Search Proposal
Title | Issue | Proposal No. |
---|---|---|
Industrial Structure and Evaluation System towards Zero Carbon Society |
March 2023 |
LCS-FY2022-PP-08 |
Industrial Structure in 2030 and 2050 towards Zero Carbon Society |
April 2022 |
LCS-FY2021-PP-09 |
March 2020 |
LCS-FY2019-PP-14 | |
Population Analysis for Industrial Structure Study in Future Low Carbon Society |
March 2020 |
LCS-FY2019-PP-16 |
Evaluation of the Hydrogen Direct Reduction Method of Iron Ore |
May 2022 |
LCS-FY2021-PP-13 |
July 2021 |
LCS-FY2021-SR-01 | |
Toward Future Low-Carbon Society using Scrap Iron Recycling (Vol. 2) |
March 2019 |
LCS-FY2018-PP-18 |
March 2018 |
LCS-FY2017-PP-20 | |
March 2023 |
LCS-FY2022-PP-09 | |
March 2023 |
LCS-FY2022-PP-07 | |
May 2022 |
LCS-FY2021-PP-19 | |
May 2022 |
LCS-FY2021-PP-15 | |
June 2021 |
LCS-FY2020-PP-12 | |
March 2020 |
LCS-FY2019-PP-19 | |
March 2020 |
LCS-FY2019-PP-18 | |
January 2018 |
LCS-FY2017-PP-18 | |
March 2023 |
LCS-FY2022-SR-01 | |
March 2023 |
LCS-FY2022-PP-10 | |
February 2023 |
LCS-FY2022-PP-05 | |
February 2022 |
LCS-FY2021-PP-01 | |
February 2021 |
LCS-FY2020-PP-04 | |
February 2021 |
LCS-FY2020-PP-03 | |
March 2019 |
LCS-FY2018-PP-15 | |
December 2022 |
LCS-FY2022-PP-01 | |
March 2021 |
LCS-FY2020-PP-09 | |
Developments of Dynamic Energy-Economics Model towards Low Carbon Society of Japan |
March 2019 |
LCS-FY2018-PP-21 |
April 2022 |
LCS-FY2021-PP-07 | |
Study on Modeling for Medium-to Long-term CO2 Emissions Forecasting in the Residential Sector |
March 2018 |
LCS-FY2017-PP-19 |
Aspects of Decarbonized Society from a Forecast of Energy Demand in Japan (Vol. 2) |
March 2017 |
LCS-FY2016-PP-12 |
Aspects of Decarbonized Society from a Forecast of Energy Demand in Japan |
March 2016 |
LCS-FY2015-PP-16 |
Potential and Economic Outcomes of Deploying Currently Available Low Carbon Technologies |
March 2015 |
LCS-FY2014-PP-14 |
January 2023 |
LCS-FY2022-PP-03 | |
March 2022 |
LCS-FY2021-PP-05 | |
September 2021 |
LCS-FY2020-PP-17 | |
March 2020 |
LCS-FY2019-PP-21 | |
March 2019 |
LCS-FY2018-PP-19 | |
March 2018 |
LCS-FY2017-PP-14 | |
March 2017 |
LCS-FY2016-PP-10 | |
January 2018 |
LCS-FY2017-PP-06 | |
March 2017 |
LCS-FY2016-PP-13 | |
Prediction of Popularization of Fuel Cells Considering Limited Rationality of Consumers |
March 2017 |
LCS-FY2016-PP-14 |
A Review of PV Output Suppression in Japan under Modified Feed-in Tariff Scheme |
March 2017 |
LCS-FY2016-PP-18 |
Evaluation of the PV Project with Consideration of Output Suppression |
March 2016 |
LCS-FY2015-PP-12 |
Potential Regional PV System Installation with Consideration of Technology Development |
March 2015 |
LCS-FY2014-PP-13 |
Potential and Distribution of Photovoltaic Power Generation Considering the Efficient Land Use |
March 2022 |
LCS-FY2021-PP-03 |
December 2021 |
LCS-FY2020-PP-20 | |
March 2020 |
LCS-FY2019-PP-17 | |
March 2019 |
LCS-FY2018-PP-16 | |
March 2017 |
LCS-FY2016-PP-01 | |
March 2016 |
LCS-FY2015-PP-01 | |
March 2015 |
LCS-FY2014-PP-03 | |
May 2022 |
LCS-FY2021-PP-18 | |
September 2021 |
LCS-FY2020-PP-16 | |
March 2020 |
LCS-FY2019-PP-15 | |
Strategy for Hole-transport-material-free Perovskite Solar Cells Using Carbon-based Electrodes |
August 2018 |
LCS-FY2018-PP-01 |
March 2014 |
LCS-FY2013-PP-02 | |
March 2020 |
LCS-FY2019-PP-20 | |
January 2018 |
LCS-FY2017-PP-01 | |
Potential Capacity and Cost of Pumped-Storage Power in Japan (Vol. 4): Proposals for Climate Change |
March 2022 |
LCS-FY2021-PP-04 |
Potential Capacity and Cost of Pumped-Storage Power in Japan (Vol. 3) |
February 2021 |
LCS-FY2020-PP-01 |
Potential Capacity and Cost of Pumped-Storage Power in Japan (Vol. 2) |
February 2020 |
LCS-FY2019-PP-03 |
Potential Capacity and Cost of Pumped-Storage Power in Japan |
January 2019 |
LCS-FY2018-PP-08 |
March 2015 |
LCS-FY2014-PP-06 | |
March 2014 |
LCS-FY2013-PP-06 | |
Geothermal Power (Vol. 5): Proposal on Reduction of Induced Earthquakes by Hydraulic Fracturing |
December 2018 |
LCS-FY2018-PP-04 |
January 2018 |
LCS-FY2017-PP-05 | |
March 2017 |
LCS-FY2016-PP-04 | |
Geothermal Power (Vol. 2): Electricity Cost Estimation of Hot Dry Rock System |
March 2016 |
LCS-FY2015-PP-05 |
Geothermal Power (Vol. 1): Design and Estimation to increase Generation Power |
March 2015 |
LCS-FY2014-PP-07 |
February 2023 |
LCS-FY2022-PP-04 | |
March 2021 |
LCS-FY2020-PP-08 | |
March 2020 |
LCS-FY2019-PP-12 | |
January 2020 |
LCS-FY2019-PP-01 | |
February 2019 |
LCS-FY2018-PP-06 | |
January 2018 |
LCS-FY2017-PP-02 | |
March 2017 |
LCS-FY2016-PP-02 | |
March 2016 |
LCS-FY2015-PP-02 | |
March 2015 |
LCS-FY2014-PP-04 | |
Report on the Sophistication of Risk Assessment Methods for Large-Scale Energy Storage Systems |
April 2022 |
LCS-FY2021-PP-12 |
March 2021 |
LCS-FY2020-PP-07 | |
Sulfur/Carbon Composite Electrodes for Lithium-Sulfur Batteries |
January 2018 |
LCS-FY2017-PP-04 |
[Survey Report] Investigation of Degradation Behavior of Lithium-Ion Battery |
March 2020 |
LCS-FY2019-SR-01 |
March 2014 |
LCS-FY2013-PP-03 | |
SOFC Systems (Vol. 9): Techno-Economic Assessment of Hydrogen Energy Conversion/Storage Systems |
April 2022 |
LCS-FY2021-PP-11 |
February 2021 |
LCS-FY2020-PP-02 | |
SOFC Systems (Vol. 7): Technology and Cost Assessments of High-Temperature Steam Electrolysis |
February 2020 |
LCS-FY2019-PP-08 |
SOFC Systems (Vol. 6): Comprehensive Evaluation of Cell Designs and New-type Fuel Cells |
January 2019 |
LCS-FY2018-PP-05 |
New Role of Fuel Cells (SOFC and PEFC) for Hydrogen Production Technology: SOFC Systems (Vol. 5) |
January 2018 |
LCS-FY2017-PP-03 |
SOFC Systems (Vol. 4): Application of SOFCs to Steam Electrolysis and Technological Challenges |
March 2017 |
LCS-FY2016-PP-03 |
March 2016 |
LCS-FY2015-PP-03 | |
March 2015 |
LCS-FY2014-PP-05 | |
March 2016 |
LCS-FY2015-PP-04 | |
March 2014 |
LCS-FY2013-PP-04 | |
July 2021 |
LCS-FY2020-PP-14 | |
An Analysis on Utilizing SOFC to Provide Reserve Capability for Power Systems |
March 2020 |
LCS-FY2019-PP-11 |
Research on Introduction of Storage Facilities for Improving Operation of Local Power Companies |
March 2018 |
LCS-FY2017-PP-17 |
March 2017 |
LCS-FY2016-PP-15 | |
March 2017 |
LCS-FY2016-PP-16 | |
March 2016 |
LCS-FY2015-PP-10 | |
March 2016 |
LCS-FY2015-PP-17 | |
March 2016 |
LCS-FY2015-PP-18 | |
March 2016 |
LCS-FY2015-PP-19 | |
May 2022 |
LCS-FY2021-PP-14 | |
February 2020 |
LCS-FY2019-PP-05 | |
February 2019 |
LCS-FY2018-PP-14 | |
February 2018 |
LCS-FY2017-PP-11 | |
Technological Issues and Future Prospects of GaN and Related Semiconductor Devices |
March 2017 |
LCS-FY2016-PP-08 |
May 2022 |
LCS-FY2021-PP-17 | |
March 2021 |
LCS-FY2020-PP-11 | |
February 2020 |
LCS-FY2019-PP-09 | |
January 2019 |
LCS-FY2018-PP-07 | |
October 2021 |
LCS-FY2020-PP-18 | |
September 2021 |
LCS-FY2020-PP-15 | |
Turbine System driven by Direct Combustion of Rich Ammonia (Vol. 2): |
January 2020 |
LCS-FY2019-PP-02 |
December 2018 |
LCS-FY2018-PP-03 | |
February 2019 |
LCS-FY2018-PP-13 | |
Proposal of New NH3 Process for Small-scale Carbon-free NH3 Production Technology |
February 2019 |
LCS-FY2018-PP-12 |
February 2018 |
LCS-FY2017-PP-10 | |
February 2017 |
LCS-FY2016-PP-07 | |
Storage of Liquid Carbon Dioxide in Deep-sea Sediment Layer: Site Proposal in Japan |
March 2022 |
LCS-FY2021-PP-06 |
Cost Evaluation of Direct Air Capture (DAC) Process (Vol. 4): Moisture Swing Adsorption Method |
May 2022 |
LCS-FY2021-PP-10 |
March 2022 |
LCS-FY2021-PP-02 | |
Cost Evaluation of Direct Air Capture (DAC) Process (Vol. 2): Adsorption Method |
March 2021 |
LCS-FY2020-PP-06 |
Cost Evaluation of Direct Air Capture (DAC) Process of Carbon Dioxide |
February 2020 |
LCS-FY2019-PP-07 |
March 2017 |
LCS-FY2016-PP-06 | |
March 2016 |
LCS-FY2015-PP-08 | |
Sustainable Potential of Woody Biomass in Japan: Future Demand and Supply Potential of Woody Biomass |
March 2023 |
LCS-FY2022-PP-06 |
Life Cycle Evaluation of CO2 Emission Reduction of BECCS in the Coal-Biomass Co-Firing Power Plant |
May 2022 |
LCS-FY2021-PP-16 |
Trends and Plasticity of Agricultural Production in Japan Resulting from Global Warming |
April 2022 |
LCS-FY2021-PP-08 |
February 2021 |
LCS-FY2020-PP-05 | |
March 2020 |
LCS-FY2019-PP-10 | |
March 2016 |
LCS-FY2015-PP-07 | |
March 2015 |
LCS-FY2014-PP-08 | |
Methane Production from Biomass Wastes by Anaerobic Fermentation (First step)(638KB) |
March 2014 |
LCS-FY2013-PP-05 |
Fuel Oil from Algal Biomass: Evaluation on CO2 Emission and Economy |
March 2020 |
LCS-FY2019-PP-13 |
Production of Methanol and Liquid Fuels from Gasification of Biomass or Captured CO2 |
January 2018 |
LCS-FY2017-PP-09 |
February 2020 |
LCS-FY2019-PP-06 | |
February 2019 |
LCS-FY2018-PP-11 | |
Consideration and Distribution of Energy Potential of Wood Biomass in Japan |
January 2018 |
LCS-FY2017-PP-07 |
June 2021 |
LCS-FY2020-PP-13 | |
Utilization of Containerized Seedlings for the Cost Reduction of Afforestation |
January 2019 |
LCS-FY2018-PP-09 |
January 2018 |
LCS-FY2017-PP-08 | |
March 2017 |
LCS-FY2016-PP-05 | |
Cost Reduction of Woody Biomass Fuels: Cost Reduction Effect by Mechanization of Wood Production |
March 2016 |
LCS-FY2015-PP-06 |
March 2015 |
LCS-FY2014-PP-09 | |
January 2023 |
LCS-FY2022-PP-02 | |
October 2020 |
LCS-FY2020-PP-19 | |
February 2019 |
LCS-FY2018-PP-10 | |
January 2018 |
LCS-FY2017-PP-12 | |
March 2017 |
LCS-FY2016-PP-09 | |
March 2015 |
LCS-FY2014-PP-10 | |
March 2014 |
LCS-FY2013-PP-07 | |
March 2018 |
LCS-FY2017-PP-16 | |
March 2015 |
LCS-FY2014-PP-11 | |
Innovative Energy Technology Research & Development and ARPA-E |
February 2020 |
LCS-FY2019-PP-04 |
December 2018 |
LCS-FY2018-PP-02 | |
March 2018 |
LCS-FY2017-PP-15 | |
February 2018 |
LCS-FY2017-PP-22 | |
March 2017 |
LCS-FY2016-PP-21 | |
Development of an Indicator to Evaluate Social Welfare Moving toward Sustainable Society |
March 2016 |
LCS-FY2015-PP-14 |
March 2015 |
LCS-FY2014-PP-15 | |
April 2014 |
LCS-FY2014-PP-02 | |
Promoting Oversea Transfer of Technology for Climate Change Mitigation(980KB) |
November 2013 |
LCS-FY2013-PP-01 |
March 2017 |
LCS-FY2016-PP-11 | |
March 2016 |
LCS-FY2015-PP-15 | |
February 2014 |
LCS-FY2013-PP-08 | |
March 2017 |
LCS-FY2016-PP-17 | |
March 2016 |
LCS-FY2015-PP-11 | |
March 2014 |
LCS-FY2013-PP-09 | |
March 2021 |
LCS-FY2020-PP-10 | |
Evaluating CO2 Emissions Embodied in Consumption Activities in Tokyo |
March 2019 |
LCS-FY2018-PP-20 |
Possibility of Achieving Both Energy Saving and Good Health by Lifestyle Shift (Vol.2) |
January 2018 |
LCS-FY2017-PP-21 |
Possibility of Achieving Both Energy Saving and Good Health by Lifestyle Shift |
March 2017 |
LCS-FY2016-PP-19 |
March 2016 |
LCS-FY2015-PP-13 | |
Synthetic Materials Design: Fusion of 1D CAE and Data-utilized Materials Research |
February 2018 |
LCS-FY2017-PP-13 |
Materials Research with Data-Utilization toward Implementation of Low-Carbon Society (Vol. 2) |
March 2016 |
LCS-FY2015-PP-09 |
Materials Research with Data-Utilization toward Implementation of Low-Carbon Society |
March 2015 |
LCS-FY2014-PP-12 |
Change of Power Consumption after the Great East Japan Earthquake(639KB) |
April 2014 |
LCS-FY2014-PP-01 |
Scenarios for 2050 with Low Carbon Attributes Utilizing Scenario Planning Method |
March 2017 |
LCS-FY2016-PP-20 |
March 2019 |
LCS-FY2018-PP-17 | |
December 2016 |
LCS-FY2016-PP-00 | |
“Towards the Realization of Dynamic and Affluent Low Carbon Society”(2.42MB) |
June 2014 |
LCS-FY2014-PP-00 |
Comprehensive Strategies and Scenarios for the Realization of a Low Carbon Society(8.64MB) |
July 2012 |
LCS-FY2012-PP-00 |