Abstract
With an objective to develop geothermal resources, research and development has been performed on the production technologies for the deep-seated geothermal resources, such as pressure, temperature, flow speed and density (PTSD) logging technologies. This paper summarizes the achievements in fiscal 1999. In the actual well test on the developed D-probe, it was verified that the probe operates normally under high temperature environment (342 degrees C) which exceeds the measurement limit of conductive cables (315 degrees C). In developing the PTC monitoring technology, the downhole sampler was improved, and a test was performed in the actual hole in the Hijiori area in Yamagata Prefecture. As a result, collection of hot water of about 900 mL has become possible. In developing the high-temperature tracer monitoring technology, simulation was performed keeping in mind charging the tracer into the Hijiori geothermal area, whereas specifications for charging and collecting the tracer were determined. In developing the scale monitoring technology, experiments were carried out on the fluid systems under deep geothermal conditions by using scale forming devices, by which it was indicated that silica is the important scale constituent. (NEDO)
Citation Formats
None.
Development of hot water utilizing power plants in fiscal 1999. Development of technology to collect geothermal resources in great depths (Development of technology to produce geothermal resources in great depths); 1999 nendo nessui riyo hatsuden plant nado kaihatsu seika hokokusho. Shinbu chinetsu shigen saishu gijutsu no kaihatsu / shinbu chinetsu shigen seisan gijutsu no kaihatsu.
Japan: N. p.,
2000.
Web.
None.
Development of hot water utilizing power plants in fiscal 1999. Development of technology to collect geothermal resources in great depths (Development of technology to produce geothermal resources in great depths); 1999 nendo nessui riyo hatsuden plant nado kaihatsu seika hokokusho. Shinbu chinetsu shigen saishu gijutsu no kaihatsu / shinbu chinetsu shigen seisan gijutsu no kaihatsu.
Japan.
None.
2000.
"Development of hot water utilizing power plants in fiscal 1999. Development of technology to collect geothermal resources in great depths (Development of technology to produce geothermal resources in great depths); 1999 nendo nessui riyo hatsuden plant nado kaihatsu seika hokokusho. Shinbu chinetsu shigen saishu gijutsu no kaihatsu / shinbu chinetsu shigen seisan gijutsu no kaihatsu."
Japan.
@misc{etde_20175392,
title = {Development of hot water utilizing power plants in fiscal 1999. Development of technology to collect geothermal resources in great depths (Development of technology to produce geothermal resources in great depths); 1999 nendo nessui riyo hatsuden plant nado kaihatsu seika hokokusho. Shinbu chinetsu shigen saishu gijutsu no kaihatsu / shinbu chinetsu shigen seisan gijutsu no kaihatsu}
author = {None}
abstractNote = {With an objective to develop geothermal resources, research and development has been performed on the production technologies for the deep-seated geothermal resources, such as pressure, temperature, flow speed and density (PTSD) logging technologies. This paper summarizes the achievements in fiscal 1999. In the actual well test on the developed D-probe, it was verified that the probe operates normally under high temperature environment (342 degrees C) which exceeds the measurement limit of conductive cables (315 degrees C). In developing the PTC monitoring technology, the downhole sampler was improved, and a test was performed in the actual hole in the Hijiori area in Yamagata Prefecture. As a result, collection of hot water of about 900 mL has become possible. In developing the high-temperature tracer monitoring technology, simulation was performed keeping in mind charging the tracer into the Hijiori geothermal area, whereas specifications for charging and collecting the tracer were determined. In developing the scale monitoring technology, experiments were carried out on the fluid systems under deep geothermal conditions by using scale forming devices, by which it was indicated that silica is the important scale constituent. (NEDO)}
place = {Japan}
year = {2000}
month = {Mar}
}
title = {Development of hot water utilizing power plants in fiscal 1999. Development of technology to collect geothermal resources in great depths (Development of technology to produce geothermal resources in great depths); 1999 nendo nessui riyo hatsuden plant nado kaihatsu seika hokokusho. Shinbu chinetsu shigen saishu gijutsu no kaihatsu / shinbu chinetsu shigen seisan gijutsu no kaihatsu}
author = {None}
abstractNote = {With an objective to develop geothermal resources, research and development has been performed on the production technologies for the deep-seated geothermal resources, such as pressure, temperature, flow speed and density (PTSD) logging technologies. This paper summarizes the achievements in fiscal 1999. In the actual well test on the developed D-probe, it was verified that the probe operates normally under high temperature environment (342 degrees C) which exceeds the measurement limit of conductive cables (315 degrees C). In developing the PTC monitoring technology, the downhole sampler was improved, and a test was performed in the actual hole in the Hijiori area in Yamagata Prefecture. As a result, collection of hot water of about 900 mL has become possible. In developing the high-temperature tracer monitoring technology, simulation was performed keeping in mind charging the tracer into the Hijiori geothermal area, whereas specifications for charging and collecting the tracer were determined. In developing the scale monitoring technology, experiments were carried out on the fluid systems under deep geothermal conditions by using scale forming devices, by which it was indicated that silica is the important scale constituent. (NEDO)}
place = {Japan}
year = {2000}
month = {Mar}
}