Abstract
In fiscal 1996, the initial cooling test and rotary excitation test were conducted for the 70,000kW slow-response type model machine, with the basic characteristics of the rotor verified such as the cooling characteristics, shaft vibration characteristics, mechanical strength, and superconductivity stability, and with the results of the studies explained. The rotor of the 70,000kW slow-response type model was installed in the test site, and the field test was carried out in 1997. For this purpose, research test was performed by the element technology of the model machine and the partial model. The technological development items, trial manufacture and test items were field winding, multi cylindrical rotor and damper. Upon the test results using the element and partial model, the design and manufacturing were implemented of the superconducting generator of a slow-response type excitation method with the output of 70,000kW class. Performed were the basic characteristic test, long-term operation test and severity test on the assumption of abnormality, verifying the characteristics and reliability of the generator as well as obtaining data concerning an excessive electromagnetic force and heat generation. From the test data and the analysis/evaluation results obtained on the model machine, the 200,000kW class pilot machine was reviewed in the
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Citation Formats
None.
Report on results for fiscal 1996 on development of superconducting electric power application technology. Pt. 2. R and D of superconducting wire, R and D of superconducting generator, studies on total system, R and D of refrigeration system, and verification test; 1996 nendo chodendo denryoku oyo gijutsu kaihatsu seika hokokusho. 2. Chodendo senzai no kenkyu kaihatsu, chodendo hatsudenki no kenkyu kaihatsu, total system no kenkyu, reito system no kenkyu kaihatsu, jissho shiken.
Japan: N. p.,
1997.
Web.
None.
Report on results for fiscal 1996 on development of superconducting electric power application technology. Pt. 2. R and D of superconducting wire, R and D of superconducting generator, studies on total system, R and D of refrigeration system, and verification test; 1996 nendo chodendo denryoku oyo gijutsu kaihatsu seika hokokusho. 2. Chodendo senzai no kenkyu kaihatsu, chodendo hatsudenki no kenkyu kaihatsu, total system no kenkyu, reito system no kenkyu kaihatsu, jissho shiken.
Japan.
None.
1997.
"Report on results for fiscal 1996 on development of superconducting electric power application technology. Pt. 2. R and D of superconducting wire, R and D of superconducting generator, studies on total system, R and D of refrigeration system, and verification test; 1996 nendo chodendo denryoku oyo gijutsu kaihatsu seika hokokusho. 2. Chodendo senzai no kenkyu kaihatsu, chodendo hatsudenki no kenkyu kaihatsu, total system no kenkyu, reito system no kenkyu kaihatsu, jissho shiken."
Japan.
@misc{etde_20079488,
title = {Report on results for fiscal 1996 on development of superconducting electric power application technology. Pt. 2. R and D of superconducting wire, R and D of superconducting generator, studies on total system, R and D of refrigeration system, and verification test; 1996 nendo chodendo denryoku oyo gijutsu kaihatsu seika hokokusho. 2. Chodendo senzai no kenkyu kaihatsu, chodendo hatsudenki no kenkyu kaihatsu, total system no kenkyu, reito system no kenkyu kaihatsu, jissho shiken}
author = {None}
abstractNote = {In fiscal 1996, the initial cooling test and rotary excitation test were conducted for the 70,000kW slow-response type model machine, with the basic characteristics of the rotor verified such as the cooling characteristics, shaft vibration characteristics, mechanical strength, and superconductivity stability, and with the results of the studies explained. The rotor of the 70,000kW slow-response type model was installed in the test site, and the field test was carried out in 1997. For this purpose, research test was performed by the element technology of the model machine and the partial model. The technological development items, trial manufacture and test items were field winding, multi cylindrical rotor and damper. Upon the test results using the element and partial model, the design and manufacturing were implemented of the superconducting generator of a slow-response type excitation method with the output of 70,000kW class. Performed were the basic characteristic test, long-term operation test and severity test on the assumption of abnormality, verifying the characteristics and reliability of the generator as well as obtaining data concerning an excessive electromagnetic force and heat generation. From the test data and the analysis/evaluation results obtained on the model machine, the 200,000kW class pilot machine was reviewed in the conceptual design. (NEDO)}
place = {Japan}
year = {1997}
month = {Dec}
}
title = {Report on results for fiscal 1996 on development of superconducting electric power application technology. Pt. 2. R and D of superconducting wire, R and D of superconducting generator, studies on total system, R and D of refrigeration system, and verification test; 1996 nendo chodendo denryoku oyo gijutsu kaihatsu seika hokokusho. 2. Chodendo senzai no kenkyu kaihatsu, chodendo hatsudenki no kenkyu kaihatsu, total system no kenkyu, reito system no kenkyu kaihatsu, jissho shiken}
author = {None}
abstractNote = {In fiscal 1996, the initial cooling test and rotary excitation test were conducted for the 70,000kW slow-response type model machine, with the basic characteristics of the rotor verified such as the cooling characteristics, shaft vibration characteristics, mechanical strength, and superconductivity stability, and with the results of the studies explained. The rotor of the 70,000kW slow-response type model was installed in the test site, and the field test was carried out in 1997. For this purpose, research test was performed by the element technology of the model machine and the partial model. The technological development items, trial manufacture and test items were field winding, multi cylindrical rotor and damper. Upon the test results using the element and partial model, the design and manufacturing were implemented of the superconducting generator of a slow-response type excitation method with the output of 70,000kW class. Performed were the basic characteristic test, long-term operation test and severity test on the assumption of abnormality, verifying the characteristics and reliability of the generator as well as obtaining data concerning an excessive electromagnetic force and heat generation. From the test data and the analysis/evaluation results obtained on the model machine, the 200,000kW class pilot machine was reviewed in the conceptual design. (NEDO)}
place = {Japan}
year = {1997}
month = {Dec}
}