JPH0763378A - Artificial aquifer heat storage system - Google Patents
Artificial aquifer heat storage systemInfo
- Publication number
- JPH0763378A JPH0763378A JP21024293A JP21024293A JPH0763378A JP H0763378 A JPH0763378 A JP H0763378A JP 21024293 A JP21024293 A JP 21024293A JP 21024293 A JP21024293 A JP 21024293A JP H0763378 A JPH0763378 A JP H0763378A
- Authority
- JP
- Japan
- Prior art keywords
- heat
- water
- artificial aquifer
- aquifer
- heat storage
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
Links
Landscapes
- Other Air-Conditioning Systems (AREA)
Abstract
Description
【0001】[0001]
【産業上の利用分野】本発明は、ビル冷暖房や地域冷暖
房などの大規模な蓄熱に使用する人工滞水層蓄熱システ
ムに関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an artificial aquifer heat storage system used for large-scale heat storage such as building cooling and heating and district cooling and heating.
【0002】[0002]
【従来の技術】従来ビル空調用の蓄熱には水などの流体
のみを蓄熱体とするものが大部分であり、ビルの地下室
に鋼製もしくはコンクリート製の蓄熱槽を設置する場合
が殆どである。また、天然の滞水層を利用した蓄熱シス
テムも提案されている。2. Description of the Related Art Conventionally, most of the heat storage for air conditioning of buildings uses only a fluid such as water as a heat storage body, and in most cases, a heat storage tank made of steel or concrete is installed in the basement of the building. . A heat storage system using a natural aquifer has also been proposed.
【0003】[0003]
【発明が解決しようとする課題】従来のビルの地下室に
蓄熱槽を設置し蓄熱体として流体を使用する蓄熱システ
ムにおいては、大容量の蓄熱を行うためには大容量の蓄
熱槽を設置する必要があり、地下室のスペースの関係
上、大容量の蓄熱は事実上不可能であるばかりでなく、
蓄熱槽内での流体の混合により蓄熱効率が低下する。ま
た、天然の滞水層を利用した蓄熱システムは、地下水の
流れを制御できないので実用的な蓄熱システムとは言え
ない。In a conventional heat storage system in which a heat storage tank is installed in a basement of a building and a fluid is used as a heat storage body, it is necessary to install a large capacity heat storage tank in order to store a large amount of heat. And because of the space in the basement, not only is it impossible to store a large amount of heat,
The heat storage efficiency decreases due to the mixing of fluids in the heat storage tank. Further, the heat storage system using a natural aquifer cannot be said to be a practical heat storage system because the flow of groundwater cannot be controlled.
【0004】[0004]
【課題を解決するための手段】本発明は、地下室の直下
に、大規模な人工滞水層を設置することにより、従来シ
ステムの問題点を解決するものであり、大規模建造物の
地下室の直下に、底面および側面を不透水層で囲まれ、
内部に礫を充填した人工滞水層を設置し、該人工滞水層
の一端に水供給用の配管を設け他端に水取出し用の配管
を設けた人工滞水層蓄熱システムにかかるものである。SUMMARY OF THE INVENTION The present invention solves the problems of the conventional system by installing a large-scale artificial aquifer directly under the basement. Immediately below, the bottom and sides are surrounded by an impermeable layer,
An artificial aquifer heat storage system in which an artificial aquifer filled with gravel is installed, and a pipe for supplying water is provided at one end of the artificial aquifer and a pipe for taking out water is provided at the other end. is there.
【0005】本発明の人工滞水層は地下室の直下の地中
に設置されるので、地下室スペースの制約を受けること
なく大型のものとすることができる。本発明の人工滞水
層には礫が空隙率0.38以下、好ましくは0.25以下になる
ように密に充填されており、人工滞水層自体が十分な地
耐力をもつので大型の人工滞水層を設置することで大規
模建造物に悪影響を及ぼすことはなく、充填された礫は
蓄熱体としての役割も果たす。本発明の人工滞水層の底
面および側面は粘土層などの透水係数10-5cm/sec以下
の不透水層で仕切られていて滞水層内の水流を自由に制
御できる。この不透水層の防水が不十分な場合はプラス
チック製の防水シートを併用してもよい。本発明の人工
滞水層の一端には水供給用の配管を設けられ他端には水
取出し用の配管が設けられている。供給された水は充填
された礫の間隙を所謂ダルシー流として流体の乱れが少
なく定常的に他端に向かって流れ、その際、熱の一部は
礫に蓄熱されるので、従来の温度成層型蓄熱槽に比して
蓄熱効率も低下も少なく有効に蓄熱される。Since the artificial aquifer of the present invention is installed in the ground directly below the basement, it can be made large without being restricted by the space of the basement. The artificial aquifer of the present invention is densely packed with gravel so that the porosity is 0.38 or less, preferably 0.25 or less, and the artificial aquifer itself has a sufficient bearing capacity, so a large artificial aquifer. The installation does not adversely affect large-scale buildings, and the filled gravel also serves as a heat storage body. The bottom surface and side surfaces of the artificial aquifer of the present invention are partitioned by an impermeable layer having a hydraulic conductivity of 10 -5 cm / sec or less, such as a clay layer, and the water flow in the aquifer can be freely controlled. When the waterproofness of the impermeable layer is insufficient, a plastic waterproof sheet may be used together. A pipe for supplying water is provided at one end of the artificial aquifer of the present invention, and a pipe for taking out water is provided at the other end. The supplied water flows as a so-called Darcy flow in the gap of the filled gravel toward the other end steadily with little turbulence of the fluid, and at that time, part of the heat is stored in the gravel, so the conventional temperature stratification The heat storage efficiency and deterioration are less than those of the type heat storage tank, and the heat is effectively stored.
【0006】本発明によれば、水により供給された熱は
途中で礫と熱の授受を行いながら人工滞水層の滞留時間
(人工滞水層の長さ/水流速度)後に水取出し用配管に
到達するので、水流速度を調節することにより自由に熱
供給−蓄熱−熱の取出しのサイクルを設定することがで
きる。According to the present invention, the heat supplied by water exchanges heat with the gravel on the way, and after the residence time of the artificial aquifer (length of the artificial aquifer / water flow velocity), a pipe for taking out water. Therefore, it is possible to freely set the cycle of heat supply-heat storage-heat extraction by adjusting the water flow rate.
【0007】また、本発明によれば、人工滞水層の水流
はダルシー流であり流体の乱れが少ないので人工滞水層
を縦方向に分割し、一方に温水を他方に冷水をそれぞれ
流し複数の蓄熱システムを設定することが可能である。Further, according to the present invention, since the water flow in the artificial aquifer is a Darcy flow and there is little turbulence of the fluid, the artificial aquifer is divided in the vertical direction, and hot water is supplied to one side and cold water is supplied to the other side. It is possible to set up a heat storage system.
【0008】[0008]
【実施例】以下図面を参照しながら本発明を説明する。DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described below with reference to the drawings.
【0009】図1は本発明のシステムの1例を示す縦断
面図である。大規模建造物の地下室の直下に人工滞水層
1が設置され、その内部には礫が密に充填されており底
面および側面は粘土層2で防水されている。人工滞水層
1の一次側には水供給管3が配管されその端部には複数
の吹き出しノズルが設けられ、二次側には複数の吸い込
みノズルを持つ水取出し管4が配管されている。人工滞
水層1には熱源7により熱せられた温水が水供給管3よ
り供給され、その温水は滞留時間経過後二次側の水取出
し管4より取り出され循環ポンプ5により空調設備6や
熱需要地8に熱を供給して低温となり再び熱源7に帰る
という循環系を構成している。図示はしてないが空調設
備6や熱需要地8での熱需要がない場合や熱需要が少な
い場合には循環水の全量もしくは一部を空調設備6や熱
需要地8を経由することなく熱源7に循環させる。熱源
7としては通常のようにヒートポンプ、太陽熱、燃焼熱
などが使用される。以上は大規模暖房の場合であるが、
大規模冷房の場合には全く逆になり、冷凍機や空冷など
の冷却源7で冷却された冷水が人工滞水層1に供給さ
れ、空調設備6や冷熱需要地8で熱を奪って高温となり
再び冷却源7に帰るという循環系を構成する。FIG. 1 is a vertical sectional view showing an example of the system of the present invention. An artificial aquifer 1 is installed just below the basement of a large-scale building, the inside of which is densely filled with gravel, and the bottom surface and side surfaces are waterproofed with a clay layer 2. A water supply pipe 3 is provided on the primary side of the artificial aquifer 1, a plurality of blowing nozzles is provided at the end thereof, and a water extraction pipe 4 having a plurality of suction nozzles is provided on the secondary side. . The hot water heated by the heat source 7 is supplied to the artificial aquifer 1 from the water supply pipe 3, and the hot water is taken out from the water take-out pipe 4 on the secondary side after the lapse of the residence time and is circulated by the circulation pump 5 to the air conditioner 6 and the heat source. A circulation system is constructed in which heat is supplied to the demand area 8 to reach a low temperature and returns to the heat source 7 again. Although not shown, when there is no heat demand in the air conditioning equipment 6 or the heat demand area 8 or when there is little heat demand, all or part of the circulating water does not go through the air conditioning equipment 6 or the heat demand area 8. Circulate to the heat source 7. As the heat source 7, a heat pump, solar heat, combustion heat or the like is used as usual. The above is the case of large-scale heating,
In the case of large-scale cooling, the opposite is the case. Cold water cooled by a cooling source 7 such as a refrigerator or air is supplied to the artificial aquifer 1 and heat is taken up by the air conditioning equipment 6 and the cold heat demand area 8 to raise the temperature. Next, the circulation system is configured to return to the cooling source 7 again.
【0010】図2は本発明のシステムを利用する1例と
して深夜電力を使用したヒートポンプにより加熱した温
水を一次側に供給し二次側でその熱により暖房する場合
の入口側と出口側の時間経過に伴う水温変化を示すグラ
フである。深夜にヒートポンプをt1時間運転して温水を
一次側に供給する、人工滞水層1の滞留時間t の経過後
から徐々に高温の温水が取り出せるようになり、t1時間
経過してもなお礫に蓄熱された熱の放出完了までのt2時
間温水が取り出せる。従って、滞留時間t 、運転時間t1
を適正に選定することによって、二次側で補助熱源を使
用しなくても昼間のビル暖房を行うことができる。FIG. 2 shows an example of using the system of the present invention. The time on the inlet side and the outlet side when hot water heated by a heat pump using midnight power is supplied to the primary side and the secondary side heats the heat. It is a graph which shows the water temperature change with progress. At midnight, the heat pump is operated for t 1 hour to supply hot water to the primary side. After the retention time t of the artificial aquifer 1, the hot water gradually becomes hot, and even after t 1 hour has passed. Hot water can be taken out for t 2 hours until the release of the heat accumulated in the gravel is completed. Therefore, the residence time t 1 and the operating time t 1
By properly selecting, the building can be heated in the daytime without using an auxiliary heat source on the secondary side.
【0011】図3は十分に長い滞留時間をとれる場合の
人工滞水層1の一例の平面図である。冬の気温が低く、
冷房負荷の余り掛からない時期に冷水を一次側に供給し
て冷水域10を形成しこの冷水域10が約半年後に二次
側に到達した時から数箇月間この冷水を冷房に利用し、
夏の気温が高く、暖房負荷の余り掛からない時期に温水
を一次側に供給して温水域9を形成し温水域9こが約半
年後に二次側に到達した時から数箇月間この温水を暖房
に利用するシステムである。このようなシステムを採用
できるのは人工滞水層1の水流がダルシー流であり流体
の乱れが少ないので人工滞水層を流れ方向に分割できる
ことに基づく。FIG. 3 is a plan view of an example of the artificial aquifer 1 when a sufficiently long residence time can be obtained. Winter temperatures are low,
Cold water is supplied to the primary side at a time when the cooling load is not too much to form a cold water zone 10, and this cold water is used for cooling for several months after the cold water zone 10 reaches the secondary side after about six months,
Hot water is supplied to the primary side at a time when the summer temperature is high and the heating load is not so high to form a warm water zone 9, and this warm water is supplied for several months from the time when the warm water zone 9 reaches the secondary side after about six months. This is a system used for heating. The reason why such a system can be employed is that the artificial aquifer can be divided in the flow direction because the water flow in the artificial aquifer 1 is a Darcy flow and the turbulence of the fluid is small.
【0012】図4は熱需要地が温熱および冷熱の両方を
必要とする場合の人工滞水層1の1例の平面図である。
この場合は一次側、二次側ともに配管をもう1組増設
し、3、3A、4、4Aを設ける。それぞれの配管の先
の電磁バルブ11を部分的に閉めておく。この例では配
管3−4の系には温水を流し、配管3A−4Aの系には
冷水を流して熱需要地でそれぞれ暖房、冷房に利用す
る。温水域9および冷水域10の大きさは電磁バルブ1
1の開閉により自由に調節することができる。温水域9
と冷水域10との境界には物理的な仕切りはないが、人
工滞水層1の水流の乱れが少なく混合による熱損失が少
ないので、一つの人工滞水層1に温水域9と冷水域10
とを共存させることができる。FIG. 4 is a plan view of an example of the artificial aquifer 1 in the case where the heat demand area requires both hot heat and cold heat.
In this case, add another set of piping on both the primary and secondary sides and install 3, 3A, 4, 4A. The electromagnetic valve 11 at the end of each pipe is partially closed. In this example, hot water is caused to flow in the system of the pipe 3-4, and cold water is caused to flow in the system of the pipes 3A-4A to be used for heating and cooling in heat demand areas, respectively. The sizes of the hot water area 9 and the cold water area 10 are electromagnetic valves 1
It can be freely adjusted by opening and closing 1. Warm water area 9
There is no physical partition between the cold water area 10 and the cold water area 10, but since the water flow in the artificial aquifer 1 is less turbulent and the heat loss due to mixing is less, one artificial aquifer 1 has a warm water area 9 and a cold water area. 10
And can coexist.
【0013】[0013]
(1)ビルの空調や地域冷暖房を対象とした大型の蓄熱
が行える。(1) Large-scale heat storage for building air conditioning and district cooling and heating can be performed.
【0014】(2)人工滞水層は十分な地耐力をもつの
で構造物の一部として考えることができ、大規模建造物
に悪影響を及ぼすことはなく、充填された礫は蓄熱体と
しての役割も果たす。(2) Since the artificial aquifer has sufficient bearing capacity, it can be considered as a part of the structure and does not adversely affect large-scale buildings. The filled gravel serves as a heat storage body. It also plays a role.
【0015】(3)人工滞水層は天然の礫を粘土層の不
透水層に充填した構造であり、安価に構築できる。(3) The artificial aquifer has a structure in which natural gravel is filled in the impermeable layer of the clay layer and can be constructed at low cost.
【0016】(4)人工滞水層には水を流しておくこと
以外には特にメンテナンスの必要がない。(4) No special maintenance is required other than flowing water into the artificial aquifer.
【0017】(5)水流速度の調節により蓄熱時間(熱
供給時間帯との熱取出し時間帯との差)を自由に設定で
きる。(5) The heat storage time (difference between the heat supply time zone and the heat extraction time zone) can be freely set by adjusting the water flow velocity.
【0018】(6)水流を分割することにより一つの人
工滞水層に温度の異なる複数の水流を共存させることが
でき、その複数の水流の蓄熱容量を自由に設定できる。(6) By dividing the water flow, a plurality of water flows having different temperatures can coexist in one artificial aquifer, and the heat storage capacities of the plurality of water flows can be freely set.
【図1】本発明のシステムの1例を示す縦断面図であ
る。FIG. 1 is a vertical sectional view showing an example of a system of the present invention.
【図2】本発明のシステムを利用する1例の深夜電力を
使用したヒートポンプにより加熱した温水を一次側に供
給し二次側でその熱により暖房する場合の入口側と出口
側の時間経過に伴う水温変化を示すグラフである。[Fig. 2] Fig. 2 is a graph showing the elapsed time on the inlet side and the outlet side in the case where hot water heated by a heat pump using midnight power of the system of the present invention is supplied to the primary side and heated by the heat on the secondary side. It is a graph which shows the accompanying change in water temperature.
【図3】十分に長い滞留時間をとれる場合の人工滞水層
の1例の平面図である。FIG. 3 is a plan view of an example of an artificial aquifer when a sufficiently long residence time can be obtained.
【図4】熱需要地が温熱および冷熱の両方を必要とする
場合の人工滞水層の1例の平面図である。FIG. 4 is a plan view of an example of an artificial aquifer when a heat demand area requires both hot and cold heat.
1・・人工滞水層、1A・・礫、2・・粘土層、3・・
水供給管、3A・・水供給管、4・・水取出し管、4A
・・水取出し管、5・・循環ポンプ、6・・空調機、7
・・熱源(冷却源)、8・・熱需要地、9・・温水域、
10・・冷水域、11・・電磁バルブ。1 ・ ・ Artificial aquifer, 1A ・ ・ Gravel, 2 ・ ・ Clay layer, 3 ・ ・
Water supply pipe, 3A ... Water supply pipe, 4 ... Water extraction pipe, 4A
..Water extraction pipes, 5. Circulation pumps, 6. Air conditioners, 7
..Heat sources (cooling sources), 8 .. Heat demand areas, 9 ..
10 ・ ・ Cold water area, 11 ・ ・ Electromagnetic valve.
───────────────────────────────────────────────────── フロントページの続き (72)発明者 戸梶 慎一 東京都調布市飛田給2丁目19番1号 鹿島 建設株式会社技術研究所内 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Shinichi Tokaji 2-19-1 Tobita-Su, Chofu-shi, Tokyo Kashima Construction Co., Ltd.
Claims (1)
よび側面を不透水層で囲まれ、内部に礫を充填した人工
滞水層を設置し、該人工滞水層の一端に水供給用の配管
を設け他端に水取出し用の配管を設けた人工滞水層蓄熱
システム。1. An artificial aquifer, which is surrounded by an impermeable layer on its bottom and sides and is filled with gravel, is installed just below the basement of a large-scale building, and water is supplied to one end of the artificial aquifer. An artificial aquifer heat storage system with a water supply pipe and a water extraction pipe at the other end.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP5210242A JP2684968B2 (en) | 1993-08-25 | 1993-08-25 | Artificial aquifer heat storage system |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP5210242A JP2684968B2 (en) | 1993-08-25 | 1993-08-25 | Artificial aquifer heat storage system |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| JPH0763378A true JPH0763378A (en) | 1995-03-07 |
| JP2684968B2 JP2684968B2 (en) | 1997-12-03 |
Family
ID=16586142
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP5210242A Expired - Lifetime JP2684968B2 (en) | 1993-08-25 | 1993-08-25 | Artificial aquifer heat storage system |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JP2684968B2 (en) |
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JP2014211260A (en) * | 2013-04-18 | 2014-11-13 | 株式会社イゼナ | Heating and cooling system having underground heat storage layer for storing plus heat quantity and minus heat quantity |
| JP2021001462A (en) * | 2019-06-20 | 2021-01-07 | 三井住友建設株式会社 | Heat insulation structure of heat storage tank |
Citations (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JPH05118589A (en) * | 1991-10-31 | 1993-05-14 | Toda Constr Co Ltd | Underground heat accumulating tank |
-
1993
- 1993-08-25 JP JP5210242A patent/JP2684968B2/en not_active Expired - Lifetime
Patent Citations (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JPH05118589A (en) * | 1991-10-31 | 1993-05-14 | Toda Constr Co Ltd | Underground heat accumulating tank |
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JP2014211260A (en) * | 2013-04-18 | 2014-11-13 | 株式会社イゼナ | Heating and cooling system having underground heat storage layer for storing plus heat quantity and minus heat quantity |
| JP2021001462A (en) * | 2019-06-20 | 2021-01-07 | 三井住友建設株式会社 | Heat insulation structure of heat storage tank |
Also Published As
| Publication number | Publication date |
|---|---|
| JP2684968B2 (en) | 1997-12-03 |
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