Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
SOLAR HEAT UNDERGROUND HEAT STORAGE SNOW-MELTING SYSTEM AND ITS CONTROL METHOD
PROBLEM TO BE SOLVED: To provide a new heat storage type snow-melting system technology enabling an installing segment area at an underground heat storage zone to be saved as compared with an area of a target zone to be snow-melted, additionally heat storage efficiency and heat insulation efficiency to be increased and further a remarkable snow melting performance and expenditure saving to be attained.SOLUTION: This invention relates to a solar heat underground heat storage snow-melting system constituted in such a way that an upper heat insulation layer 2 is arranged at a top surface of an underground heat storing zone 1 buried at a prescribed underground depth, an underground heat insulation wall 3 is arranged at a lower circumferential side at the top surface, an underground heat exchanger 6 is arranged at a target snow-melting segment, solar heat collecting plates 7 are installed and at the same time heat radiation circulation passage 80, and a heat collecting circulation passage 81 for the underground heat storage zone 1 and the solar heat collecting plates 7, and the underground heat storage zone 1 and the underground heat exchanger 6 are connected, each of a pump 95 for solar heat collecting plate and a pump 96 for underground heat exchanger is installed at a middle location of the heat radiation circulation passage 80 and additionally, there is provided a control device 90 capable of integrally controlling these pumps 95, 96 for the heat exchanging fluid 4.SELECTED DRAWING: Figure 1
【課題】 融雪対象区画の面積に比較し、地中蓄熱帯の設置区画面積を縮小化して省スペース化可能とする上、蓄熱効率および断熱効率を高め、格段の消雪性能および経費節減を達成できる新たな蓄熱型の融雪システム技術を提供する。【解決手段】 地中所定深さに埋設した地中蓄熱帯1の天面に上部断熱層2、天面下周囲側部に地中断熱壁3を配し、融雪対象区画に地中熱交換器6を敷設し、太陽熱集熱板7を設置すると共に、当該地中蓄熱帯1と太陽熱集熱板7、および、地中蓄熱帯1と地中熱交換器6の各放熱用循環路80および集熱用循環路81を夫々接続し、該放熱用循環路80中途適所に夫々太陽熱集熱板用ポンプ95および地中熱交換器用ポンプ96を設けた上、それら熱交換流体4用ポンプ95,96を統合的に制御可能な制御装置90を設けてなる太陽熱地中蓄熱融雪システムである。【選択図】 図1
SOLAR HEAT UNDERGROUND HEAT STORAGE SNOW-MELTING SYSTEM AND ITS CONTROL METHOD
PROBLEM TO BE SOLVED: To provide a new heat storage type snow-melting system technology enabling an installing segment area at an underground heat storage zone to be saved as compared with an area of a target zone to be snow-melted, additionally heat storage efficiency and heat insulation efficiency to be increased and further a remarkable snow melting performance and expenditure saving to be attained.SOLUTION: This invention relates to a solar heat underground heat storage snow-melting system constituted in such a way that an upper heat insulation layer 2 is arranged at a top surface of an underground heat storing zone 1 buried at a prescribed underground depth, an underground heat insulation wall 3 is arranged at a lower circumferential side at the top surface, an underground heat exchanger 6 is arranged at a target snow-melting segment, solar heat collecting plates 7 are installed and at the same time heat radiation circulation passage 80, and a heat collecting circulation passage 81 for the underground heat storage zone 1 and the solar heat collecting plates 7, and the underground heat storage zone 1 and the underground heat exchanger 6 are connected, each of a pump 95 for solar heat collecting plate and a pump 96 for underground heat exchanger is installed at a middle location of the heat radiation circulation passage 80 and additionally, there is provided a control device 90 capable of integrally controlling these pumps 95, 96 for the heat exchanging fluid 4.SELECTED DRAWING: Figure 1
【課題】 融雪対象区画の面積に比較し、地中蓄熱帯の設置区画面積を縮小化して省スペース化可能とする上、蓄熱効率および断熱効率を高め、格段の消雪性能および経費節減を達成できる新たな蓄熱型の融雪システム技術を提供する。【解決手段】 地中所定深さに埋設した地中蓄熱帯1の天面に上部断熱層2、天面下周囲側部に地中断熱壁3を配し、融雪対象区画に地中熱交換器6を敷設し、太陽熱集熱板7を設置すると共に、当該地中蓄熱帯1と太陽熱集熱板7、および、地中蓄熱帯1と地中熱交換器6の各放熱用循環路80および集熱用循環路81を夫々接続し、該放熱用循環路80中途適所に夫々太陽熱集熱板用ポンプ95および地中熱交換器用ポンプ96を設けた上、それら熱交換流体4用ポンプ95,96を統合的に制御可能な制御装置90を設けてなる太陽熱地中蓄熱融雪システムである。【選択図】 図1
SOLAR HEAT UNDERGROUND HEAT STORAGE SNOW-MELTING SYSTEM AND ITS CONTROL METHOD
太陽熱地中蓄熱融雪システム、およびその制御方法。
INOMATA SENJO (Autor:in) / ABO HIDEKI (Autor:in)
19.01.2017
Patent
Elektronische Ressource
Japanisch
IPC:
E01C
Bau von Straßen, Sportplätzen oder dgl., Decken dafür
,
CONSTRUCTION OF, OR SURFACES FOR, ROADS, SPORTS GROUNDS, OR THE LIKE
/
F24J
/
F24S
Sonnenkollektoren
,
SOLAR HEAT COLLECTORS
/
F28D
Wärmetauscher, soweit in keiner anderen Unterklasse vorgesehen, in denen die Wärmetauschmittel nicht in direkte Berührung miteinander kommen
,
HEAT-EXCHANGE APPARATUS, NOT PROVIDED FOR IN ANOTHER SUBCLASS, IN WHICH THE HEAT-EXCHANGE MEDIA DO NOT COME INTO DIRECT CONTACT
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Snow melting by underground pipes
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