Abstract
This report summarizes the fiscal 1980 research result on removal process and equipment of H{sub 2}S from condensate and waste gas of turbine inlet steam and turbine outlet condensers of geothermal power plants. In the research on continuous measurement method of H{sub 2}S in geothermal steam, the continuous measurement equipment was completed by improving the heat conduction type steam qualitative dilution equipment developed in last year. The test result of this equipment in Onikobe geothermal power plant gave interesting data showing cyclic fluctuation of H{sub 2}S concentration. In the research on treatment of turbine inlet steam, both physical and chemical treatments were unpractical because of their very expensive costs. In the research on treatment of turbine outlet fluid by selecting RET method for waste gas and diffusion method for condensate, the field test result by using real fluid in geothermal power plants made it possible to select the optimum process according to conditions of turbine outlet fluid, and to estimate removal costs of H{sub 2}S precisely. (NEDO)
Citation Formats
None.
Fiscal 1980 Sunshine Project research report. Removal technology of H{sub 2}S; 1980 nendo ryuka suiso jokyo gijutsu no kaihatsu seika hokokusho.
Japan: N. p.,
1981.
Web.
None.
Fiscal 1980 Sunshine Project research report. Removal technology of H{sub 2}S; 1980 nendo ryuka suiso jokyo gijutsu no kaihatsu seika hokokusho.
Japan.
None.
1981.
"Fiscal 1980 Sunshine Project research report. Removal technology of H{sub 2}S; 1980 nendo ryuka suiso jokyo gijutsu no kaihatsu seika hokokusho."
Japan.
@misc{etde_20102650,
title = {Fiscal 1980 Sunshine Project research report. Removal technology of H{sub 2}S; 1980 nendo ryuka suiso jokyo gijutsu no kaihatsu seika hokokusho}
author = {None}
abstractNote = {This report summarizes the fiscal 1980 research result on removal process and equipment of H{sub 2}S from condensate and waste gas of turbine inlet steam and turbine outlet condensers of geothermal power plants. In the research on continuous measurement method of H{sub 2}S in geothermal steam, the continuous measurement equipment was completed by improving the heat conduction type steam qualitative dilution equipment developed in last year. The test result of this equipment in Onikobe geothermal power plant gave interesting data showing cyclic fluctuation of H{sub 2}S concentration. In the research on treatment of turbine inlet steam, both physical and chemical treatments were unpractical because of their very expensive costs. In the research on treatment of turbine outlet fluid by selecting RET method for waste gas and diffusion method for condensate, the field test result by using real fluid in geothermal power plants made it possible to select the optimum process according to conditions of turbine outlet fluid, and to estimate removal costs of H{sub 2}S precisely. (NEDO)}
place = {Japan}
year = {1981}
month = {Mar}
}
title = {Fiscal 1980 Sunshine Project research report. Removal technology of H{sub 2}S; 1980 nendo ryuka suiso jokyo gijutsu no kaihatsu seika hokokusho}
author = {None}
abstractNote = {This report summarizes the fiscal 1980 research result on removal process and equipment of H{sub 2}S from condensate and waste gas of turbine inlet steam and turbine outlet condensers of geothermal power plants. In the research on continuous measurement method of H{sub 2}S in geothermal steam, the continuous measurement equipment was completed by improving the heat conduction type steam qualitative dilution equipment developed in last year. The test result of this equipment in Onikobe geothermal power plant gave interesting data showing cyclic fluctuation of H{sub 2}S concentration. In the research on treatment of turbine inlet steam, both physical and chemical treatments were unpractical because of their very expensive costs. In the research on treatment of turbine outlet fluid by selecting RET method for waste gas and diffusion method for condensate, the field test result by using real fluid in geothermal power plants made it possible to select the optimum process according to conditions of turbine outlet fluid, and to estimate removal costs of H{sub 2}S precisely. (NEDO)}
place = {Japan}
year = {1981}
month = {Mar}
}