JPS6057192A - Wet/dry cooling tower - Google Patents
Wet/dry cooling towerInfo
- Publication number
- JPS6057192A JPS6057192A JP58163304A JP16330483A JPS6057192A JP S6057192 A JPS6057192 A JP S6057192A JP 58163304 A JP58163304 A JP 58163304A JP 16330483 A JP16330483 A JP 16330483A JP S6057192 A JPS6057192 A JP S6057192A
- Authority
- JP
- Japan
- Prior art keywords
- cooling
- dry
- section
- cells
- wet
- 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
Classifications
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F28—HEAT EXCHANGE IN GENERAL
- F28C—HEAT-EXCHANGE APPARATUS, NOT PROVIDED FOR IN ANOTHER SUBCLASS, IN WHICH THE HEAT-EXCHANGE MEDIA COME INTO DIRECT CONTACT WITHOUT CHEMICAL INTERACTION
- F28C1/00—Direct-contact trickle coolers, e.g. cooling towers
- F28C1/14—Direct-contact trickle coolers, e.g. cooling towers comprising also a non-direct contact heat exchange
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02B—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
- Y02B30/00—Energy efficient heating, ventilation or air conditioning [HVAC]
- Y02B30/70—Efficient control or regulation technologies, e.g. for control of refrigerant flow, motor or heating
Landscapes
- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Heat-Exchange Devices With Radiators And Conduit Assemblies (AREA)
Abstract
Description
【発明の詳細な説明】
この発明は、乾式冷却部と湿式冷却部を有し、被処理温
水を外部空気によって冷却する乾・湿式冷水塔に係り、
特に両冷却部のうちの乾式冷却部を改良したものに関す
る。DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a dry/wet cooling tower that has a dry cooling section and a wet cooling section and cools treated hot water using external air.
In particular, it relates to an improved dry cooling section of both cooling sections.
冷水塔は、石油化学工場、石油精製所、製鉄所、火力発
電所、地熱発電所などにおいて生ずる渇水の冷却システ
ムとして広く採用されている。Cooling towers are widely used as cooling systems for water shortages that occur in petrochemical plants, oil refineries, steel mills, thermal power plants, geothermal power plants, and the like.
第1図は白煙化の防止対策を施した一般的な冷却システ
ムの構造を示したものである。これを簡単に説明すると
、被処理温水と外部空気とを直接熱交換させて被処理温
水を冷却する湿式冷却部1の上部に乾式冷却部2を設け
、彼処J’l! ’lIJ+水を乾式冷却部2を通した
のち、湿式冷却部1を通す乾・湿式構造となっている。Figure 1 shows the structure of a general cooling system that takes measures to prevent white smoke formation. To explain this simply, a dry cooling section 2 is provided above a wet cooling section 1 that cools the hot water to be treated by direct heat exchange between the hot water to be treated and external air. It has a dry/wet structure in which water passes through a dry cooling section 2 and then passes through a wet cooling section 1.
′1J−1,7ねIう、湿式冷却部1へ供給される被処
理渇水は、一旦、乾式冷lJI部2にて冷却されるため
外気との温度差が少なく<rす、白煙化が生じにくく、
J:た、白煙が生じてし乾式冷却部で加熱された乾き空
気どの混合により、湿り空気が過飽和域から非飽和酸二
1、で下げられるため、白煙化が防11ニされる。1J-1, 7 The dry water to be treated supplied to the wet cooling section 1 is first cooled in the dry cooling section 2, so the temperature difference with the outside air is small and white smoke is generated. is less likely to occur,
J: Also, when white smoke is generated, by mixing the dry air heated in the dry cooling section, the humid air is lowered from the supersaturated region with unsaturated acid, thereby preventing white smoke from forming.
ところで、湿式冷N1部1は例えば塩化ビニール製の充
填物などの充填層や、材木を組み上げたものなどで形成
されるため強度上丈夫でなく、一方、乾式冷却部2は多
数のフィンイ(1き伝熱管で構成されるためその重用が
重く、これを直接湿式冷却部1上に支持させることがで
きない。したがって、強度上乾式冷却部2を支持するた
めの支持構造体を必要とするが、このような支持構造体
を設りることは非常に不経済であり、設計上の困難を伴
なう。また、湿式冷却部1の上部に乾式冷却部2を設置
するため必然的に塔高が高くなるという欠点がある。By the way, the wet cooling N1 section 1 is not strong in terms of strength because it is formed of a filling layer such as a vinyl chloride filling or assembled timber.On the other hand, the dry cooling section 2 has a large number of fins (1 Since it is composed of heat exchanger tubes, it is heavy and cannot be directly supported on the wet cooling section 1. Therefore, a support structure is required to support the dry cooling section 2 for strength reasons. Providing such a support structure is very uneconomical and involves design difficulties.In addition, since the dry cooling section 2 is installed above the wet cooling section 1, the height of the tower is inevitably increased. The disadvantage is that it is expensive.
そこで、このような欠点を解消するため、従来は、在来
の湿式冷却塔のケーシング部に乾式冷却部を設けたもの
が提案されている。1−なわち、第2図に示す如く、湿
式冷却部3を設けた側壁とは異なる他の側壁に乾式冷却
部4を設けて、湿式冷却部3に流入する空気流aと乾式
冷却部4に流入する空気流りどが交叉するように冷却セ
ル5を形成し、この冷却セル5を複数台設置する場合、
上記乾式冷却部を設【ノた側の側壁を背中合わけにして
配列したものである。これにより、重量の大きい乾式冷
却部4を直接塔基礎面に置けるため全体の構造が簡略化
でき、また塔高も低くできるようにしたものである。In order to overcome these drawbacks, conventional wet cooling towers have been proposed in which a dry cooling section is provided in the casing section. 1- That is, as shown in FIG. 2, a dry cooling section 4 is provided on a side wall different from the side wall on which the wet cooling section 3 is provided, and the air flow a flowing into the wet cooling section 3 and the dry cooling section 4 are When the cooling cells 5 are formed so that the air flows flowing into the cooling cells 5 intersect with each other, and a plurality of cooling cells 5 are installed,
The above-mentioned dry cooling section is arranged with the side walls on the nozzle side separated back to back. As a result, the heavy dry cooling section 4 can be placed directly on the tower foundation surface, thereby simplifying the overall structure and making it possible to reduce the height of the tower.
ところが、冷却レル5を複数台設置する場合、1−記乾
式冷7J1部4を設(′)だ側の側り?をf11中含;
1′) lに【ノて配列するのであるが、乾式冷IJI
部4への空気の流入を良好に゛するため、第2図及び第
3図に示す如くそれぞれの冷却セル[うの間に空間を必
゛ルどし、据イ]1面積が人ぎくなるという問題があっ
た。殊に外気流が、塔の配列方向に平行な場合、各塔間
にはさまれ1.:乾式冷却部の外気吸引力は著しく低下
し、乾式部冷IJ+能力が低下するため、多数廿ルに適
用りる上で問題があった。However, when installing multiple cooling rails 5, 1-the side where the dry cooling 7J1 part 4 is installed (')? Contains in f11;
1') Dry cold IJI
In order to improve the inflow of air into the section 4, the area of each cooling cell [with a space between them] becomes crowded as shown in Figs. 2 and 3. There was a problem. Especially when the outside air flow is parallel to the direction in which the columns are arranged, it is sandwiched between each column.1. : The outside air suction force of the dry cooling section is significantly reduced, and the dry section cooling IJ+ capacity is reduced, so there is a problem in applying it to many buildings.
この発明は」二連した従来の問題点に鑑みてなされたも
のであり、その[1的は低い塔高及びエバの簡略構造を
維持しつつ、据イ(目づ面積を有効に減少することがで
きる乾・湿式冷水塔を1;7ることである。This invention was made in view of two problems in the prior art, and the first is to effectively reduce the tower area while maintaining a low tower height and a simple structure of the tower. The goal is to create a dry/wet cooling tower that can do 1;7.
上記目的を達成するために、この発明は、湿式冷却部と
乾式冷却部とに吸引される各空気流が交叉するように両
冷却部を界なる側壁に配量した冷水レルを、ぞの乾式冷
却部を配置しi=側の側4[を仕切壁として複数配列し
た乾・湿式冷水塔において、」−記名セルを仕切壁に沿
ってずらして配列し、ずらすことにより顕われる各冷水
セルの側壁に上記乾式冷却部を設りたことを特徴とする
。これにより冷7Jlレル間に空間を必要どしない状態
で複数セルを設問できるようにし、据付は面積が増大し
イすいJ:うにしたものである。In order to achieve the above object, the present invention provides a dry type cooling system with a cold water rail distributed on the side wall that separates the wet type cooling unit and the dry type cooling unit so that the air flows sucked into the wet type cooling unit and the dry type cooling unit intersect. In a dry/wet type cooling water tower in which a plurality of cooling units are arranged and side 4 on the i= side is arranged as a partition wall, the "-registered cells are arranged in a staggered manner along the partition wall, and each cold water cell that appears by shifting is It is characterized in that the above-mentioned dry cooling section is provided on the side wall. This makes it possible to interrogate a plurality of cells without requiring space between cold 7Jl rails, making installation easier as the area increases.
以下、この発明に係る乾・湿式冷水塔の好適一実施例を
添f1図面に従って説明する。Hereinafter, a preferred embodiment of the dry/wet type water cooling tower according to the present invention will be described with reference to the attached drawing f1.
第4図に示す如く、6は冷却セルで、被処理渇水と外部
空気とを直接熱交換させて被処理温水を冷却する湿式冷
却部7と、被処理温水と外部空気とを間接熱交換させて
彼処pI′!渇水を冷ム1する乾式冷却部8と、セル6
内に外部空気を導入するための送風機9と、これらを収
納するケーシングとから成る。As shown in FIG. 4, reference numeral 6 denotes a cooling cell, which includes a wet cooling section 7 that cools the hot water to be treated by direct heat exchange between the dry water to be treated and external air, and an indirect heat exchanger between the hot water to be treated and the external air. It's pI'! A dry cooling unit 8 that cools drought water 1 and a cell 6
It consists of a blower 9 for introducing external air into the air blower, and a casing that houses them.
冷)、1]セル6は、ぞのケーシングの一側を仕切壁1
0とし、この仕切壁10に沿って隣接する冷却レル6を
順次同方向にずらして複数配列することにより、冷水塔
を形成する。Cold), 1] The cell 6 has one side of the casing separated by the partition wall 1.
0, and by arranging a plurality of adjacent cooling rails 6 along the partition wall 10 while sequentially shifting them in the same direction, a cold water tower is formed.
このように順次ずらしで配列した各冷却セル6の湿式冷
却部7は、仕切壁10とは異なる他の対向側壁にそれぞ
れ配設する。この湿式冷入り部7は、5−
第5図に詳しく示J”如く、給水lff11ど、IXX
XX化ビニール充填物などを充填して或いは材木を格子
状、千鳥状に組み−にげて形成1ノだ気液接触部12及
び冷7.rIt?ル6底部の全面に段()た冷水槽13
とからなる。The wet cooling units 7 of the cooling cells 6 arranged in such a sequentially staggered manner are arranged on opposite side walls different from the partition wall 10, respectively. This wet type cooling entry section 7 includes water supply lff11, IXX, etc., as shown in detail in Figure 5.
Formed by filling with XX vinyl filler or by assembling lumber in a lattice or zigzag pattern. rIt? Cold water tank 13 stepped on the entire bottom of the room 6
It consists of
一方、各冷7Jルル6の乾式冷Ju1部8は、これど湿
式冷却部7どに流入1する各空気流a 、 bが交叉寸
べく、冷却レル6をずら覆ことにより顕われるケーシン
グの側壁14に、湿式冷7J1部7の気液接触部12と
重ならないように配置Jる。このようにして、各冷却セ
ル6には、第4図に示す如く、送風IjlI9を中心と
しに点対称の対向側壁位回に一対の乾式冷2J1部8.
8が配置されることにlzる。On the other hand, the dry cooling Ju1 section 8 of each cold cooling section 7 has a side wall of the casing that is revealed by shifting the cooling rail 6 so that the air flows a and b flowing into the wet cooling section 7 cross each other. 14, so as not to overlap with the gas-liquid contact portion 12 of the wet cooling 7J1 section 7. In this way, as shown in FIG. 4, each cooling cell 6 has a pair of dry cooling 2J1 parts 8.
I'm surprised that 8 is placed.
この乾式冷却部8は第5図に示ザ如く、フィン付き伝熱
管15を多数本並べかつ図示のように下方から1一方に
向【−Jで外ノJに111斜して形成する。As shown in FIG. 5, this dry cooling section 8 is formed by arranging a large number of finned heat exchanger tubes 15 and slanting 111 toward the outside J from below as shown.
乾式冷却部8の下方の地中には温水ヘッダ16が設置ノ
られている。ヘッダ16には被処理ft+A水を図示し
ないプラントから供給する供給管2;5が接続され、ヘ
ッダ16から各乾式冷7J1部8に被処理6一
渇水を供給する第1主情17が接続され、第1+管17
は傾設された乾式冷却部8の下部に配設した下部ヘッダ
18に接続される。傾設置ノだ各フィン(1伝熱管15
の上部には上部ヘッダ19が設けられ、これら上部ヘッ
ダ19から第2主管20が接続され、隣接する各湿式冷
却部7の給水槽11にバルブ21を介しで接続される。A hot water header 16 is installed underground below the dry cooling section 8. A supply pipe 2; 5 for supplying ft+A water to be treated from a plant (not shown) is connected to the header 16, and a first main pipe 17 for supplying water to be treated 61 to each dry cooling 7J1 section 8 from the header 16 is connected. , 1st + tube 17
is connected to a lower header 18 disposed at the bottom of the tilted dry cooling section 8. Each fin (1 heat exchanger tube 15
An upper header 19 is provided at the upper part of the cooling unit 10 , and a second main pipe 20 is connected from the upper header 19 to the water tank 11 of each adjacent wet cooling unit 7 via a valve 21 .
6冷)」セル6の湿式冷却部7及び乾式冷却部8間の、
に1部ケーシングにはファンスタック22が設(プられ
ている。6 cold)” between the wet cooling section 7 and the dry cooling section 8 of the cell 6,
A fan stack 22 is installed in one part of the casing.
尚、第5図中26は湿式冷却部7の出口側ダンパ、27
は乾式冷却部8の出口側ダンパ、28は冷水槽に接続し
た冷水管である。In addition, 26 in FIG. 5 is a damper on the outlet side of the wet cooling section 7, and 27
28 is a damper on the outlet side of the dry cooling unit 8, and 28 is a cold water pipe connected to a cold water tank.
以上の構成よりなるこの実施例の作用について)ホベる
。(About the operation of this embodiment with the above configuration)
送風機9により外部空気が湿式冷却部7を通して、また
乾式冷却部8を通して各冷却セルG内に矢印8.1〕で
示したにうに交叉する如く流入する。A blower 9 causes external air to flow through the wet cooling section 7 and through the dry cooling section 8 into each cooling cell G in a crossing manner as indicated by arrows 8.1.
乾式冷却部8に流入する空気流すは、冷却セル6を仕切
壁10に沿ってずらしであるため、隣接する冷7.1ル
ル6tこ鴻られることがなく、M代冷)41部7に流入
する空気流aとぞの吊に、1ノい(遜色が<7い。The air flowing into the dry cooling section 8 is caused by shifting the cooling cells 6 along the partition wall 10, so that the air flowing into the dry cooling section 8 does not flow into the adjacent cooling section 7. The air flow is 1 no higher than the air flow a and the other (less than 7 no).
一方、プラン1〜などの彼処]!I!温水が供給管25
から温水ヘッダ1Gを介して乾式冷7J1部8に流れて
揚水され、乾式冷7J1部8から第2」−管20を介し
て湿式冷却部7の給水槽11に供給され、給水槽11か
ら気液接触部12内を流下する。乾式冷却部8を通る外
部空気は、乾式冷却部8の伝熱管15を通る被処理渇水
を冷却し、加熱された乾き空気として、また湿式冷却部
7の気液接触部12を通る外部空気は乾式冷却部8で冷
i11された被処理温水と直接熱交換して被処理渇水を
冷却し、湿り空気として冷7Jlセル6内に流入し、セ
ル6内で乾き空気と混合されてファンスタック22h日
ら拮気される。これらの一連の作用が6冷7Jl tル
6C並列して行なわれ、もって冷水塔全体として被処理
温水の冷却が行なわれる。On the other hand, Plan 1~ etc.]! I! Hot water supply pipe 25
The water flows from the hot water header 1G to the dry cooling 7J1 section 8 and is pumped up. From the dry cooling 7J1 section 8, it is supplied to the water tank 11 of the wet cooling section 7 via the second pipe 20, and from the water tank 11 air is pumped. It flows down inside the liquid contact part 12. The external air passing through the dry cooling section 8 cools the dry water to be treated passing through the heat transfer tube 15 of the dry cooling section 8 as heated dry air, and the external air passing through the gas-liquid contact section 12 of the wet cooling section 7 The drought water to be treated is cooled by direct heat exchange with the hot water to be treated that has been cooled in the dry cooling unit 8, and flows into the cold 7Jl cell 6 as moist air, where it is mixed with dry air and sent to the fan stack 22h. The day is filled with antagonism. A series of these actions are performed in parallel in 6 cold water towers, 7 Jliters, and 6C, thereby cooling the hot water to be treated as a whole in the cooling water tower.
この場合、乾式冷却部8が冷水セル6の隣り合う仕切壁
10にFii’、置されでいないので、複数の冷7JI
セル6を隙間なく配列することができ、冷水塔全体の
据付【j面積を大幅に小さくすることができる。また、
乾式冷却部8は冷ノ」セル6をずらすことにより顕われ
る側壁14に配置されているため、設置が簡11.1で
あり、かつ乾式冷却部8への空気の流入を遮るものがな
いため、その流入を十分良好なものとすることができ、
湿り空気を過飽和から非飽和に下げるに十分な乾き空気
を供給することが可能となる。In this case, since the dry cooling unit 8 is not placed on the partition wall 10 adjacent to the cold water cell 6, multiple cold 7JI
The cells 6 can be arranged without gaps, and the installation area of the entire cooling tower can be significantly reduced. Also,
Since the dry cooling section 8 is arranged on the side wall 14 that is exposed by shifting the cold cell 6, installation is easy 11.1, and there is nothing blocking the inflow of air into the dry cooling section 8. , the inflow can be made sufficiently good,
It becomes possible to supply enough dry air to reduce humid air from supersaturated to unsaturated.
なお、上)」(の実施例では冷却セル6を順次同方向に
ずらして階段状の冷水塔を形成する例を示したが、この
発明はこれに限定されるものでなく、冷却セル6を異方
向にずらしてジグザグ状の冷水塔を形成するようにして
も良く、この場合乾式冷却部8は対向位置に設置)られ
ることになる。また、冷却セル6をそれ自体独立のもの
としたが、複数の冷却セル6を一体的に形成して冷水塔
を構成することもでき、その場合仕切壁10が共通に使
用できるので、さらに構造の簡略化ができる。In addition, in the embodiment of "Above)", an example was shown in which the cooling cells 6 are sequentially shifted in the same direction to form a stepped cooling water tower, but the present invention is not limited to this. A zigzag-shaped cooling tower may be formed by shifting in different directions, and in this case, the dry cooling units 8 will be installed at opposing positions. Furthermore, although the cooling cell 6 is made independent, a plurality of cooling cells 6 may be integrally formed to form a cooling tower. In this case, the partition wall 10 can be used in common, so that the structure can be simplified.
以上要するにこの発明によれば次のような優れ9− た効果を発揮Jる。In summary, according to this invention, the following advantages 9- It has a great effect.
(1) 各セルを仕切壁に沿って・j゛らして配列lノ
、ずらずことにより顕われる各冷水[11)の側壁に乾
式冷却部を設【」るという簡単<1構造て・、隣接する
側壁に乾式冷JJ1部を設()Iこ冷7J′lI?ルを
一列に配列した従来のしのに比し−C,冷7JIセル間
を密着することができ、据イ:F G″JJ而稙幅に減
少Jることができる。(1) A simple structure in which a dry cooling section is installed on the side wall of each cold water that appears by arranging each cell in a staggered manner along the partition wall. Dry cooling JJ1 section is installed on the adjacent side wall ()I Koi 7J'lI? Compared to the conventional cell arrangement in which cells are arranged in a row, it is possible to make close contact between the cells, and the width can be reduced to 100%.
(2) また、レルをずらlノて顕われた側壁に乾式冷
却部を設りたことにJ、す、冷ノJIt?ル間を密着し
ても乾式冷却部への空気の流入が良好で、十分な空気を
何「保りることがて・きる。(2) Also, a dry cooling section was installed on the side wall that was revealed by shifting the rail. Air flows into the dry cooling section well even if the walls are closely spaced, and a sufficient amount of air can be maintained.
(3) 重量の大きい乾式冷却部をi+’j接地十に1
fflJるため全体の構造が簡略化さ41、か′)1ハ
高し低くすることができる。(3) Ground the heavy dry cooling section to i+'j 1/10
Because of this, the overall structure is simplified and can be made higher and lower.
第1図及び第2図は従来の乾・湿式冷水塔を示1斜視図
、第3図は第2図の平面図、第4図はこの発明の乾・湿
式冷水塔に係る好適一実施例を示す平面図、第5図は第
4図のv−v線矢 10−
視拡大図である。
尚、図中6は冷IJ1t?ル、7は湿式冷却部、8は乾
式冷M1部、10は仕切壁、14はずらすことにより顕
われる側壁、aは湿式冷却部に流入する空気流、1)は
乾式冷却部に流入する空気流である。
特許出願人 石川島播磨重工業株式会社代理人弁理士
絹 谷 信 雄
11−
第1図1 and 2 are perspective views of conventional dry/wet cooling towers, FIG. 3 is a plan view of FIG. 2, and FIG. 4 is a preferred embodiment of the dry/wet cooling tower of the present invention. FIG. 5 is an enlarged view taken along the v-v line arrow 10- in FIG. 4. In addition, 6 in the figure is cold IJ1t? 7 is the wet cooling section, 8 is the dry cooling M1 section, 10 is the partition wall, 14 is the side wall revealed by shifting, a is the air flow flowing into the wet cooling section, 1) is the air flowing into the dry cooling section It is a flow. Patent applicant: Patent attorney representing Ishikawajima-Harima Heavy Industries Co., Ltd.
Nobuo Kinutani 11- Figure 1
Claims (1)
叉するJ:うに両冷却部を異なる側壁に配置した冷水レ
ルを、その乾式冷却部を配置した側の側壁を仕切壁とし
て複数配列した乾・湿式冷水n1にJ貴)で、上記′8
1?ルを仕切41?に沿ってずら【ノで配列し、ずらづ
ことにJζり顕、1つれる各冷水レルの側壁に上記乾式
冷741部を設(Jたことを特徴とする乾・湿式冷水塔
。[Scope of Claims] The air flows flowing into the wet cooling section and the dry cooling section 7J1 intersect. The above '8
1? Partition 41? A dry/wet type cooling water tower characterized in that the dry cooling section is arranged on the side wall of each chilled water rail in a staggered manner.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP58163304A JPS6057192A (en) | 1983-09-07 | 1983-09-07 | Wet/dry cooling tower |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP58163304A JPS6057192A (en) | 1983-09-07 | 1983-09-07 | Wet/dry cooling tower |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| JPS6057192A true JPS6057192A (en) | 1985-04-02 |
| JPH041271B2 JPH041271B2 (en) | 1992-01-10 |
Family
ID=15771277
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP58163304A Granted JPS6057192A (en) | 1983-09-07 | 1983-09-07 | Wet/dry cooling tower |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JPS6057192A (en) |
Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| EP1314945A2 (en) * | 2001-11-27 | 2003-05-28 | Balcke GmbH | Arrangement of hybrid cooling towers |
| KR100769317B1 (en) | 2007-04-05 | 2007-10-24 | 주식회사 성지공조기술 | The cooling tower which uses a wall by casing |
| JP2018515740A (en) * | 2015-03-02 | 2018-06-14 | エコ−ロジカル・エンタープライジーズ・ベスローテン・フェンノートシャップEco−Logical Enterprises B.V. | Enthalpy exchanger |
-
1983
- 1983-09-07 JP JP58163304A patent/JPS6057192A/en active Granted
Cited By (5)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| EP1314945A2 (en) * | 2001-11-27 | 2003-05-28 | Balcke GmbH | Arrangement of hybrid cooling towers |
| EP1314945A3 (en) * | 2001-11-27 | 2005-08-17 | Balcke GmbH | Arrangement of hybrid cooling towers |
| KR100769317B1 (en) | 2007-04-05 | 2007-10-24 | 주식회사 성지공조기술 | The cooling tower which uses a wall by casing |
| JP2018515740A (en) * | 2015-03-02 | 2018-06-14 | エコ−ロジカル・エンタープライジーズ・ベスローテン・フェンノートシャップEco−Logical Enterprises B.V. | Enthalpy exchanger |
| US10808716B2 (en) | 2015-03-02 | 2020-10-20 | Eco-Logical Enterprises B.V. | Enthalpy exchanger |
Also Published As
| Publication number | Publication date |
|---|---|
| JPH041271B2 (en) | 1992-01-10 |
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