Gas‐water energy conversion efficiency in two‐phase vertical downflow

Gas‐water energy conversion efficiency in two‐phase vertical downflow

Abstract An automatic pump is developed using low water‐head hydropower. The energy conversion efficiency η of the gas‐water energy conversion equipment is the focus. In this equipment, low‐head water normally drains to the vertical downcomer. When water particles separate via gravity, a vacuum is g...

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Bibliographic Details
Main Authors: Yang Sun, Yuting Yao, Yawen Fan, Junwei Su, Zhaoyang Luo, Peng Lan, Yan Bao
Format: Article
Language:English
Published: Wiley 2018-08-01
Series:Energy Science & Engineering
Subjects:
Gas‐water energy conversion efficiency
low water‐head hydropower
negative pressure in vertical downcomer
two phase gas‐liquid flow
Online Access:https://doi.org/10.1002/ese3.200
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spelling doaj-b6630eb680a1402ca5ee92e7fa02a4502020-11-25T04:05:07ZengWileyEnergy Science & Engineering2050-05052018-08-016430632010.1002/ese3.200Gas‐water energy conversion efficiency in two‐phase vertical downflowYang Sun0Yuting Yao1Yawen Fan2Junwei Su3Zhaoyang Luo4Peng Lan5Yan Bao6College of Harbour, Coastal and Offshore Engineering Hohai University Nanjing, Jiangsu 210098 ChinaCollege of Harbour, Coastal and Offshore Engineering Hohai University Nanjing, Jiangsu 210098 ChinaCollege of Telecommunications and Information Engineering Nanjing University of Posts and Telecommunications Nanjing, Jiangsu 210003 ChinaCollege of Harbour, Coastal and Offshore Engineering Hohai University Nanjing, Jiangsu 210098 ChinaCollege of Harbour, Coastal and Offshore Engineering Hohai University Nanjing, Jiangsu 210098 ChinaCollege of Mechanics and Materials Hohai University Nanjing, Jiangsu 210098 ChinaState Key Laboratory of Hydrology‐Water Resources and Hydraulic Engineering Nanjing Hydraulic Research Institute Nanjing, Jiangsu 210098 ChinaAbstract An automatic pump is developed using low water‐head hydropower. The energy conversion efficiency η of the gas‐water energy conversion equipment is the focus. In this equipment, low‐head water normally drains to the vertical downcomer. When water particles separate via gravity, a vacuum is generated, and air is mixed into the water spontaneously. High‐pressure gas is ultimately produced at the end of the pipe. To discuss the effects of the air intake pipe diameter, river drop and water flow rate on η, a full‐scale experiment is conducted, and an analytical solution based on the separation of water particles is derived. The air intake pipe diameter has almost no effect on η, but η changes dramatically as the water flow rate varies. Meanwhile, η initially increases and then decreases as the river drop increases. These findings enable the development of a method for low water‐head hydropower utilization.https://doi.org/10.1002/ese3.200Gas‐water energy conversion efficiencylow water‐head hydropowernegative pressure in vertical downcomertwo phase gas‐liquid flow
collection DOAJ
language English
format Article
sources DOAJ
author Yang Sun
Yuting Yao
Yawen Fan
Junwei Su
Zhaoyang Luo
Peng Lan
Yan Bao
spellingShingle Yang Sun
Yuting Yao
Yawen Fan
Junwei Su
Zhaoyang Luo
Peng Lan
Yan Bao
Gas‐water energy conversion efficiency in two‐phase vertical downflow
Energy Science & Engineering
Gas‐water energy conversion efficiency
low water‐head hydropower
negative pressure in vertical downcomer
two phase gas‐liquid flow
author_facet Yang Sun
Yuting Yao
Yawen Fan
Junwei Su
Zhaoyang Luo
Peng Lan
Yan Bao
author_sort Yang Sun
title Gas‐water energy conversion efficiency in two‐phase vertical downflow
title_short Gas‐water energy conversion efficiency in two‐phase vertical downflow
title_full Gas‐water energy conversion efficiency in two‐phase vertical downflow
title_fullStr Gas‐water energy conversion efficiency in two‐phase vertical downflow
title_full_unstemmed Gas‐water energy conversion efficiency in two‐phase vertical downflow
title_sort gas‐water energy conversion efficiency in two‐phase vertical downflow
publisher Wiley
series Energy Science & Engineering
issn 2050-0505
publishDate 2018-08-01
description Abstract An automatic pump is developed using low water‐head hydropower. The energy conversion efficiency η of the gas‐water energy conversion equipment is the focus. In this equipment, low‐head water normally drains to the vertical downcomer. When water particles separate via gravity, a vacuum is generated, and air is mixed into the water spontaneously. High‐pressure gas is ultimately produced at the end of the pipe. To discuss the effects of the air intake pipe diameter, river drop and water flow rate on η, a full‐scale experiment is conducted, and an analytical solution based on the separation of water particles is derived. The air intake pipe diameter has almost no effect on η, but η changes dramatically as the water flow rate varies. Meanwhile, η initially increases and then decreases as the river drop increases. These findings enable the development of a method for low water‐head hydropower utilization.
topic Gas‐water energy conversion efficiency
low water‐head hydropower
negative pressure in vertical downcomer
two phase gas‐liquid flow
url https://doi.org/10.1002/ese3.200
work_keys_str_mv AT yangsun gaswaterenergyconversionefficiencyintwophaseverticaldownflow
AT yutingyao gaswaterenergyconversionefficiencyintwophaseverticaldownflow
AT yawenfan gaswaterenergyconversionefficiencyintwophaseverticaldownflow
AT junweisu gaswaterenergyconversionefficiencyintwophaseverticaldownflow
AT zhaoyangluo gaswaterenergyconversionefficiencyintwophaseverticaldownflow
AT penglan gaswaterenergyconversionefficiencyintwophaseverticaldownflow
AT yanbao gaswaterenergyconversionefficiencyintwophaseverticaldownflow
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