An experimental study on an induction enhanced flow cooling tower

Yew Khoy Chuah; Hong Jun Zheng

An experimental study on an induction enhanced flow cooling tower

Yew Khoy Chuah^*
, Hong Jun Zheng

^*Corresponding author for this work

National Taipei University of Technology

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

Cooling towers set up in rows often result in insufficient separation, and short circuit flow of wet air can cause lower performance of cooling tower. However these methods of mist prevention are often costly in equipment or energy. This study set up a full scale cooling tower experiment to test the effects of using velocity recovery (VR) stack and an innovative flow induction design. Openings at around the fan inlet were used to induce wet air directly to the fan inlet. This flow induction was to reduce the wet air return and to prevent excess mist formation. It was found that opening ratio of 0.95% had good effects compared to the original design. The use of VR stack was found to increase the flow by 7.5%, reduce the wet air return by 22.1%, and also increase the capacity by 4.6%. The combination of VR stack and induction opening can reduce the wet air return by 67.7% and increase the capacity by 6.6%. Flow visualization supported by psychrometric analysis showed that humidity at the tower outlet decreased after mixing with the induction flow. The deviation from saturation point has the effects of mist prevention, and proved the effectiveness of this innovative design.

Original language	English
Title of host publication	5th Asian Conference on Refrigeration and Air Conditioning, ACRA 2010 - Green Breeze from Asia
Subtitle of host publication	Frontiers of Refrigerants, Heat Transfer and System
Publisher	Japan Society of Refrigeration and Air Conditioning Engineering (JSRAE)
ISBN (Electronic)	9781634391252
State	Published - 2010
Externally published	Yes
Event	5th Asian Conference on Refrigeration and Air Conditioning - Green Breeze from Asia: Frontiers of Refrigerants, Heat Transfer and System, ACRA 2010 - Tokyo, Japan Duration: 07 06 2010 → 09 06 2010

Publication series

Name	5th Asian Conference on Refrigeration and Air Conditioning, ACRA 2010 - Green Breeze from Asia: Frontiers of Refrigerants, Heat Transfer and System

Conference

Conference	5th Asian Conference on Refrigeration and Air Conditioning - Green Breeze from Asia: Frontiers of Refrigerants, Heat Transfer and System, ACRA 2010
Country/Territory	Japan
City	Tokyo
Period	07/06/10 → 09/06/10

Bibliographical note

Publisher Copyright:
Copyright © 2010 by the Japan Society of Refrigeration and Air Conditioning Engineering (JSRAE).

Cite this

Chuah, Y. K., & Zheng, H. J. (2010). An experimental study on an induction enhanced flow cooling tower. In 5th Asian Conference on Refrigeration and Air Conditioning, ACRA 2010 - Green Breeze from Asia: Frontiers of Refrigerants, Heat Transfer and System (5th Asian Conference on Refrigeration and Air Conditioning, ACRA 2010 - Green Breeze from Asia: Frontiers of Refrigerants, Heat Transfer and System). Japan Society of Refrigeration and Air Conditioning Engineering (JSRAE).

Chuah, Yew Khoy ; Zheng, Hong Jun. / An experimental study on an induction enhanced flow cooling tower. 5th Asian Conference on Refrigeration and Air Conditioning, ACRA 2010 - Green Breeze from Asia: Frontiers of Refrigerants, Heat Transfer and System. Japan Society of Refrigeration and Air Conditioning Engineering (JSRAE), 2010. (5th Asian Conference on Refrigeration and Air Conditioning, ACRA 2010 - Green Breeze from Asia: Frontiers of Refrigerants, Heat Transfer and System).

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title = "An experimental study on an induction enhanced flow cooling tower",

abstract = "Cooling towers set up in rows often result in insufficient separation, and short circuit flow of wet air can cause lower performance of cooling tower. However these methods of mist prevention are often costly in equipment or energy. This study set up a full scale cooling tower experiment to test the effects of using velocity recovery (VR) stack and an innovative flow induction design. Openings at around the fan inlet were used to induce wet air directly to the fan inlet. This flow induction was to reduce the wet air return and to prevent excess mist formation. It was found that opening ratio of 0.95\% had good effects compared to the original design. The use of VR stack was found to increase the flow by 7.5\%, reduce the wet air return by 22.1\%, and also increase the capacity by 4.6\%. The combination of VR stack and induction opening can reduce the wet air return by 67.7\% and increase the capacity by 6.6\%. Flow visualization supported by psychrometric analysis showed that humidity at the tower outlet decreased after mixing with the induction flow. The deviation from saturation point has the effects of mist prevention, and proved the effectiveness of this innovative design.",

author = "Chuah, \{Yew Khoy\} and Zheng, \{Hong Jun\}",

note = "Publisher Copyright: Copyright {\textcopyright} 2010 by the Japan Society of Refrigeration and Air Conditioning Engineering (JSRAE).; 5th Asian Conference on Refrigeration and Air Conditioning - Green Breeze from Asia: Frontiers of Refrigerants, Heat Transfer and System, ACRA 2010 ; Conference date: 07-06-2010 Through 09-06-2010",

year = "2010",

language = "英语",

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Chuah, YK & Zheng, HJ 2010, An experimental study on an induction enhanced flow cooling tower. in 5th Asian Conference on Refrigeration and Air Conditioning, ACRA 2010 - Green Breeze from Asia: Frontiers of Refrigerants, Heat Transfer and System. 5th Asian Conference on Refrigeration and Air Conditioning, ACRA 2010 - Green Breeze from Asia: Frontiers of Refrigerants, Heat Transfer and System, Japan Society of Refrigeration and Air Conditioning Engineering (JSRAE), 5th Asian Conference on Refrigeration and Air Conditioning - Green Breeze from Asia: Frontiers of Refrigerants, Heat Transfer and System, ACRA 2010, Tokyo, Japan, 07/06/10.

An experimental study on an induction enhanced flow cooling tower. / Chuah, Yew Khoy; Zheng, Hong Jun.
5th Asian Conference on Refrigeration and Air Conditioning, ACRA 2010 - Green Breeze from Asia: Frontiers of Refrigerants, Heat Transfer and System. Japan Society of Refrigeration and Air Conditioning Engineering (JSRAE), 2010. (5th Asian Conference on Refrigeration and Air Conditioning, ACRA 2010 - Green Breeze from Asia: Frontiers of Refrigerants, Heat Transfer and System).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - An experimental study on an induction enhanced flow cooling tower

AU - Chuah, Yew Khoy

AU - Zheng, Hong Jun

PY - 2010

Y1 - 2010

N2 - Cooling towers set up in rows often result in insufficient separation, and short circuit flow of wet air can cause lower performance of cooling tower. However these methods of mist prevention are often costly in equipment or energy. This study set up a full scale cooling tower experiment to test the effects of using velocity recovery (VR) stack and an innovative flow induction design. Openings at around the fan inlet were used to induce wet air directly to the fan inlet. This flow induction was to reduce the wet air return and to prevent excess mist formation. It was found that opening ratio of 0.95% had good effects compared to the original design. The use of VR stack was found to increase the flow by 7.5%, reduce the wet air return by 22.1%, and also increase the capacity by 4.6%. The combination of VR stack and induction opening can reduce the wet air return by 67.7% and increase the capacity by 6.6%. Flow visualization supported by psychrometric analysis showed that humidity at the tower outlet decreased after mixing with the induction flow. The deviation from saturation point has the effects of mist prevention, and proved the effectiveness of this innovative design.

AB - Cooling towers set up in rows often result in insufficient separation, and short circuit flow of wet air can cause lower performance of cooling tower. However these methods of mist prevention are often costly in equipment or energy. This study set up a full scale cooling tower experiment to test the effects of using velocity recovery (VR) stack and an innovative flow induction design. Openings at around the fan inlet were used to induce wet air directly to the fan inlet. This flow induction was to reduce the wet air return and to prevent excess mist formation. It was found that opening ratio of 0.95% had good effects compared to the original design. The use of VR stack was found to increase the flow by 7.5%, reduce the wet air return by 22.1%, and also increase the capacity by 4.6%. The combination of VR stack and induction opening can reduce the wet air return by 67.7% and increase the capacity by 6.6%. Flow visualization supported by psychrometric analysis showed that humidity at the tower outlet decreased after mixing with the induction flow. The deviation from saturation point has the effects of mist prevention, and proved the effectiveness of this innovative design.

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M3 - 会议稿件

AN - SCOPUS:84914703486

T3 - 5th Asian Conference on Refrigeration and Air Conditioning, ACRA 2010 - Green Breeze from Asia: Frontiers of Refrigerants, Heat Transfer and System

BT - 5th Asian Conference on Refrigeration and Air Conditioning, ACRA 2010 - Green Breeze from Asia

PB - Japan Society of Refrigeration and Air Conditioning Engineering (JSRAE)

T2 - 5th Asian Conference on Refrigeration and Air Conditioning - Green Breeze from Asia: Frontiers of Refrigerants, Heat Transfer and System, ACRA 2010

Y2 - 7 June 2010 through 9 June 2010

ER -

Chuah YK, Zheng HJ. An experimental study on an induction enhanced flow cooling tower. In 5th Asian Conference on Refrigeration and Air Conditioning, ACRA 2010 - Green Breeze from Asia: Frontiers of Refrigerants, Heat Transfer and System. Japan Society of Refrigeration and Air Conditioning Engineering (JSRAE). 2010. (5th Asian Conference on Refrigeration and Air Conditioning, ACRA 2010 - Green Breeze from Asia: Frontiers of Refrigerants, Heat Transfer and System).

An experimental study on an induction enhanced flow cooling tower

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