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K. Tokimatsu1, H. Hondo2, Y. Ogawa,
K. Okano3, K. Yamaji and M. Katsurai
The University of Tokyo, School of Engineering, 2-11-16,
Yayoi, Bunyo-ku, Tokoy, Japan 113
1 Present Affiliation: RITE (Research Institute of Innovative
Technologies for the Eartch), Nishi-shimbashi, Minato-ku, Tokyo, 105-0003,
Japan
2 CRIEPI (Centeral Research Institute of Electric Power Industry),
Socio-economic Research Center, 1-6-1, Ohtemachi, Chiyoda-ku, Tokyo,
Japan 100
3 CRIEPI (Centeral Research Institute of Electric Power Industry),
Komae Research Laboratory, 2-11-1, Iwadokita, Komae-city, Tokyo, Japan 201
Abstract. Global warming problem is one of the most serious problems which human beings are currently face. Carbon Dioxide ( CO2) from power plants is considered one of the major causes of the global warming. In this study, CO2 emission from Tokamak fusion power plants are compared with those from conventional present power generation technologies. Plasma parameters are calculated by a systems code couples the ITER physics, TF coil shape, and cost calculation. CO2 emission from construction and operation is evaluated from summing up component volume times CO2 emission intensities of the composing materials. The uncountable components on such as reactor builing, balance of plants, etc. are scaled from the ITER referenced power reactor (ITER-like) by use of the Generomak model. Two important findings are revealed. Most important finding is that CO2 emissions from fusion reactors are less than from PV, and less then double of that from fission reactor. The other finding are that
IAEA 2001
