Methodology : VN_AM009 Ver1.1

Methodology No. VN_AM009
Proposed Methodology No. VN_PM021
Sectoral scope 3. Energy demand
Title Installation of Container Formation Facility at Lead Acid Battery Factory
Summaries GHG emission reduction measures : Installation of container formation facility at lead acid battery production line in place of tank formation facilities leads to reduction of electricity and fossil fuel consumption by the production line.
Calculation of reference emissions : Reference emissions from electricity consumption are calculated by multiplying electricity consumption of reference tank formation facilities and CO2 emission factor for electricity consumed. Electricity consumption of reference tank formation facilities is calculated with production output of lead acid battery and specific electricity consumption by the reference facilities. Reference emissions from fuel consumption are calculated by multiplying net heat quantity required for fuel consumption to produce lead acid battery by reference tank formation facilities and CO2 emission factor. Net heat quantity required for fuel consumption to produce lead acid battery by reference tank formation facilities is calculated with production output of lead acid battery and specific net heat quantity required for fuel consumption per lead acid battery by the reference facilities.
Calculation of project emissions : Project emissions are calculated by multiplying electricity consumption of project container formation facility including chillier and cooling tower and CO2 emission factor for electricity consumed.
Monitoring parameters : Production output of lead acid battery at the container formation facility in the project factory per acid lead battery type; Capacity of lead acid battery; Electricity consumption by the container formation facility including chillier and cooling tower in the project factory.
Version Number Ver1.1
Status Valid
Methodology Proponent Hitachi Chemical Co., Ltd.
Approved Methodology
Proposed Methodology
AMR JCM_VN_PM021_AMR_Req.pdf
Date of approval 15 Aug 18

Previous Versions
Methodology No. VN_AM009
Proposed Methodology No. VN_PM011
Sectoral scope 3. Energy demand
Title Installation of Container Formation Facility at Lead Acid Battery Factory
Summaries GHG emission reduction measures : Installation of container formation facility at lead acid battery production line in place of tank formation facilities leads to reduction of electricity and fossil fuel consumption by the production line.
Calculation of reference emissions : Reference emissions from electricity consumption are calculated by multiplying electricity consumption of reference tank formation facilities and CO2 emission factor for electricity consumed. Electricity consumption of reference tank formation facilities is calculated with production output of lead acid battery and specific electricity consumption by the reference facilities. Reference emissions from fuel consumption are calculated by multiplying net heat quantity required for fuel consumption to produce lead acid battery by reference tank formation facilities and CO2 emission factor. Net heat quantity required for fuel consumption to produce lead acid battery by reference tank formation facilities is calculated with production output of lead acid battery and specific net heat quantity required for fuel consumption per lead acid battery by the reference facilities.
Calculation of project emissions : Project emissions are calculated by multiplying electricity consumption of project container formation facility including chillier and cooling tower and CO2 emission factor for electricity consumed.
Monitoring parameters : Production output of lead acid battery at the container formation facility in the project factory per acid lead battery type; Capacity of lead acid battery; Electricity consumption by the container formation facility including chillier and cooling tower in the project factory.
Version Number Ver1.0
Status Active
Methodology Proponent Hitachi Chemical Co., Ltd.
Approved Methodology
Proposed Methodology
Public inputs
  • 13 Jun 17   -  27 Jun 17
Date of approval 10 Oct 17