![](https://www.kindai.ac.jp/data/images/professor/1129.jpg)
JUN Cui
Department of Architecture | Professor/Assistant General Manager |
Last Updated :2024/06/18
■Researcher basic information
J-Global ID
Research Keyword
- 放射冷暖房、24時間全館空調、空調負荷計算、地中熱利用 Building Services
Research Field
■Research activity information
Paper
- Experimental Verification on the Effectiveness of Hollow Concrete Blocks as Heat Storage Materials, Part2―Heat Storage and Heat Radiation Effect During CoolingCUI JunTransactions of the Society of Heating, Air-Conditioning and Sanitary Engineers of Japan 48 (316) 25 - 32 2023/07 [Refereed]
- Experimental Verification on the Effectiveness of Hollow Concrete Blocks as Heat Storage Materials, Part1 Heat Storage and Heat Radiation Effect During HeatingJun CUI空気調和・衛生工学会論文集 47 (305) 55 - 62 2022/08 [Refereed]
- Jun Cui; Takanori IchikawaAIJ Journal of Technology and Design Architectural Institute of Japan 22 (51) 631 - 839 1881-8188 2016/06 [Refereed]
In Japan, except for the part of the cold regions, it is common for the air-conditioning to be used only in the room where residents are there. Thus, large temperature difference is likely to occur between the rooms. The temperature difference has been pointed out as one of the causes of the heat shock. It is effective to use the 24-hours central air-conditioning system in order to eliminate the temperature difference. Therefore, in this paper, we analyze electricity rate and power consumption of 24-hours central air-conditioning system in warm region on the basis of long-term measurement for a detached house. - Jun Cui; Toshiyuki WatanabeJournal of Environmental Engineering (Japan) Architectural Institute of Japan 80 (708) 139 - 148 1881-817X 2015/02 [Refereed]
Because the current air-conditioning load calculation method does not consider the resident's thermal sensation directly, the relationship between the resident's thermal sensation and the load is not clear at the stage of air conditioning system design. To solve this problem, we have shown a new calculation method which can calculate the load by considering the resident's thermal sensation. So far, we have investigated only the sensible heat load calculation model on this new calculation method, but in this paper, we showed a latent heat load calculation model, and obtained the following results. 1) If the air-conditioning load computed by the current method is processed at the optimum point, indoor temperature and humidity are controlled to their set points, but resident's thermal sensation may not be maintained at comfortable range. However, if the load computed by this new method is removed completely, even if indoor temperature and humidity changes, resident's thermal sensation will be maintained at comfortable range. 2) After maintaining demanded thermal sensation, the rate of sensible heat load and latent heat load can be changed as necessary, and the load reduction effect can also be expected. - Takanori Ichikawa; Jun CuiAIJ Journal of Technology and Design Architectural Institute of Japan 20 (46) 1035 - 1040 1881-8188 2014/10 [Refereed]
A study on natural cooling system by rainwater and underground heat with ready-made drums in a wooden experimental house is as follows. First, the temperature of rainwater before an experiment was about 15 degrees. Next, water temperature withdrew to about 16 degrees by underground heat in about 3 days after experiment. As a result of having used control of pump and tank, the room temperature maintained 24 - 29 degrees. And PMV maintained less than ±1. But, only by control of tank, we cannot continue this system. - Jun Cui; Toshiyuki WatanabeJournal of Environmental Engineering (Japan) Architectural Institute of Japan 79 (695) 73 - 81 1881-817X 2014/01 [Refereed]
Because current load calculation method cannot show the relation between the clothing and the air-conditioning load definitely, the load reduction effect of the WARM BIZ and the COOLBIZ is not analyzed enough. In previous studies, we have presented a new load calculation method called "air-conditioning load calculation method considering thermal sensation of residents" for the load calculation. This paper analyzed the possibility of the quantitative evaluation on load reduction effect of the WARM BIZ and the COOL BIZ using this new load calculation method. The following results were obtained. (1) The new load calculation method is effective in the quantitative evaluation of load reduction effect of the WARM BIZ and the COOL BIZ. (2) Air-conditioning load when the WARM BIZ and the COOL BIZ is performed is 16% lower than the load in case of clothing 1.0clo, and 8% lower than the case of clothing 0.8clo. (3) In order to keep the PMV at zero, required minimum indoor temperature in the case of clothing 1.0clo is about 21°C in summer, but by utilizing the COOL BIZ, the temperature can be risen up to about 25°C. (4) In order to keep the PMV at zero, required maximum indoor temperature in the case of clothing 0.6clo is about 28°C in winter, by utilizing the WARM BIZ, the temperature drops to about 25°C. - Jun Cui; Toshiyuki WatanabeJournal of Environmental Engineering (Japan) 77 (682) 957 - 966 1348-0685 2012/12 [Refereed]
In the past study, it was made clear that the load calculation method considering thermal sensation could calculate air conditioning load in consideration of spatial distribution of thermal sensation. However, even if air conditioning load is handled without overs and shorts because the load calculation method is not intended to cancel difference in thermal sensation in the room, thermal sensation at the examination point is kept by the required value, but thermal sensation at other points is not kept by the value that is similar to an examination point. Therefore there is concern that thermal sensation at the point except the examination point may be worsened by conditions adversely. This paper established an examination point and the reference point in the room and compared the difference of thermal sensation at the reference point with the examination point. The following results were obtained. 1) The difference of thermal sensation occurs between an examination point and a reference point, but the difference can be controlled in an acceptable range. 2) In convective air conditioning, the difference of thermal sensation does not almost occur. 3) In radiant air conditioning, the difference of thermal sensation changes by radiant panel position and required thermal sensation of examination point. - 崔 軍; 長谷健; 加藤聡近畿大学次世代基盤技術研究所報告 近畿大学次世代基盤技術研究所報告 3 67 - 71 2185-8802 2012/06
- Jun Cui; Toshiyuki WatanabeJournal of Environmental Engineering 日本建築学会 77 (675) 339 - 348 1348-0685 2012/05 [Refereed]
Currently, the air-conditioning load is calculated for transmission heat flow from the wall surfaces to indoor air because the air-conditioning load is defined for the heat flow that it should supply indoor air with to keep a fixed room temperature. Even if the air-conditioning load calculated based on this definition is removed precisely, the room temperature become constant, but the comfort of the resident is affected by the climatic condition and will change theoretically. The present writer showed a paper on air-conditioning load calculation method considering thermal sensation of the resident to solve this problem. In the new air-conditioning load calculation method, in order to maintain PMV of a certain place at a preset value, the heat flow which should be removed from indoor air or the wall surfaces is defined as air-conditioning load. Until now, the algorithm of this new load calculation method was explained. However the influence on the air-conditioning load of building insulation specifications, resident position and air conditioning system was not examined in detail. This paper analyzes influence of insulation specifications, resident location and air conditioning system on load calculated using the new calculation method. - 崔 軍; 湊政樹近畿大学工学部研究報告 近畿大学 (45) 41 - 47 0386-491X 2011/12[Synopsis] Although the buildings which use a wall radiation heating system have been increasing recently, there are few papers about it. When indoor PMV was kept a constant value, the vrtical temperature distribution of wall radiant heating and the air conditioner heating was examined by experiments, and the following results were shown in this paper. (1)When indoor PMV is maintained by the same value, vertical temperature distribution of wall radiant heating (panel surface temperature 41℃ and 45℃) is larger than air conditioner heating (setting room temperature 22℃ and 24℃). (2)Air conditioner heating tends to produce horizontal temperature distribution than wall radiant heating. (3)Vertical temperature distribution of wall radiant heating is almost fixed regardless of the temperature of a radiant panel.
- Jun Cui; Toshiyuki WatanabeJournal of Environmental Engineering 日本建築学会 76 (668) 903 - 910 1348-0685 2011/10 [Refereed]
Until now, we suggested a new load calculation method which considered thermal sensation of the resident based on a point of view of comfort air conditioning. By this new load calculation method, the load is calculated for thermal energy to remove by the room to keep PMV of the indoor specific place a set point. By this new air-conditioning load calculation method, air-conditioning load changes by PMV given beforehand. Until now, the new load calculation method which set PMV of the indoor specific place a set point to zero was examined. In this paper, in order to examine the possibility of the load reduction by this new air-conditioning load calculation method, fixed tolerance level was set as PMV of the indoor specific place a set point, and the case studies ware performed. The calculation results showed that the annual load could carry out 32-44% reduction by setting tolerance level of PMV to ±0.5 compared with the present load calculation method. - 崔 軍; 市川 尚紀; 加藤 聡; 高砂熱学工業株式会社近畿大学次世代基盤技術研究所報告 近畿大学 2 107 - 111 2185-8802 2011/06[Abstract] In this paper, CFD analysis of floor radiant heating and the wall radiant heating was carried out using a detailed experiment house model. The results are shown below. 1) When the outdoor air temperature is 1 degree Celsius, the comfort of the residence area cannot be kept only with a wall heating panel of 40 degrees Celsius. 2) In the residence area, a floor heating of 28 degrees Celsius may become more comfortable than wall heating of 40 degrees Celsius. 3) If a wall panel is used together with a floor panel effectively even if water supply temperature is a little lower than wall heating, indoor heat environment is improved.
- Takanori Ichikawa; Jun CuiAIJ Journal of Technology and Design 日本建築学会 17 (35) 227 - 232 1341-9463 2011/02A study on natural heating and cooling system in a wooden experimental house is as follows. First, we made a floor cooling experiment with the rainwater cooled by underground heat in summer. Next, we made a floor heating experiment with the rainwater warmed by solar heat in winter. As a result, in summer the temperature on the floor fell by about 2 degrees and in winter rose by about 10 degrees.
- Jun Cui; Toshiyuki WatanabeJournal of Environmental Engineering 日本建築学会 75 (657) 945 - 951 1348-0685 2010/11Currently,the air-conditioningload is calculated for transmissionthermalenergy fromthe wall surfacestoindoor air because theair-conditioning loadisdefinedforthe thermal energythat it should supplyindoor air with to keepafixed roomtemperature. Theair-conditioningload calculated in this waybecomesthe functionofthe room temperature set point and is unrelatedtothermalsensation ofthe resident.This paper suggested a new load calculation method which consideredthermalsensation of the residentbasedon a pointof viewof comfort air conditioning. By this new load calculation method,theload iscalculated for thermalenergy to removeby theroomto keep PMV ofthe indoor specificplace a setpoint. However,inintermittentair-conditioning system, theloadoccurs greatly to controlPMV in a set point in a shorttime.This paperis aimedat examining the effectivenessof the new loadcalculation method in intermittentair-conditioningsystem.
- 居住者の温冷感を考慮した空調負荷計算法の計算モデルの構築崔 軍; 渡辺俊行近畿大学工業技術研究所研究報告書 近畿大学 19 51 - 57 2010/02
- Jun Cui; Toshiyuki WatanabeJournal of Environmental Engineering 74 (638) 449 - 456 1348-0685 2009/04In the current air-conditioning load calculation, the relation between air-conditioning load and thermal sensation of the resident is uncertain in design stage, because the air-conditioning load is calculated regardless the thermal sensation of resident. This paper showed a new air-conditioning load calculation method that considered the thermal sensation of the resident. The results of case study are the following. 1) The new load calculation method can calculate air-conditioning load for a function of the resident thermal sensation. The results of case study showed the new load calculation method has high load more than 20% in comparison with the current load calculation method. 2) In this new load calculation method, the heat extraction rate from indoor air or walls is calculated as air-conditioning load to maintain thermal sensation of the resident. 3) In this new load calculation method, air-conditioning load changes by the position of the resident. The results of case study showed the difference became about 6%.
- KURACHI Mitsuru; SUMIYOSHI Daisuke; AKASHI YasunoriJournal of architecture and urban design, Kyushu University Kyushu University 3 (3) 123 - 132 1346-5325 2003/01本文では、空調システムの省エネルギー運用方策を提示する際の有効な手法の一つと考えられる熱源インバータ制御について概説し、空調システムシミュレーションと実測結果によって、インバータの制御効果を検討した。
- SUMIYOSHI DaisukeTechinical Papers of Annual Meeting the Society of Heating,Air-conditioning and Sanitary Engineers of Japan The Society of Heating, Air-Conditioning Sanitary Engineers of Japan 14 (2) 541 - 544 2002/08
- KURACHI MitsuruTechinical Papers of Annual Meeting the Society of Heating,Air-conditioning and Sanitary Engineers of Japan The Society of Heating, Air-Conditioning Sanitary Engineers of Japan 14 (2) 537 - 540 2002/08
- CUI JunTechinical Papers of Annual Meeting the Society of Heating,Air-conditioning and Sanitary Engineers of Japan The Society of Heating, Air-Conditioning Sanitary Engineers of Japan 13 (2) 905 - 908 2001/08
- CUI junTechinical Papers of Annual Meeting the Society of Heating,Air-conditioning and Sanitary Engineers of Japan The Society of Heating, Air-Conditioning Sanitary Engineers of Japan 8 (3) 1073 - 1076 1996/08
MISC
- 崔 軍; 市川 尚紀; 松本 慎也; 寺井 雅和 近畿大学次世代基盤技術研究所報告 = Annual Report of Fundamental Technology for Next Generation Research Institute, Kindai University 8- 33 -36 2017/06
- 市川 尚紀; 崔 軍 近畿大学次世代基盤技術研究所報告 = Annual report of Research Institute of Fundamental Technology for Next Generation, Kindai University 8- 83 -88 2017
- 崔 軍; 市川 尚紀; 松本 慎也; 寺井 雅和 近畿大学次世代基盤技術研究所報告 = Kindai University Research Institute of Fundamental Technology for Next Generation 7- 32 -36 2016/07
- CUI Jun Summaries of technical papers of annual meeting 2015- 901 -902 2015/09
- 崔 軍; 市川 尚紀; 松本 慎也; 寺井 雅和 近畿大学次世代基盤技術研究所報告 = Kinki University Research Institute of Fundamental Technology for Next Generation 6- 32 -36 2015/06
- CUI Jun Proceedings of annual research meeting Chugoku Chapter, Architectural Institute of Japan (AIJ) 38- 377 -380 2015/03
- 市川 尚紀; 崔 軍 近畿大学次世代基盤技術研究所報告 6- 169 -174 2015
- 崔 軍; 大田 和彦; 市川 尚紀; 松本 慎也 近畿大学次世代基盤技術研究所報告 = Kinki University Research Institute of Fundamental Technology for Next Generation 5- 24 -27 2014/06
- CUI Jun Summaries of technical papers of annual meeting 37- 345 -348 2014/03
- CUI Jun Summaries of technical papers of annual meeting 2013- 1021 -1022 2013/08
- 崔 軍; 大田 和彦; 市川 尚紀 近畿大学次世代基盤技術研究所報告 = Kinki University Research Institute of Fundamental Technology for Next Generation 4- 20 -22 2013/06
- CUI Jun Proceedings of annual research meeting Chugoku Chapter, Architectural Institute of Japan (AIJ) 36- 415 -418 2013
- 崔 軍; 大田 和彦; 市川 尚紀; 在永 末徳; 藤井 大地 近畿大学次世代基盤技術研究所報告 = Kinki University Research Institute of Fundamental Technology for Next Generation 3- 17 -20 2012/06
- ONJO Ami; CUI Jun; HASE Takeshi; KATO Satoshi Proceedings of annual research meeting Chugoku Chapter, Architectural Institute of Japan (AIJ) 35- 405 -408 2012/03
- HASE Takeshi; CUI Jun; ONJYO Ami; KATOU Satoshi; YAMASHITA Yukie Proceedings of annual research meeting Chugoku Chapter, Architectural Institute of Japan (AIJ) 35- 401 -404 2012/03
- CUI Jun Proceedings of annual research meeting Chugoku Chapter, Architectural Institute of Japan (AIJ) 35- 449 -452 2012/03
- KATO satoshi; Cui jun; IZUMI takuya Proceedings of annual research meeting Chugoku Chapter, Architectural Institute of Japan (AIJ) 35- 413 -416 2012/03
- CUI Jun Summaries of technical papers of Annual Meeting Architectural Institute of Japan. D-2, Environmental engineering II, Heat, moisture, thermal comfort, natural energy, air flow, ventilation, smoke exhaustion, computational fluid dynamics, indoor air quality heating, cooling and air-conditioning heat and cold sources, piping systems application of building services 2011- 1291 -1292 2011/07
- 在永 末徳; 藤井 大地; 崔 軍; 市川 尚紀 近畿大学次世代基盤技術研究所報告 = Kinki University Research Institute of Fundamental Technology for Next Generation 2- 15 -19 2011/06
- MINATO Masaki; CUI Jun; ONJO Ami Proceedings of annual research meeting Chugoku Chapter, Architectural Institute of Japan (AIJ) 34- 301 -304 2011/03
- CUI Jun Proceedings of annual research meeting Chugoku Chapter, Architectural Institute of Japan (AIJ) 34- 317 -320 2011/03
- CUI Jun; MINATO Masaki; ONJO Ami Proceedings of annual research meeting Chugoku Chapter, Architectural Institute of Japan (AIJ) 34- 305 -308 2011/03
- 市川 尚紀; 崔 軍 近畿大学次世代基盤技術研究所報告 2- 135 -140 2011
- OHTA Kazuhiko; FUJII Daiji; CUI Jun; Ichikawa Takanori 工学・工業教育研究講演会講演論文集 22- 96 -97 2010/08
- MINATO Masaki; CUI Jun; ICHIKAWA Takanori Summaries of technical papers of Annual Meeting Architectural Institute of Japan. D-2, Environmental engineering II, Heat, moisture, thermal comfort, natural energy, air flow, ventilation, smoke exhaustion, computational fluid dynamics, indoor air quality heating, cooling and air-conditioning heat and cold sources, piping systems application of building services 2010- 1067 -1068 2010/07
- CUI Jun; WATANABE Toshiyuki Summaries of technical papers of Annual Meeting Architectural Institute of Japan. D-2, Environmental engineering II, Heat, moisture, thermal comfort, natural energy, air flow, ventilation, smoke exhaustion, computational fluid dynamics, indoor air quality heating, cooling and air-conditioning heat and cold sources, piping systems application of building services 2010- 1165 -1166 2010/07
- ICHIKAWA Takanori; CUI Jun Summaries of technical papers of Annual Meeting Architectural Institute of Japan. D-2, Environmental engineering II, Heat, moisture, thermal comfort, natural energy, air flow, ventilation, smoke exhaustion, computational fluid dynamics, indoor air quality heating, cooling and air-conditioning heat and cold sources, piping systems application of building services 2010- 1111 -1112 2010/07
- CUI Jun; WATANABE Toshiyuki Proceedings of annual research meeting Chugoku Chapter, Architectural Institute of Japan (AIJ) 33- "414 -1"-"414-4" 2010/03
- MIYAWAKI Yuka; CUI Jun; ICHIKAWA Takanori; YAMAJI Hiroki Proceedings of annual research meeting Chugoku Chapter, Architectural Institute of Japan (AIJ) 33- "412 -1"-"412-4" 2010/03
- CUI Jun; WATANABE Toshiyuki Summaries of technical papers of Annual Meeting Architectural Institute of Japan. D-2, Environmental engineering II, Heat, moisture, thermal comfort, natural energy, air flow, ventilation, smoke exhaustion, computational fluid dynamics, indoor air quality heating, cooling and air-conditioning heat and cold sources, piping systems application of building services 2009- 119 -120 2009/07
- CUI Jun; WATANABE Toshiyuki Proceedings of annual research meeting Chugoku Chapter, Architectural Institute of Japan (AIJ) 32- "409 -1"-"409-4" 2009/03
- YOSHIDA Ryohei; Cui Jun; IDA tatuya; SUGATA naoyuki Proceedings of annual research meeting Chugoku Chapter, Architectural Institute of Japan (AIJ) 32- "408 -1"-"408-4" 2009/03
- MINATO Masaki; CUI Jun Proceedings of annual research meeting Chugoku Chapter, Architectural Institute of Japan (AIJ) 32- "414 -1"-"414-4" 2009/03
- ICHIKAWA Takanori; CUI Jun; MATSUDA Hiroyuki; ARINAGA Suenori 建築デザイン発表梗概集 2008- 288 -289 2008/07
- CUI Jun; WATANABE Toshiyuki Summaries of technical papers of Annual Meeting Architectural Institute of Japan. D-2, Environmental engineering II, Heat, moisture, thermal comfort, natural energy, air flow, ventilation, smoke exhaustion, computational fluid dynamics, indoor air quality heating, cooling and air-conditioning heat and cold sources, piping systems application of building services 2008- 33 -34 2008/07
- CUI Jun; ARINAGA Suenori; OHKUBO Takaaki; IKEGAMI Tomohisa; YOSHIDA Ryohei; KURAISHI Osamu Proceedings of annual research meeting Chugoku Chapter, Architectural Institute of Japan (AIJ) 31- "418 -1"-"418-4" 2008/03
- YOSHIDA Ryohei; Cui Jun; IKEGAMI Tomohisa Proceedings of annual research meeting Chugoku Chapter, Architectural Institute of Japan (AIJ) 31- "417 -1"-"417-4" 2008/03
- CUI Jun; WATANABE Toshiyuki Proceedings of annual research meeting Chugoku Chapter, Architectural Institute of Japan (AIJ) 31- "416 -1"-"416-4" 2008/03
- CUI Jun; ARINAGA Suenori; OHKUBO Takaaki; MATSUMOTO Shinya; IKEGAMI Tomohisa Summaries of technical papers of Annual Meeting Architectural Institute of Japan. D-2, Environmental engineering II, Heat, moisture, thermal comfort, natural energy, air flow, ventilation, smoke exhaustion, computational fluid dynamics, indoor air quality heating, cooling and air-conditioning heat and cold sources, piping systems application of building services 2007- 157 -158 2007/07
- IKEGAMI Tomohisa; ARINAGA Suenori; CUI Jun; OHKUBO Takaaki; MATSUMOTO Shinya; OZEKI Arata 日本建築学会中国支部研究報告集 30- 401 -404 2007/03
- MATSUMOTO Shinya; OHKUBO Takaaki; ARINAGA Suenori; CUI Jun; OZEKI Arata 日本建築学会中国支部研究報告集 30- 25 -28 2007/03
- CUI Jun; ARINAGA Suenori; WATANABE Toshiyuki; NISHIYAMA Norimitsu; IKEGAMI Tomohisa Summaries of technical papers of Annual Meeting Architectural Institute of Japan. D-2, Environmental engineering II, Heat, moisture, thermal comfort, natural energy, air flow, ventilation, smoke exhaustion, computational fluid dynamics, indoor air quality heating, cooling and air-conditioning heat and cold sources, piping systems application of building services 2006- 111 -112 2006/07
- IKEGAMI Tomohisa; CUI Jun; ARINAGA Suenori Summaries of technical papers of Annual Meeting Architectural Institute of Japan. D-2, Environmental engineering II, Heat, moisture, thermal comfort, natural energy, air flow, ventilation, smoke exhaustion, computational fluid dynamics, indoor air quality heating, cooling and air-conditioning heat and cold sources, piping systems application of building services 2006- 109 -110 2006/07
- 空調システムの運用における熱源インバータ制御の省エネルギー効果日本建築学会環境系論文集 (595) 73 -81 2005/09
- CUI Jun; ARINAGA Suenori; WATANABE Toshiyuki; NISHIYAMA Norimitsu Summaries of technical papers of Annual Meeting Architectural Institute of Japan. D-2, Environmental engineering II, Heat, moisture, thermal comfort, natural energy, air flow, ventilation, smoke exhaustion, computational fluid dynamics, indoor air quality heating, cooling and air-conditioning heat and cold sources, piping systems application of building services 2005- 201 -202 2005/07
- CUI Jun; WATANABE Toshiyuki; NISHIYAMA Norimitsu; AKASHI Yasunori 日本建築学会中国支部研究報告集 28- 445 -448 2005/03
- CUI Jun; WATANABE Toshiyuki; NISHIYAMA Norimitsu; AKASHI Yasunori Summaries of technical papers of Annual Meeting Architectural Institute of Japan. D-2, Environmental engineering II, Heat, moisture, thermal comfort, natural energy, air flow, ventilation, smoke exhaustion, computational fluid dynamics, indoor air quality heating, cooling and air-conditioning heat and cold sources, piping systems application of building services 2004- 1421 -1422 2004/07
- CUI Jun; YU Hang; WATANABE Toshiyuki; NISHIYAMA Norimitsu; AKASHI Yasunori Journal of Environmental Engineering (Transactions of AIJ) 69- (578) 31 -38 2004/04
- CUI Jun; WATANABE Toshiyuki; NISHIYAMA Norimitsu; AKASHI Yasunori 日本建築学会中国支部研究報告集 27- 449 -452 2004/03
- KURACHI Mitsuru; AKASHI Yasunori; WATANABE Toshiyuki; KAMIMURA Kazuyuki; NISHIYAMA Norimitsu; CUI Jun; SUMIYOSHI Daisuke; NAGANOBU Takuya 学術講演会論文集 15- (3) 1637 -1640 2003/08
- SUMIYOSHI Daisuke Summaries of technical papers of Annual Meeting Architectural Institute of Japan. D-2, Environmental engineering II, Heat, moisture, thermal comfort, natural energy, air flow, ventilation, smoke exhaustion, computational fluid dynamics, indoor air quality heating, cooling and air-conditioning heat and cold sources, piping systems application of building services 2003- 1275 -1276 2003/07
- NAGANOBU Takuya Summaries of technical papers of Annual Meeting Architectural Institute of Japan. D-2, Environmental engineering II, Heat, moisture, thermal comfort, natural energy, air flow, ventilation, smoke exhaustion, computational fluid dynamics, indoor air quality heating, cooling and air-conditioning heat and cold sources, piping systems application of building services 2003- 1271 -1272 2003/07
- KURACHI Mitsuru Summaries of technical papers of Annual Meeting Architectural Institute of Japan. D-2, Environmental engineering II, Heat, moisture, thermal comfort, natural energy, air flow, ventilation, smoke exhaustion, computational fluid dynamics, indoor air quality heating, cooling and air-conditioning heat and cold sources, piping systems application of building services 2003- 1273 -1274 2003/07
- SUMIYOSHI Daisuke; AKASHI Yasunori; WATANABE Toshiyuki; KAMIMURA Kazuyuki; NISHIYAMA Norimitsu; CUI Jun; KURACHI Mitsuru; NAGANOBU Takuya 日本建築学会研究報告. 九州支部. 2, 環境系 (42) 129 -132 2003/03
- NAGANOBU Takuya; AKASHI Yasunori; WATANABE Toshiyuki; KAMIMURA Kazuyuki; NISHIYAMA Norimitsu; CUI Jun; SUMIYOSHI Daisuke; KURACHI Mitsuru 日本建築学会研究報告. 九州支部. 2, 環境系 (42) 121 -124 2003/03
- KURACHI Mitsuru; AKASHI Yasunori; WATANABE Toshiyuki; KAMIMURA Kazuyuki; NISHIYAMA Norimitsu; CUI Jun; SUMIYOSHI Daisuke; NAGANOBU Takuya 日本建築学会研究報告. 九州支部. 2, 環境系 (42) 125 -128 2003/03
- CUI Jun; WATANABE Toshiyuki; NISHIYAMA Norimitsu; AKASHI Yasunori 日本建築学会九州支部研究報告 42- 153 -156 2003
- CUI Jun; NISHIYAMA Norimitsu; WATANABE Toshiyuki; AKASHI Yasunori Summaries of technical papers of Annual Meeting Architectural Institute of Japan. D-2, Environmental engineering II, Heat, moisture, thermal comfort, natural energy, air flow, ventilation, smoke exhaustion, computational fluid dynamics, indoor air quality heating, cooling and air-conditioning heat and cold sources, piping systems application of building services 2002- 1199 -1200 2002/06
- SUMIYOSHI Daisuke Summaries of technical papers of Annual Meeting Architectural Institute of Japan. D-2, Environmental engineering II, Heat, moisture, thermal comfort, natural energy, air flow, ventilation, smoke exhaustion, computational fluid dynamics, indoor air quality heating, cooling and air-conditioning heat and cold sources, piping systems application of building services 2002- 1213 -1214 2002/06
- KURACHI Mitsuru Summaries of technical papers of Annual Meeting Architectural Institute of Japan. D-2, Environmental engineering II, Heat, moisture, thermal comfort, natural energy, air flow, ventilation, smoke exhaustion, computational fluid dynamics, indoor air quality heating, cooling and air-conditioning heat and cold sources, piping systems application of building services 2002- 1211 -1212 2002/06
- KURACHI Mitsuru; SUMIYOSHI Daisuke; AKASHI Yasunori; WATANABE Toshiyuki; KAMIMURA Kazuyuki; NISHIYAMA Norimitsu; CUI Jun 日本建築学会研究報告. 九州支部. 2, 環境系 (41) 473 -476 2002/03
- SUMIYOSHI Daisuke; AKASHI Yasunori; WATANABE Toshiyuki; KAMIMURA Kazuyuki; NISHIYAMA Norimitsu; CUI Jun; KURACHI Mitsuru 日本建築学会研究報告. 九州支部. 2, 環境系 (41) 477 -480 2002/03
- HASEBE Koji; NISHIYAMA Norimitsu; CUI Jun; WATANABE Toshiyuki; AKASHI Yasunori; KUGO Naoya 日本建築学会研究報告. 九州支部. 2, 環境系 (41) 485 -488 2002/03
- CUI Jun; NISHIYAMA Norimitsu; WATANABE Toshiyuki; AKASHI Yasunori; HASEBE Koji; KUGO Naoya 日本建築学会研究報告. 九州支部. 2, 環境系 (41) 481 -484 2002/03
- TSUTSUMI Shogo; AKASHI Yasunori; WATANABE Toshiyuki; NISHIYAMA Norimitsu; CUI Jun Summaries of technical papers of Annual Meeting Architectural Institute of Japan. D-2, Environmental engineering II, Heat, moisture, thermal comfort, natural energy, air flow, ventilation, smoke exhaustion, computational fluid dynamics, indoor air quality heating, cooling and air-conditioning heat and cold sources, piping systems application of building services 2001- 1101 -1102 2001/07
- KUGO Naoya Summaries of technical papers of Annual Meeting Architectural Institute of Japan. D-2, Environmental engineering II, Heat, moisture, thermal comfort, natural energy, air flow, ventilation, smoke exhaustion, computational fluid dynamics, indoor air quality heating, cooling and air-conditioning heat and cold sources, piping systems application of building services 2001- 1099 -1100 2001/07
- SUMIYOSHI Daisuke; AKASHI Yasunori; WATANABE Toshiyuki; KAMIMURA Kazuyuki; NISHIYAMA Norimitsu; CUI Jun; HASHIZUME Ryota Summaries of technical papers of Annual Meeting Architectural Institute of Japan. D-2, Environmental engineering II, Heat, moisture, thermal comfort, natural energy, air flow, ventilation, smoke exhaustion, computational fluid dynamics, indoor air quality heating, cooling and air-conditioning heat and cold sources, piping systems application of building services 2001- 1129 -1130 2001/07
- 住吉 大輔; 橋爪 良太; 赤司 泰義; 渡辺 俊行; 神村 一幸; 西山 紀光; 崔 軍 日本建築学会研究報告. 九州支部. 2, 環境系 (40) 185 -188 2001/03
- 橋爪 良太; 住吉 大輔; 赤司 泰義; 渡辺 俊行; 神村 一幸; 西山 紀光; 崔 軍 日本建築学会研究報告. 九州支部. 2, 環境系 (40) 189 -192 2001/03
- 堤 将吾; 渡辺 俊行; 赤司 泰義; 西山 紀光; 崔 軍; 于 航 日本建築学会研究報告. 九州支部. 2, 環境系 (40) 229 -232 2001/03
- HASHIZUME Ryota; AKASHI Yasunori; WATANABE Toshiyuki; KAMIMURA Kazuyuki; NISHIYAMA Norimitsu; CUI Jun; SUMIYOSHI Daisuke Summaries of technical papers of Annual Meeting Architectural Institute of Japan. D-2, Environmental engineering II, Heat, moisture, thermal comfort, natural energy, air flow, ventilation, smoke exhaustion, computational fluid dynamics, indoor air quality heating, cooling and air-conditioning heat and cold sources, piping systems application of building services 1131 -1132 2001
- 崔軍; 西山 紀光; 渡辺 俊行; 赤司 泰義; 于 航 日本建築学会九州支部研究報告 40- 197 -200 2001
- 崔軍 日本建築学会学術講演梗概集 2001
- シミュレーションによる大温度差水蓄熱式空調システムのエネルギー評価(共著)日本建築学会計画系論文集 No.550、63-70- 2001
- MIYOSHI Junji; AKASHI Yasunori; WATANABE Toshiyuki; KAMIMURA Kazuyuki; NISHIYAMA Norimitsu; CUI jun; HASHIZUME Ryota; FUKUDA Ken-ichi Summaries of technical papers of Annual Meeting Architectural Institute of Japan. D-2, Environmental engineering II, Heat, moisture, thermal comfort, natural energy, air flow, ventilation, smoke exhaustion, computational fluid dynamics, indoor air quality heating, cooling and air-conditioning heat and cold sources, piping systems application of building services 2000- 1033 -1034 2000/07
- Yu Hang; WATANABE Toshiyuki; AKASHI Yasunori; NISHIYAMA Norimitsu; CUI Jun; UEKI Tomoko; TSUTSUMI Shogo; KAWAMURA Yuko Summaries of technical papers of Annual Meeting Architectural Institute of Japan. D-2, Environmental engineering II, Heat, moisture, thermal comfort, natural energy, air flow, ventilation, smoke exhaustion, computational fluid dynamics, indoor air quality heating, cooling and air-conditioning heat and cold sources, piping systems application of building services 2000- 1043 -1044 2000/07
- UEKI Tomoko; WATANABE Toshiyuki; AKASHI Yasunori; NISHIYAMA Norimitsu; CUI Jun; YU Hang; TSUTSUMI Shogo; KAWAMURA Yuko Summaries of technical papers of Annual Meeting Architectural Institute of Japan. D-2, Environmental engineering II, Heat, moisture, thermal comfort, natural energy, air flow, ventilation, smoke exhaustion, computational fluid dynamics, indoor air quality heating, cooling and air-conditioning heat and cold sources, piping systems application of building services 2000- 1047 -1048 2000/07
- TSUTSUMI Shogo; WATANABE Toshiyuki; AKASHI Yasunori; NISHIYAMA Norimitsu; CUI Jun; YU Hang; UEKI Tomoko; KAWAMURA Yuko Summaries of technical papers of Annual Meeting Architectural Institute of Japan. D-2, Environmental engineering II, Heat, moisture, thermal comfort, natural energy, air flow, ventilation, smoke exhaustion, computational fluid dynamics, indoor air quality heating, cooling and air-conditioning heat and cold sources, piping systems application of building services 2000- 1045 -1046 2000/07
- FUKUDA Ken-ichi; AKASHI Yasunori; WATANABE Toshiyuki; KAMIMURA Kazuyuki; NISHIYAMA Norimitsu; CUI Jun; HASHIZUME Ryota; MIYOSHI Junji Summaries of technical papers of Annual Meeting Architectural Institute of Japan. D-2, Environmental engineering II, Heat, moisture, thermal comfort, natural energy, air flow, ventilation, smoke exhaustion, computational fluid dynamics, indoor air quality heating, cooling and air-conditioning heat and cold sources, piping systems application of building services 2000- 1031 -1032 2000/07
- KAWAMURA Yuko; WATANABE Toshiyuki; AKASHI Yasunori; NISHIYAMA Norimitsu; CUI Jun; YU Hang; UEKI Tomoko; TSUTSUMI Shogo Summaries of technical papers of Annual Meeting Architectural Institute of Japan. D-2, Environmental engineering II, Heat, moisture, thermal comfort, natural energy, air flow, ventilation, smoke exhaustion, computational fluid dynamics, indoor air quality heating, cooling and air-conditioning heat and cold sources, piping systems application of building services 2000- 1041 -1042 2000/07
- HASHIZUME Ryota; AKASHI Yasunori; WATANABE Toshiyuki; KAMIMURA Kazuyuki; NISHIYAMA Norimitsu; CUI Jun; MIYOSHI Junji; FUKUDA Ken-ichi Summaries of technical papers of Annual Meeting Architectural Institute of Japan. D-2, Environmental engineering II, Heat, moisture, thermal comfort, natural energy, air flow, ventilation, smoke exhaustion, computational fluid dynamics, indoor air quality heating, cooling and air-conditioning heat and cold sources, piping systems application of building services 2000- 1035 -1036 2000/07
- 堤 将吾; 渡辺 俊行; 赤司 泰義; 西山 紀光; 崔 軍; 于 航; 植木 智子; 河村 祐子 日本建築学会研究報告. 九州支部. 2, 環境系 (39) 257 -260 2000/03
- 橋爪 良太; 渡辺 俊行; 赤司 泰義; 神村 一幸; 西山 紀光; 崔 軍; 三好 順治 日本建築学会研究報告. 九州支部. 2, 環境系 (39) 253 -256 2000/03
- YU Hang; WATANABE Toshiyuki; AKASHI Yasunori; NISHIYAMA Norimitsu; GUI Jun; UEKI Tomoko; TSUTSUMI Shogo Journal of Architecture and Planning (Transactions of AIJ) 65- (535) 31 -38 2000
- YU Hang; WATANABE Toshiyuki; AKASHI Yasunori; NISHIYAMA Norimitsu; GUI Jun; UEKI Tomoko; TSUTSUMI Shogo Journal of Architecture, Planning and Environmental Engineering(Transactions of AIJ) 65- (535) 31 -38 2000
- YU Hang; WATANABE Toshiyuki; AKASHI Yasunori; NISHIYAMA Norimitsu; GUI Jun; UEKI Tomoko; TSUTSUMI Shogo Proceedings of 8th International Conference on Thermal Energy Storage. 65- (535) 31 -38 2000
- Numerical Simulation on Simultaneous Control Process of Indoor Air Temperature and Humidity (共著)Proceedings of Building Simulation'99 (]G0002[)- 1005 -1012 1999
- KOJIMA Shoichi; WATANABE Toshiyuki; RYU Yuji; AKASHI Yasunori Summaries of technical papers of Annual Meeting Architectural Institute of Japan. D-2, Environmental engineering II, Heat, moisture, thermal comfort, natural energy, air flow, ventilation, smoke exhaustion, computational fluid dynamics, indoor air quality heating, cooling and air-conditioning heat and cold sources, piping systems application of building services 1996- 47 -48 1996/07
- yamamoto shiho; kjima shoichi; WATANABE Toshiyuki; RYU Yuji; AKASHI Yasunori; CUI Jun; NISIYAMA Noriimtsu; TAKAHASHI Jun-ichi Summaries of technical papers of Annual Meeting Architectural Institute of Japan. D-2, Environmental engineering II, Heat, moisture, thermal comfort, natural energy, air flow, ventilation, smoke exhaustion, computational fluid dynamics, indoor air quality heating, cooling and air-conditioning heat and cold sources, piping systems application of building services 1996- 229 -230 1996/07
- 小島 昌一; 渡辺 俊行; 龍 有二; 赤司 泰義; 崔 軍; 高橋 淳一 日本建築学会研究報告. 中国・九州支部. 2, 環境系 (10) 389 -392 1996/03
- 渡辺 美奈子; 渡辺 俊行; 龍 有二; 赤司 泰義; 崔 軍; 小島 昌一; 山本 志保; 金 鋒秀; 西山 紀光; 陳 向陽; 高橋 淳一 日本建築学会研究報告. 中国・九州支部. 2, 環境系 (10) 393 -396 1996/03
- 崔 軍; 渡辺 俊行; 龍 有二; 赤司 泰義; 小島 昌一; 渡辺 美奈子; 山本 志保; 金 鋒秀; 西山 紀光; 陳 向陽; 高橋 淳一 日本建築学会研究報告. 中国・九州支部. 2, 環境系 (10) 397 -400 1996/03
- CUI Jun; WATANABE Toshiyuki; RYU Yuji; AKASHI Yasunori Summaries of technical papers of Annual Meeting Architectural Institute of Japan. D-2, Environmental engineering II, Heat, moisture, thermal comfort, natural energy, air flow, ventilation, smoke exhaustion, computational fluid dynamics, indoor air quality heating, cooling and air-conditioning heat and cold sources, piping systems application of building services 1995- 911 -912 1995/07
- XU Chaoying; WATANABE Toshiyuki; RYU Yuji; AKASHI Yasunori; CUI Jun; KINOSHITA Naoko Summaries of technical papers of Annual Meeting Architectural Institute of Japan. D-2, Environmental engineering II, Heat, moisture, thermal comfort, natural energy, air flow, ventilation, smoke exhaustion, computational fluid dynamics, indoor air quality heating, cooling and air-conditioning heat and cold sources, piping systems application of building services 1995- 145 -146 1995/07
- 崔軍 日本建築学会大会学術講演梗概集 911- 1995
- 空気調和・衛生工学会論文集 (59) 153 -162 1995
- CUI Jun; AKASHI Yasunori; WATANABE Toshiyuki; NISHIYAMA Norimitsu; RYU Yuji Transactions of the Society of Heating, Air-Conditioning and Sanitary Engineers of Japan 20- (59) 153 -162 1995
- Dynamic Simulation on HVAC Control Process of Indoor Air Temperature and Humidity(共著)Proceedings of Tsinghua-HVAC'95 522 -527 1995
- CUI Jun; WATANABE Toshiyuki; RYU Yuji; AKASHI Yasunori Summaries of technical papers of Annual Meeting Architectural Institute of Japan. D, Environmental engineering 1994- 819 -820 1994/07
- 冷却除湿コイルの動特性に関する研究(共著)空気調和・衛生工学会論文集 (56) 77 -86 1994
- CUI Jun; AKASHI Yasunori; WATANABE Toshiyuki; NISHIYAMA Norimitsu; RYU Yuji; KOJIMA Shoichi Transactions of the Society of Heating, Air-Condtioning and Sanitary Engineers of Japan 19- (56) 77 -86 1994
- Dynamic Simulation on Simultaneous Control Process of Indoor Air Temperature and Humidity(共著)Proceedings of International Conference on Urban Energy-Efficient Buildings 539 -552 1994
- Dynamics of Chilled Water Cooling and Dehumidifying Coils for Air-Conditioning of BuildingsTechnology Reports of Kyushu University 67- (3) 193 -201 1994
- CUI Jun Summaries of technical papers of Annual Meeting Architectural Institute of Japan. D, Environmental engineering 1993- 1695 -1696 1993/07
- 小島 昌一; 渡辺 俊行; 西山 紀光; 龍 有二; 赤司 泰義; 崔 軍; 酒井 達也 日本建築学会研究報告. 中国・九州支部. 2, 環境系 (9) 225 -228 1993/03
- 崔 軍; 渡辺 俊行; 西山 紀光; 龍 有二; 赤司 泰義; 小島 昌一; 酒井 達也 日本建築学会研究報告. 中国・九州支部. 2, 環境系 (9) 221 -224 1993/03
- Nam Jae seong Summaries of technical papers of Annual Meeting Architectural Institute of Japan. D, Environmental engineering 1992- 1519 -1520 1992/08
- Cui Jun Summaries of technical papers of Annual Meeting Architectural Institute of Japan. D, Environmental engineering 1992- 1523 -1524 1992/08
- 崔 軍; 渡辺 俊行; 龍 有二; 南 在成 日本建築学会研究報告. 九州支部. 2, 環境系 (33) 129 -132 1992/03
Lectures, oral presentations, etc.
- 戸建住宅における地中熱利用システムの最適運用に関する研究 その2 真夏日埋設雨水タンクの水温回復状況について趙振強; 崔軍; 市川尚紀; 吉谷公江日本建築学会大会 2020/09
- 24時間全館空調システムを有する戸建住宅の電力消費量と電気料金に関する実測調査 その6 顕熱蓄熱材と潜熱蓄熱材を併用した戸建住宅の室内温熱環境崔軍日本建築学会大会 2020/09
- 戸建住宅における地中熱利用システムの最適運用に関する研究 その1 システム概要と夏期実験趙振強; 崔軍; 市川尚紀; 吉谷公江日本建築学会中国支部研究発表会 2020/03
- 24時間全館空調システムを有する戸建住宅の電力消費量と電気料金に関する実測調査、その5 屋根一体型PVTシステムの集熱効果について [Not invited]崔 軍日本建築学会2019年度大会 2019/09
- 24時間全館空調システムを有する戸建住宅の電力消費量と電気料金に関する実測調査、その4 蓄熱体として使用されるコンクリートブロックの暖房時の放熱効果について [Not invited]崔 軍日本建築学会2018年度大会 2018/09
- 24時間全館空調システムを有する戸建住宅の電力消費量と電気料金に関する実測調査、その3 蓄熱体として使用されるコンクリートブロックの暖房時の蓄熱効果について [Not invited]崔 軍; 平野優大; 新村郁也日本建築学会中国支部研究発表会 2018/03
- 居住者の温冷感を考慮した空調負荷計算法の実験検証 その2 壁放射暖房の投入熱量に対する負荷計算対象点の高さの影響 [Not invited]崔 軍日本建築学会2016年度大会 2016/08
- 居住者の温冷感を考慮した空調負荷計算法の実験検証 その1 温冷感を室温及びグローブ温度で評価する場合の壁放射暖房の投入熱量 [Not invited]崔 軍日本建築学会中国支部研究発表会 2016/03
- 24時間全館空調システムを有する戸建住宅の電力消費量と電気料金に関する実測調査、その2 夏期の実測結果 [Not invited]崔 軍日本建築学会2015年度大会 2015/09
- 24時間全館空調システムを有する戸建住宅の電力消費量と電気料金に関する実測調査、その1 システム概要と冬期の実測結果 [Not invited]崔 軍日本建築学会中国支部研究発表会 2015/03
- 居住者の温冷感を考慮した空調負荷計算法に関する研究 その11 クールビズとウォームビズの負荷削減効果に対する設定PMVの影響 [Not invited]崔 軍2013/09
- 居住者の温冷感を考慮した空調負荷計算法に関する研究 その10 クールビズとウォームビズの空調負荷削減効果について [Not invited]崔 軍日本建築学会 2013/03 日本建築学会
- 居住者の温冷感を考慮した空調負荷計算法に関する研究 その7 建物断熱仕様および放射パネル仕様が空調負荷に及ぼす影響 [Not invited]崔 軍日本建築学会中国支部研究報告集、第34巻、環境工学408 2011/03 山口 日本建築学会中国支部研究報告集、第34巻、環境工学408
- JABEE 教育プログラムにおける学習・教育目標の達成度評価に関する一考察 [Not invited]大田 和彦; 藤井 大地; 崔 軍; 市川 尚紀工学・工業教育研究講演会 2010/08 仙台 工学・工業教育研究講演会
- 建築構造力学教育の手法と実践 [Not invited]大田 和彦; 松田 博幸; 藤井 大地; 崔 軍工学・工業教育研究講演会 2005/09 東広島 工学・工業教育研究講演会
- Study on optimal operation of building air-conditioning system Part 3 Energy conservation effect of heat source equipment controlled by inverter [Not invited]崔 軍; 久良知充; 赤司泰義; 渡邊俊行; 住吉大輔; 永延拓也; 神村一幸; 西山紀光空気調和・衛生工学会学術講演会(松江) 2003/09 空気調和・衛生工学会学術講演会(松江)
本文では、実測とシミュレーション両面からインバータ制御の導入効果を検討し、以下の知見を得た。①熱源機器にインバータ制御を導入した場合、ある程度の周波数までは効率が向上するが、必ずしも周波数を落とすほど効率が向上するわけではない。②熱源機器インバータ特性には機器ごとに若干の個体差が見られる。 - Study on optimal operation of building air-conditioning system Part 10 Calculation of the total energy by HVAC simulation [Not invited]崔 軍; 住吉大輔; 赤司泰義; 渡邊俊行; 久良知充; 永延拓也; 神村一幸; 西山紀光日本建築学会2003 年度大会(東海)(春日井) 2003/09 日本建築学会2003 年度大会(東海)(春日井)
シミュレーションを用いて試算した結果、熱源機器と1 次ポンプにインバータ制御を導入することによって蓄熱空調システムで5%、非蓄熱空調システムで20%の効率向上が図れることがわかった。 - Study on optimal operation of building air-conditioning system Part 9 Measurement survey on air-conditioning system with optimal operation with heat source equipment controlled by inverters [Not invited]崔 軍; 久良知充; 赤司泰義; 渡邊俊行; 住吉大輔; 永延拓也; 神村一幸; 西山紀光日本建築学会2003 年度大会(東海)(春日井) 2003/09 日本建築学会2003 年度大会(東海)(春日井)
本文では、蓄熱空調システムと非蓄熱空調システムを対象に実測調査を行い、熱源インバータ制御を用いた最適運用の導入効果を検討した。その結果、蓄熱空調システム、非蓄熱空調システムとも熱源COP、1 次側COP に大きな向上が確認された。 - Study on optimal operation of building air-conditioning system Part 8 Characteristic experiment on property of heat source equipment, pump and fan controlled by inverters [Not invited]崔 軍; 永延拓也; 赤司泰義; 渡邊俊行; 住吉大輔; 久良知充; 神村一幸; 西山紀光日本建築学会2003 年度大会(東海)(春日井) 2003/09 日本建築学会2003 年度大会(東海)(春日井)
本文では、空調システムのシミュレーションを構築するうえで必要とされる詳細な資料を得るため、熱源機器、1 次ポンプ、2 次ポンプ、そして空調機ファンについてインパーク特性実験を行い、その結果を報告した。 - Energy performance analysis of an air-conditioning system with heat pump chillers controlled by inverters [Not invited]崔 軍; 住吉大輔; 赤司泰義; 渡邊俊行; 神村一幸; 西山紀光2003 ACEEE Summer Study on Energy Efficiency in Industry(アメリカ) 2003/07 2003 ACEEE Summer Study on Energy Efficiency in Industry(アメリカ)
実測とシミュレーション両面から、空調システムの熱源インバータ制御による省エネルギー効果を確認した。(英文) - Energy conservation effect by inverter control of heat source equipment under operation of building air.conditioning system Part 9 Calculation of the total energy by HVAC simulation [Not invited]崔 軍; 住吉大輔; 久良知充; 永延拓也; 赤司泰義; 神村一幸; 西山紀光日本建築学会九州支部第42回研究発表会(宜野湾) 2003/03 日本建築学会九州支部第42回研究発表会(宜野湾)
本文では、空調システムシミュレーションを用いて蓄熱・非蓄熱の各システムにおける冷房運転時の熱源インバータ制御効果を試算し、インバータ制御の有効性を確認した。 - Energy conservation effect by inverter control of heat source equipment under operation of building air.conditioning system Part 8 Measurement survey on air-conditioning system with optimal operation with heat source equipment by inverters [Not invited]崔 軍; 久良知充; 住吉大輔; 永延拓也; 赤司泰義; 神村一幸; 西山紀光日本建築学会九州支部第42回研究発表会(宜野湾) 2003/03 日本建築学会九州支部第42回研究発表会(宜野湾)
本文では、蓄熱空調システムと非蓄熱空調システムを対象に実測調査を行い、熱源インバータ制御を用いた最適運用の導入効果を検討した。 - Energy conservation effect by inverter control of heat source equipment under operation of building air-conditioning system Part 7 Characteristic experiment on property of heat source equipment, pump and fan controlled by inverters [Not invited]崔 軍; 永延拓也; 住吉大輔; 久良知充; 赤司泰義; 神村一幸; 西山紀光日本建築学会九州支部第42回研究発表会(宜野湾) 2003/03 日本建築学会九州支部第42回研究発表会(宜野湾)
本文では、確度の高いシミュレーションを構築するうえで必要とされる詳細な資料を得るため、熱源機器、1次ポンプ、2次ポンプ、空調機ファンについてインバータ特性実験を行い、その結果を報告した。 - An indoor temperature and humidity calculation method of multiple.floor office building using the successive state transition method [Not invited]崔 軍; 渡邊俊行; 西山紀光日本建築学会九州支部第42回研究発表会(宜野湾) 2003/03 日本建築学会九州支部第42回研究発表会(宜野湾)
空調システムシミュレーションのため、逐次状態遷移法を利用して多数階建ての事務所ビルについて計算モデルを作成し、計算モデルの概要および計算精度についてを検討した。
Research Themes
- Japan Society for the Promotion of Science:Grants-in-Aid for Scientific ResearchDate (from‐to) : 2013/04 -2017/03Author : ICHIKAWA Takanori; CUI JunThe purpose of this study is development a natural air-conditioning system by solar heat, rainwater and underground heat which a wooden house can adopt in Japan. The characteristic of this study is confirmation the effectiveness of this original system which rainwater save underground heat with ready-made drums. I tested an air conditioner by the rainwater which I cooled by underground heat and warmed by solar heat with a wooden experimental house in summer and winter. I repaired facilities if this system then. As a result, I understood that this system could cool rooms even if it was daytime in midsummer. I was able to grasp it about the time that could heat rooms in winter.
- Japan Society for the Promotion of Science:Grants-in-Aid for Scientific ResearchDate (from‐to) : 2013/04 -2016/03Author : CUI JunThere is a problem that resident's thermal sensation isn't being considered sufficiently in the stage of load calculation with the current air-conditioning load calculation method. To settle this problem, I changed the definition of air-conditioning load, and showed an "air-conditioning load calculation method considering resident's thermal sensation" as new calculation method. Up to now, the validity of this new calculation method was done clearly by several numerical simulations. This research measured input energy of heating panel in different experimental conditions and confirmed the validity of the new load calculation method using measured Input Energy.
- Japan Society for the Promotion of Science:Grants-in-Aid for Scientific ResearchDate (from‐to) : 2007 -2008Author : CUI Jun現行の負荷計算法は、一定の空気温度が維持されたときに壁体などから室内空気への伝達熱量を負荷としているため、負荷と居住者の快適性との関係が設計段階では明確でない。本研究は、居住者の温冷感と負荷との関係を設計段階で定量的に把握できる、新しい空調負荷計算法を提案し、その有効性をシミュレーションにより明らかにした。また、居住者と放射パネルとの距離の違いによる暖房投入熱量の変化についても実験で検討した。
- 居住者の温冷感を考慮した空調負荷計算法に関する研究
- 実験とCFD解析を用いた実大実験住宅の自然エネルギー利用効果に関する研究
- 放射冷暖房システムの快適性・省エネルギー性に関する研究
- 戸建住宅における24時間全館空調システムの有効性に関する研究
- Study on Thermal Energy Storage HVAC System with High Temperature Differentials
- Study on Dynamic Simulation for HVAC System