Masashi Tutsumi scite author profile

Masashi Tutsumi

3Publications

8Citation Statements Received

24Citation Statements Given

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Tokyo Institute of Technology

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Effect of Nozzle Load Resistance and Stagnation Gas Pressure on Performance of Disk MHD Generator with Small Area Ratio

et al. 2000

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SUMMARYAn experimental study on performance of a disk MHD generator was carried out using a shock-tube driven facility. Effects of nozzle load resistance and stagnation gas pressure on the enthalpy extraction, the total pressure ratio, and the adiabatic efficiency were investigated for a disk MHD generator with a small area ratio. The enthalpy extraction and the adiabatic efficiency were found to be affected by the nozzle load resistance. The results suggest that the nozzle load resistance should be kept high for high performance of the disk MHD generator with small area ratio. Furthermore, an increase of stagnation pressure resulted in a slight increase of enthalpy extraction. However, the increase of stagnation pressure led to a remarkable increase of adiabatic efficiency. The increase of the adiabatic efficiency was due to an increase of the total pressure ratio. The effects of the electrical efficiency, the Mach number, and loss parameters for heat and friction on the total pressure ratio are discussed. The discussion suggests that the increase of total pressure ratio is due to a relative decrease of pressure loss due to wall friction. In addition, the highest adiabatic efficiency for cesium-seeded argon was achieved in the present experiment without the introduction of inlet swirl. © 2001 Scripta Technica, Electr Eng Jpn, 137(3): 3746, 2001

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The effect of nozzle load resistance and stagnation gas pressure on the performance of a disk MHD generator with small area ratio

Masuda¹,

Torii²,

Tutsumi³

et al. 2001

Elect. Eng. Jpn.

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An experimental study on performance of a disk MHD generator was carried out using a shock-tube driven facility. Effects of nozzle load resistance and stagnation gas pressure on the enthalpy extraction, the total pressure ratio, and the adiabatic efficiency were investigated for a disk MHD generator with a small area ratio. The enthalpy extraction and the adiabatic efficiency were found to be affected by the nozzle load resistance. The results suggest that the nozzle load resistance should be kept high for high performance of the disk MHD generator with small area ratio. Furthermore, an increase of stagnation pressure resulted in a slight increase of enthalpy extraction. However, the increase of stagnation pressure led to a remarkable increase of adiabatic efficiency. The increase of the adiabatic efficiency was due to an increase of the total pressure ratio. The effects of the electrical efficiency, the Mach number, and loss parameters for heat and friction on the total pressure ratio are discussed. The discussion suggests that the increase of total pressure ratio is due to a relative decrease of pressure loss due to wall friction. In addition, the highest adiabatic efficiency for cesium-seeded argon was achieved in the present experiment without the introduction of inlet swirl. © 2001 Scripta Technica, Electr Eng Jpn, 137(3): 3746, 2001

show abstract

The effect of nozzle load resistance and stagnation gas pressure on the performance of a disk MHD generator with small area ratio

Masuda

Torii

Tutsumi

et al. 2001

Electrical Engineering Japan

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An experimental study on performance of a disk MHD generator was carried out using a shock‐tube driven facility. Effects of nozzle load resistance and stagnation gas pressure on the enthalpy extraction, the total pressure ratio, and the adiabatic efficiency were investigated for a disk MHD generator with a small area ratio. The enthalpy extraction and the adiabatic efficiency were found to be affected by the nozzle load resistance. The results suggest that the nozzle load resistance should be kept high for high performance of the disk MHD generator with small area ratio. Furthermore, an increase of stagnation pressure resulted in a slight increase of enthalpy extraction. However, the increase of stagnation pressure led to a remarkable increase of adiabatic efficiency. The increase of the adiabatic efficiency was due to an increase of the total pressure ratio. The effects of the electrical efficiency, the Mach number, and loss parameters for heat and friction on the total pressure ratio are discussed. The discussion suggests that the increase of total pressure ratio is due to a relative decrease of pressure loss due to wall friction. In addition, the highest adiabatic efficiency for cesium‐seeded argon was achieved in the present experiment without the introduction of inlet swirl. © 2001 Scripta Technica, Electr Eng Jpn, 137(3): 37–46, 2001

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Masashi Tutsumi

Effect of Nozzle Load Resistance and Stagnation Gas Pressure on Performance of Disk MHD Generator with Small Area Ratio

The effect of nozzle load resistance and stagnation gas pressure on the performance of a disk MHD generator with small area ratio

The effect of nozzle load resistance and stagnation gas pressure on the performance of a disk MHD generator with small area ratio

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