Name	Takahashi, Masahito
Current Position	Senior Research Scientist ENIC Division Grid Innovation Research Laboratory Socio-Economic Research Center
Research Interests	Energy system analysis for technology assessment, Energy demand analysis, Demand response, Power generation mix model
e-mail	m-taka(at)criepi.denken.or.jp    *'(at)'should be replaced by @
Degree	2017 Dr.Eng., Department of Electrical Engineering and Information Systems, University of Tokyo

◆Education and Professional Experience

Present	Senior Research Scientist, Energy Innovation Center and Socio-economic Research Center (dual), CRIEPI
2017	Doctor of Engineering, Department of Electrical Engineering and Information Systems, University of Tokyo, Tokyo, Japan
1995	Joined in Socio-economic Research Center, CRIEPI
1994	Master of Science in Physics, University of Tokyo, Tokyo, Japan
1992	Bachelor of Science in Physics, Tohoku University, Sendai, Japan

◆SELECTED PUBLICATIONS

●CRIEPI RESEARCH REPORT

To download the CRIEPI RESEARCH REPORT, available at : (https://criepi.denken.or.jp/hokokusho/pb/reportSearch)

Main Author:

• Use Case Analysis of Utilization of Residential PV-Generated Electricity after Feed-in Tariff Payment Period- Advantage of PV self-consumption by heat pump water heater and daytime heat storage -, C19001, 2019
• Development of Optimal Power Generation and Flexibility Resource Planning Model for Power Systems with Large-scale Renewable Integration Considering Battery Energy Storage and Demand Response, C16002, 2017.
• Potential Estimation of Reserve-type DR Resources in Japanese Industrial Sector, Y15013, 2016.
• A Study on Possibility of Fast Demand Response Mitigating Grid Balancing Challenges in Japanese Power System with Large-scale Renewable Energy Integration, Y13030, 2014.
• Study on Appliance Choice Model Using Actual Sales Data -The Case of Japanese Refrigerator Market in FY2008-2009-, Y10022, 2011.
• An Analysis of Long-term CO2 Emission Reduction Potential and Final Energy Demand Structure in the Japanese Commercial Building Sector by a Bottom-up End-use Energy Demand Model, Y07039, 2008.
• DEVELOPMENT OF INTEGRATED RESOURCE PLANNING MODEL AND ITS APPLICATION TO PENETRATION PROGRAM OF THERMAL STORAGE AIR-CONDITIONING SYSTEM, Y97021, 1998.

Co-Author:

• Estimation of Power Generating Cost Reduction by Introduction o Demand Response Program in Japan, Y10021, 2011.
• Impacts of Large-scale Penetration of Cogeneration Systems and Heat Pump Water Heaters through Generation Mix on CO2 Emission in Japan, Y05014, 2006.

●ACADEMIC PAPERS

• Takahashi, M., Matsuhashi, R., A Cost Reduction Analysis of Introduction of Battery Energy Storage and Controllable Heat Pump Water Heaters by Operation Planning Model of Power Generation System Considering the Uncertainty in Renewable Power Generation, IEEJ Transactions on Power and Energy, Vol.137 (2017), No.12 pp.756765
• Takahashi,M., Kaneda,A., Bando,S., A Potential Analysis of Reserve-type Demand Response in Japanese Industrial and Commercial Sectors,Journal of Japan Society of Energy and Resources, Vol. 37, No. 5, (2016)
• Takahashi,M., Ueno,T., Bando,S.,Kurosaki,A., Koyanagi,T., Noma,T., Field Experiment of Demand Responsive Load Control in Office Buildings in Summer and Winter: Analysis of Load Reduction Impact and Customers' Acceptance,IEEJ Transactions on Power and Energy, Vol. 134 (2014) No. 8 P 702-715
• Takahashi,M., Asano, An Assessment Study of Energy Efficiency Policy Measures for Japanese Commercial Sector, IAEE, Energy Journal, Volume 32, Special issue, (2011)
• Takahashi,M., Asano,H.,Analysis of long-term profitability and DSM needs in a partially liberalized retail market by generation system expansion model,IEEJ Transactions on Power and Energy, Vol. 122 (2002) No. 2 P 207-215
• Takahashi,M., Asano,H., Nagata,Y., Market Penetration and Cost-Effectiveness Analysis of Thermal Storage System Using Integrated Resource Planning Model with Endogenized Technological Learning, The IEEJ Transactions on Power and Energy, Vol.119, No.2, pp.268-275,(1999)

●PRESENTATIONS

• Takahashi,M.,Omine,E.,Goto,H.,Takagi,M.,Hatta,H.,Bando,S.,Nayuki,T.,Asano,H.,Ikeya,T.(CRIEPI),Suzuki,N.,Furuta,A.,Nakazawa,M.(Kyushu Electric Power Co.), Kyushu V2G Demonstration Project (Evaluation of the charge-discharge potential of EVs in Kyushu area in 2030), IEEJ Annual conference of Power & Energy Society, September 2019
• Takahashi,M., Matsuhashi,R., Modeling the Economics of Flexible Resource Capability in Power Systems with Large-scale Renewable Integration, IEEE PES ISGT Asia 2016, November 2016