The color-coded countries in the map below show ENPEP applications in Asia. Please keep in mind that these are the applications/studies that we are aware of at present. If you are an active ENPEP user and would like your country or analysis featured on this page, please contact CEEESA.
| Country |
Users |
Project |
Brief Description |
Bangladesh |
Atomic Energy Commission |
Capacity Building in Methodologies and Tools for GHG Abatement Studies |
CEEESA assisted Bangladesh's Atomic Energy Commission in using the ENPEP-BALANCE model to analyze that country's future electricity and energy needs and to estimate the associated GHG emissions. The team also analyzed several mitigation strategies. The project was supported by the U.S. Government and the IAEA. |
China |
Institute of Nuclear Industry Economics; Energy Research Institute |
Capacity Building in Methodologies and Tools for GHG Abatement Studies |
CEEESA assisted China's Institute of Nuclear Industry Economics and the Energy Research Institute in using the ENPEP-BALANCE model to analyze that country's future electricity and energy needs and to estimate the associated GHG emissions. The team also analyzed several mitigation strategies. The project was supported by the U.S. Government and the IAEA. |
India |
Department of Atomic Energy; Nuclear Power Corporation |
Capacity Building in Methodologies and Tools for GHG Abatement Studies |
CEEESA assisted India's Department of Atomic Energy and the Nuclear Power Corporation in using the ENPEP-BALANCE model to analyze that country's future electricity and energy needs and to estimate the associated GHG emissions. The team also analyzed several mitigation strategies. The project was supported by the U.S. Government and the IAEA. |
Indonesia |
BATAN |
Capacity Building in Energy and Power Systems Analysis in Indonesia |
CEEESA assisted Indonesia's National Nuclear Energy Agency (BATAN) in using the MAED, WASP,
and ENPEP-BALANCE to analyze Indonesia's future electricity and energy needs and to estimate the associated environmental burdens in form of PM, SO2, NOX, and CO2 emissions. Different pollution control strategies were also analyzed. The project was supported by the U.S. Government and the IAEA. |
Indonesia |
BATAN |
Capacity Building in Methodologies and Tools for GHG Abatement Studies |
CEEESA assisted Indonesia's National Nuclear Energy Agency (BATAN) in using the ENPEP-BALANCE model to analyze that country's future electricity and energy needs and to estimate the associated GHG emissions. The team also analyzed several mitigation strategies. The project was supported by the U.S. Government and the IAEA. |
Kazakhstan |
KazNIIMOSK |
Kazakhstan GHG Mitigation Assessment |
The Kazakh Institute of Climate and Environment Monitoring (KazNIIMOSK) used ENPEP-BALANCE in this GHG mitigation analysis. |
Kazakhstan |
KazNIIMOSK |
Kazakhstan UNFCCC 1. National Communication |
The Kazakh Institute of Climate and Environment Monitoring (KazNIIMOSK) used ENPEP-BALANCE to conduct the GHG mitigation analyses that are presented in Kazakhstan's First National Communication to the UNFCCC. |
Kazakhstan |
KazNIIMOSK |
Support for National Action Plan (SNAP) for the Republic of Kazakhstan |
The Kazakh Institute of Climate and Environment Monitoring (KazNIIMOSK) used ENPEP-BALANCE to conduct the GHG mitigation analyses that are presented in this report. |
Kazakhstan |
KazNIIMOSK |
Status of the GHG Emissions Projections Studies in Kazakhstan for a Possible Participation in the Kyoto Flexible Mechanisms |
The report presents updated projections for Kazakhstan's GHG emissions. Based on new macroeconomic forecasts, three reference scenarios of GHG emissions projections were modeled using ENPEP-BALANCE. According to the Reference Scenario, the 1990 emissions level could be reached again by 2012, 2016, or after 2020, respectively. A mitigation analysis was conducted for various mitigation options. Options include energy efficiency improvements, switching from coal to natural gas, change in fuel price taxation, expanded use of renewable energy (small hydro, wind, and solar), as well as reforestation. Energy efficiency is found to have the largest potential; it is estimated that it can reduce CO2 emissions by 46 million tons per year. |
Kazakhstan |
KazNIIMOSK, KEGOC |
Infrastructure Development and Nuclear Competitiveness |
The study by the Kazakh Institute of Climate and Environment Monitoring (KazNIIMOSK) and the Kazakh Electricity Grid Operating Company (KEGOC) is aimed at improving understanding of infrastructure requirements for various energy supply chains and their impact on economic competitiveness. A research team from Kazakhstan used the ENPEP-BALANCE model to analyze their country’s energy system over a 30-year planning horizon. The team defined a Reference Scenario and up to ten variations reflecting alternative government policies, energy technology costs, and energy demand trajectories. The objective was to determine competitive advantages and disadvantages of nuclear power as a function of infrastructure investments. |
Korea, Republic of |
KAERI, KPX |
Capacity Building in Methodologies and Tools for GHG Abatement Studies |
CEEESA assisted Korea's Atomic Energy Research Institute (KAERI) and the Korean Power Exchange (KPX) in using the ENPEP-BALANCE model to analyze that country's future electricity and energy needs and to estimate the associated GHG emissions. The team also analyzed several mitigation strategies. The project was supported by the U.S. Government and the IAEA. |
Korea, Republic of |
Government of Korea |
Korea UNFCCC 1. National Communication |
A Korean team of experts used the WASP model to conduct the GHG mitigation analyses that are presented in Korea's First National Communication to the UNFCCC. |
Malaysia |
PTM; SESB; Malaysia Energy Center |
Capacity Building in Methodologies and Tools for GHG Abatement Studies |
CEEESA assisted Malaysia's Pusat Tenaga Malaysia (PTM), Sabah Electricity Sdn. Bhd. (SESB), and the Malaysia Energy Center in using the ENPEP-BALANCE model to analyze that country's future electricity and energy needs and to estimate the associated GHG emissions. The team also analyzed several mitigation strategies. The project was supported by the U.S. Government and the IAEA. |
Mongolia |
Energy Authority; Science, Technology & Manufacturing "Energy" Corporation |
Capacity Building in Methodologies and Tools for GHG Abatement Studies |
CEEESA assisted Mongolia's Energy Authority and the Science, Technology & Manufacturing "Energy" Corporation in using the ENPEP-BALANCE model to analyze that country's future electricity and energy needs and to estimate the associated GHG emissions. The team also analyzed several mitigation strategies. The project was supported by the U.S. Government and the IAEA. |
Myanmar |
Department of Atomic Energy |
Capacity Building in Methodologies and Tools for GHG Abatement Studies |
CEEESA assisted Myanmar's Department of Atomic Energy in using the ENPEP-BALANCE model to analyze that country's future electricity and energy needs and to estimate the associated GHG emissions. The team also analyzed several mitigation strategies. The project was supported by the U.S. Government and the IAEA. |
Nepal |
CEEESA |
Power Systems Expansion Analysis for Nepal |
Sponsored by the World Bank, CEEESA staff analyzed the Nepalese power system and investigated several system expansion options, including small thermal and various-sized hydropower plants. |
Pakistan |
Atomic Energy Commission |
Infrastructure Development and Nuclear Competitiveness |
The study is aimed at improving understanding of infrastructure requirements for various energy supply chains and their impact on economic competitiveness. A Pakistani research team used the MAED,
ENPEP-BALANCE, and WASP models to model their country’s energy systems over a 30-year planning horizon. The team defined a Reference Scenario and up to ten variations reflecting alternative government policies, energy technology costs, and energy demand trajectories. The objective was to determine competitive advantages and disadvantages of nuclear power as a function of infrastructure investments. |
Pakistan |
Atomic Energy Commission |
Capacity Building in Methodologies and Tools for GHG Abatement Studies |
CEEESA assisted Pakistan's Atomic Energy Commission in using the ENPEP-BALANCE model to analyze that country's future electricity and energy needs and to estimate the associated GHG emissions. The team also analyzed several mitigation strategies. The project was supported by the U.S. Government and the IAEA. |
Pakistan |
Atomic Energy Commission |
Energy and Nuclear Power Planning Study for Pakistan (covering the Period 1993-2023) |
A team of experts from the Pakistan Atomic Energy Commission used several models in this energy analysis. The study was sponsored by the International Atomic Energy Agency (IAEA). The report demonstrates how the IAEA's integrated set of energy planning tools can be utilized for comprehensive national analyses involving the use of: (i) MAED for analysis of energy demand, (ii)
ENPEP-BALANCE for investigation into the market-based allocation of energy resources to power and nonpower sectors, (iii) WASP for formulation of least-cost power capacity expansion plans, (iv) IMPACTS for assessment of environmental impacts associated with different electricity system expansion strategies, and (v) FINPLAN for financial analysis of the envisioned nuclear power development plan. |
Philippines |
PDOE, PASASA |
Capacity Building in Methodologies and Tools for GHG Abatement Studies |
CEEESA assisted the Philippine Department of Energy (PDOE), and the Philippine Atmospheric, Geophysical, and Astronomical Services Administration (PAGASA) at the Department of Science and Technology in using the ENPEP-BALANCE model to analyze that country's future electricity and energy needs and to estimate the associated GHG emissions. The team also analyzed several mitigation strategies. The project was supported by the U.S. Government and the IAEA. |
Sri Lanka |
Ceylon Electricity Board |
Capacity Building in Methodologies and Tools for GHG Abatement Studies |
CEEESA assisted Sri Lanka's Ceylon Electricity Board in using the ENPEP-BALANCE model to analyze that country's future electricity and energy needs and to estimate the associated GHG emissions. The team also analyzed several mitigation strategies. The project was supported by the U.S. Government and the IAEA. |
Thailand |
EGAT |
Capacity Building in Methodologies and Tools for GHG Abatement Studies |
CEEESA assisted the Electricity Generating Authority of Thailand (EGAT) in using the ENPEP-BALANCE model to analyze that country's future electricity and energy needs and to estimate the associated GHG emissions. The team also analyzed several mitigation strategies. The project was supported by the U.S. Government and the IAEA. |
Thailand |
Thai Institute of Technology |
Power Sector Expansion Analysis for Thailand |
Thai analysts used the WASP model to determine the least-cost power generation expansion schedule. The analysis also looked at the impacts of energy conservation, carbon taxes, and nuclear power. |
Vietnam |
VAEC, INST, IMH
|
Capacity Building in Methodologies and Tools for GHG Abatement Studies |
CEEESA assisted Vietnam's Atomic Energy Commission (VAEC), the Institute of Nuclear and Science Technique (INST), and the Institute of Hydrology and Meteorology (IMH) in using the ENPEP-BALANCE model to analyze that country's future electricity and energy needs and to estimate the associated GHG emissions. The team also analyzed several mitigation strategies. The project was supported by the U.S. Government and the IAEA. |
Vietnam |
VAEC, INST
|
Capacity Building in Energy and Power Systems Analysis in Vietnam
|
CEEESA assisted Vietnam's Atomic Energy Commission (VAEC) and the Institute of Nuclear and Science Technique (INST) in using the WASP model to analyze Vietnam's future electricity and energy needs and to estimate the associated environmental burdens in the form of PM, SO2, NOX, and CO2 emissions. Different pollution control strategies were also analyzed. The project was supported by the U.S. Government and the IAEA. |
