresponding discount would be applied for the all the stoves for being conservative. For example, if 2% of the sampled HES were find out collapsed or with collapsed experience within this monitoring period during the onsite monitoring process, 2% of the project VER in the monitoring period should be deducted accordingly. And the collapsed HES must be repaired immediately. 4. Organization set-up and core employee base of the project 3 See Verification Emission Reduction table Version 04.0 Page 9 of 23

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11 SECTION D. Data and parameters D.1. Data and parameters fixed ex ante or at renewal of crediting period Unit: B old Value(s) applied): Tonne/year/house Quantity of woody biomass used in the absence of the project activity in tonnes per device within baseline survey Baseline Report This value is determined by onsite survey and measure on sample during the baseline survey period. Unit: Value(s) applied): NCV biomass TJ/tonne Net calorific value of the non-renewable woody biomass that is substituted IPCC default for wood fuel TJ/tonne NCV biomass EF project_fossilfuel Unit: tco 2 /TJ 4 Emission factor for the substitution of non-renewable woody biomass by similar consumers. CDM Methodology AMS.II.G Version 3.0 Value(s) applied): 81.6 η old Unit: % Efficiency of the system being replaced Baseline Report 4 This value represents the emission factor of the substitution fuels likely to be used by similar users, on a weighted average basis. It is assumed that the mix of present and future fuels used would consist of a solid fossil fuel (lowest in the ladder of fuel choices), a liquid fossil fuel (represents a progression over solid fuel in the ladder of fuel use choices) and a gaseous fuel (represents a progression over liquid fuel in the ladder of fuel use choices). Thus a 50% weight is assigned to coal as the alternative solid fossil fuel (96 tco 2 /TJ) and a 25% weight is assigned to both liquid and gaseous fuels (71.5 tco 2 /TJ for Kerosene and 63.0 tco 2 /TJ for Liquefied Petroleum Gas (LPG). Version 04.0 Page 11 of 23

12 Value(s) applied): % CDM-MR-FORM Weight average value from baseline survey. The relevant value of the different baseline device is from default value in methodology and Local rural energy office test result. Unit: Value(s) applied): 1,379 n Quantity of all the households in the three targeted towns Official Estimate This parameter is used to calculate the total firewood cutting from the wood collecting forest area. Please See Family number prove Unit: S ha Value(s) applied): 5,987 The area of wood collecting area of all the 1,379 surrounding inhabitants within and nearby the project boundary. Official estimation Details please See Firewood collecting area prove Unit: G Value(s) applied): 2.8 m 3 /(ha year) Average grow rate of local forest Forest survey of Ningshan Forest Bureau The date is from the most recent research of Ningshan Forest Bureau. Please see Prove of forest increment of Ningshan county Unit: tdm/m 3 Value(s) applied): ρ Dry mass density of the firewood Guidelines for Carbon Accounting and Monitoring [M]. Beijing, China Forestry Press 2008: Use the largest density of the local tree of oak for the purpose of conservative. Version 04.0 Page 12 of 23

13 Unit: B All Value(s) applied): Tonne/year/house Quantity of total woody biomass consumption per family in the baseline Baseline Report D.2. Data and parameters monitored D.2.1. Data and parameters monitored for ER calculation Unit: % Measured/ Calculated / Default: Value(s) of monitored parameter: Monitoring equipment: η new The thermal efficiency of the HES Measured and Calculated 30.73% Temperature meter, clock, platform scale Measuring/ Reading/ Recording frequency: Calculation method (if applicable): QA/QC procedures: The efficiency would be test by Ningshan Huangguanshan Nature Reserve and rural energy expert. The sample scale would follow 10/90 precision National Standard: NY/T Thermal performance test method for civil firewood stoves would be followed for stove test calculation. The sample would follow the latest CDM guidance General guidelines for sampling and surveys for small-scale CDM project activities. Measured by Ningshan Huangguanshan Nature Reserve staffs Yi Shouming from 17/11/2014 to 27/11/2014. Unit: Measured/ Calculated / Default: Value(s) of monitored parameter: N y,i Number of project devices of type i operating in year y Measured by onsite survey Survey record 100% Version 04.0 Page 13 of 23

14 Monitoring equipment: Measuring/ Reading/ Recording frequency: Calculation method (if applicable): QA/QC procedures: Annually CDM-MR-FORM Household stove-check if the stove is under normal usage by sample. The sample would follow the latest CDM guidance General guidelines for sampling and surveys for small-scale CDM project activities. The sample scale would follow 10/90 precision Unit: % Measured/ Calculated / Default: Value(s) of monitored parameter: Monitoring equipment: Measuring/ Reading/ Recording frequency: Calculation method (if applicable): f NRB,y Fraction of woody biomass saved by the project activity in year y that can be established as non-renewable biomass Calculated Survey record 100% Annually According to the latest user survey, Total quantity of woody biomass used in the absent of the project within project boundary (B Total ) is 32, 238 t, which is still much higher than Biomass Increment within the firewood collection area in year y (BI), which is 11,332 t. Therefore, f NRB,y is still 100% QA/QC procedures: To be calculated as B with the newest data of each year. If sample is needed to confirm the parameters during the calculation, the sample would follow 90/10 precision and the newest CDM sample standard CDM-EB50-A30- STAN Standard: Sampling and surveys for CDM project activities and programme of activities Version D.2.1. Data and parameters monitored for Sustainable Development indicators Unit: Measured/ Calculated / Default: Cooking smoke reduction Whether the stove has reduced the cook smoke pollution obviously Measured by Interview Version 04.0 Page 14 of 23

15 Value(s) of monitored parameter: Monitoring equipment: Measuring/ Reading/ Recording frequency: Calculation method (if applicable): QA/QC procedures: Survey record Yes Annually 120 of the stove users were chosen by random and interviewed CDM-MR-FORM To prove the positive impact for the SD indicator of Air Quality and Livelihood of poor 100% of the interviewed people were agreed that the smoke has been reduced. Interviewed by Ningshan Huangguanshan Nature Reserve staffs Yi Shouming, Deng pingyan and Peng from 17/11/2014 to 05/12/2014. The interviews were carried out in the way of onsite checking and talking. Measured by Ningshan Huangguanshan Nature Reserve staffs Yi Shouming, Deng pingyan and Peng Tao from 17/11/2014 to 05/12/2014 Unit: Measured/ Calculated / Default: Value(s) of monitored parameter: Monitoring equipment: Measuring/ Reading/ Recording frequency: Calculation method (if applicable): QA/QC procedures: Firewood reduction The wood reduction after the project by which way enhance the forest is protected. Interview Survey record 50-60% has been reduced. Annually 120 of the stove users were chosen by random and interviewed To prove the positive impact for the SD indicator of Biodiversity Interviewed by Ningshan Huangguanshan Nature Reserve staffs Yi Shouming, Deng Pingyan and Peng Tao from 17/11/2014 to 05/12/2014. The interviews were carried out in the way of onsite checking and talking. Unit: Measured/ Calculated / Default: 40~60% Wood collecting time The time and labour reduction of wood collection after the project Measured by interview Version 04.0 Page 15 of 23

16 Value(s) of monitored parameter: Monitoring equipment: Measuring/ Reading/ Recording frequency: Calculation method (if applicable): QA/QC procedures: Annually 120 of the stove users were chosen by random and interviewed CDM-MR-FORM To prove the positive impact for the SD indicator of Access to affordable and clean energy services Interviewed by Ningshan Huangguanshan Nature Reserve staffs Yi Shouming, Deng Pingyan and Peng Tao from 17/11/2014 to 05/12/2014. The interviews were carried out in the way of onsite checking and interviewing. Unit: % Measured/ Calculated / Default: Value(s) of monitored parameter: Monitoring equipment: Measuring/ Reading/ Recording frequency: Calculation method (if applicable): QA/QC procedures: The quantity of the new stove number and the MS quantity in the baseline still in use in the project The quantity of the new stove number and the Mud Stove quantity in the baseline still in use in the project Construction record and sample Survey record 1,238 new stove were built up for free and in operation. No Mud stove is in use by now. Annually To prove the positive impact for the SD indicator of Access to affordable and clean energy services The information of the 1,238 new stove and the Mud stove were record during construction period. 120 of the stove users were chosen by random and interviewed about if the new stove is in normal usage. The remove of MS is record in the sheet Name list of ER spreadsheet. New stove construction record and interviewed and checked by Ningshan Huangguanshan Nature Reserve staffs Yi Shouming, Deng Pingyan and Peng Tao from 17/11/2014 to 05/12/2014. The interviews were carried out in the way of onsite checking and interviewing. D.3. Implementation of sampling plan There are 6 parameters in the report section D.2 are determined by sampling, including η new, N y,i,, Cooking smoke reduction, Wood collecting time, The quantity of the new stove number and Version 04.0 Page 16 of 23

17 the MS quantity in the baseline still in use in the project and The quantity of the new stove number and the MS quantity in the baseline still in use in the project. All the interviewed household or stoves were chose randomly and evenly distributed in the 11 villages. The data and analysis please refer to the spreadsheet. Version 04.0 Page 17 of 23

18 SECTION E. Calculation of emission reductions or GHG removals by sinks E.1. Calculation of baseline emissions or baseline net GHG removals by sinks The emission reduction (ER) is calculated according to CDM methodology AMS.II.G. Emission reductions are calculated as: Equation 1 ER y = By,savings f NRB,y NCVbiomass EFprojected_fossilfuel N y, i Where: ER = Emission reductions during year y in t CO 2 e y B = Quantity of woody biomass that is saved in tonnes per device y,savings f = Fraction of woody biomass saved by the project activity in year y that can NRB,y be established as non-renewable biomass using survey methods or government data or default country NCV = Net calorific value of the non-renewable woody biomass that is biomass substituted (IPCC default for wood fuel, TJ/tonne, wet basis) EF = Emission factor for the substitution of non-renewable woody biomass by projected_fossilfuel similar consumers. Use a value of 81.6 t CO 2 /TJ 5 N, = Number of project devices of type i operating in year y,1238 y i Wood Reduction (B y, savings ) When determine the B y, savings, option 2 is chose as the methodology, Equation 2 η B y,savings = Bold (1- η old new, y ) Where: B = Quantity of woody biomass used in the absence of the project activity in old tonnes per device, ton/stove before considering the 95% leakage factor. B y, new, survey = Annual quantity of woody biomass used during the project activity in tonnes per device, determined through a survey 5 This value represents the emission factor of the substitution fuels likely to be used by similar users, on a weighted average basis. It is assumed that the mix of present and future fuels used would consist of a solid fossil fuel (lowest in the ladder of fuel choices), a liquid fossil fuel (represents a progression over solid fuel in the ladder of fuel use choices) and a gaseous fuel (represents a progression over liquid fuel in the ladder of fuel use choices). Thus a 50% weight is assigned to coal as the alternative solid fossil fuel (96 t CO2/TJ) and a 25% weight is assigned to both liquid and gaseous fuels (71.5 t CO2/TJ for kerosene and 63.0 t CO2/TJ for liquefied petroleum gas (LPG). Version 04.0 Page 18 of 23

19 η = old CDM-MR-FORM 1. Efficiency of the device being replaced (fraction); measured using representative sampling methods or based on referenced literature values use weighted average values if more than one type of device is being replaced; 2. A default value of 0.10 may be optionally used if the replaced device is a three stone fire, or a conventional device with no improved combustion air supply or flue gas ventilation, that is without a grate or a chimney; for other types of devices, a default value of 0.2 may be optionally used % is applied to this indicator as the registered PDD. η = Efficiency of the device being deployed as part of the project activity new, y (fraction) B old is derived from the baseline survey of local usage as option (a). According to the sample guideline in the methodology, when the project proponent chooses to inspect annually, a 90% confidence interval and a 10% margin of error requirement shall be achieved for the sampled parameters. Equation 3 NRB f NRB,y = NRB + DRB Where, NRB- Non renewable woody biomass DRB-Demonstrably renewable woody biomass According to the baseline survey, all the informants showed that the firewood price and firewood gathering distance and time are increasing and type of firewood has changed over time. In the past, it was common to cut a big tree for fuel. Now, smaller trees are typically used along with small branches and bush scraps. For the local forest source, it is clearly not a sustainable trend. For the wood collecting area, the mean forest increment is 11,332 tonnes/year. Total wood consumption in baseline of 1,379 (n) families was 32,238 tonnes/year while the project could reduce the woody biomass of 8,547 tonnes in absolutely dry mass. As the guideline, when the projected biomass consumption by the project (after the implementation of the project) (32,238-8,447=23,791 tonnes/year) > Annual Increment (11,332 tonnes/year), the project can claim all emission reductions from its fuel wood savings. So in the proposed project, all the wood biomass saved from the project could be seen as non-renewable biomass, which means the annually forest increment is significantly lower than the forest cutting by local people, The retreat is obvious to the forest not only before the project but also after the project implementation. So all the woody biomass used in the project, which collected from the Firewood Collecting Forest, should be regarded as NRB rather than DRB as the definition in AMS II.G, which means Equation 4 f NRB,y = NRB NRB + DRB = NRB NRB + 0 =100% Version 04.0 Page 19 of 23

20 ER y Equation 5 ER y = B y,savings f NRB,y NCV biomass EF projected_fossilfuel N y,i = XX 100% *1238 = The overall emission reduction of the project in the monitoring period (29/07/2013~31/12/2014) is 7,006 tco 2 e by considering the leakage by timing a leakage factor of 95% of B old. E.2. Calculation of project emissions or actual net GHG removals by sinks N/A E.3. Calculation of leakage B old should multiple the leakage factor of 95% as the methodology and PDD. So individual leakage calculation isn t needed. E.4. Summary of calculation of emission reductions or net anthropogenic GHG removals by sinks Item Baseline emissions or baseline net GHG removals by sinks (t CO 2 e) Project emissions or actual net GHG removals by sinks (t CO 2 e) Leakage (t CO 2 e) Total 7, ,006 Emission reductions or net anthropogenic GHG removals by sinks (t CO 2 e) E.5. Comparison of actual emission reductions or net anthropogenic GHG removals by sinks with estimates in registered PDD Item Emission reductions or GHG removals by sinks (t CO 2 e) Values estimated in ex-ante calculation of registered PDD 12,383 7,006 Actual values achieved during this monitoring period E.6. Remarks on difference from estimated value in registered PDD The actual value is lower than the estimated one in the registered PDD. Version 04.0 Page 20 of 23

21 E.7. CDM-MR-FORM Actual emission reductions or net anthropogenic GHG removals by sinks during the first commitment period and the period from 1 January 2013 onwards Item Emission reductions or GHG removals by sinks (t CO 2 e) Actual values achieved up to 31 December 2012 N/A 7, Actual values achieved from 1 January 2013 onwards Version 04.0 Page 21 of 23

22 Appendix 1. Contact information of project participants and responsible persons/ entities Project participant and/or responsible person/ entity Project participant Responsible person/ entity for completing the CDM-MR-FORM Organization name South Pole Carbon Asset Management Consulting (Beijing) Ltd. Street/P.O. Box Jianguo Ave B-118 Building The Exchange Beijing City Beijing State/Region Beijing Postcode Country China Telephone Fax Website Contact person Yi Lin Title Project Manager Salutation Mr. Last name Lin Middle name n/a First name Yi Department Implementation Mobile Direct fax Direct tel Personal Version 04.0 Page 22 of 23

23 Document information Version Date Description June 2014 Revisions to: Include the Attachment: Instructions for filling out the monitoring report form (these instructions supersede the "Guideline: Completing the monitoring report form" (Version 04.0)); Include provisions related to standardized baselines; Add contact information on a responsible person(s)/ entity(ies) for completing the CDM-MR-FORM in A.6 and Appendix 1; Change the reference number from F-CDM-MR to CDM-MR- FORM; Editorial improvement November 2013 Editorial revision to correct table in page January 2013 Editorial revision to correct table in section E December 2012 Revision required to introduce a provision on reporting actual emission reductions or net anthropogenic GHG removals by sinks for the period up to 31 December 2012 and the period from 1 January 2013 onwards (EB70, Annex 11) March 2012 Revision required to ensure consistency with the "Guidelines for completing the monitoring report form" (EB 66, Annex 20) May 2010 EB 54, Annex 34. Initial adoption. Decision Class: Regulatory Document Type: Form Business Function: Issuance Keywords: monitoring report Version 04.0 Page 23 of 23