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The Study on Performance of Drag Based Water Turbine under Non-immersive Condition

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Bibliographische Detailangaben
Zeitschriftentitel: E3S Web of Conferences
Personen und Körperschaften: Pei, Yiting, Mu, Zekun
In: E3S Web of Conferences, 107, 2019, S. 01005
Format: E-Article
Sprache: Unbestimmt
veröffentlicht:
EDP Sciences
Schlagwörter:
Pulmonary and Respiratory Medicine
Pediatrics, Perinatology, and Child Health
author_facet Pei, Yiting
Mu, Zekun
Pei, Yiting
Mu, Zekun
author Pei, Yiting
Mu, Zekun
spellingShingle Pei, Yiting
Mu, Zekun
E3S Web of Conferences
The Study on Performance of Drag Based Water Turbine under Non-immersive Condition
Pulmonary and Respiratory Medicine
Pediatrics, Perinatology, and Child Health
author_sort pei, yiting
spelling Pei, Yiting Mu, Zekun 2267-1242 EDP Sciences Pulmonary and Respiratory Medicine Pediatrics, Perinatology, and Child Health http://dx.doi.org/10.1051/e3sconf/201910701005 <jats:p>As electricity plays a paramount role in modern life, the electric power outage is always considered to be a serious problem. For this purpose, our research focuses on improving the efficiency of water turbine. By studying the effects of the number and curvature of turbine blades and stimulating water faucet, the water turbine is expected to effectively boost the rotation under non-immersive condition. The goal of the study is to improve the blade design for higher efficiency of the turbine.</jats:p><jats:p>This project presents the research of performance on drag based water turbine. The water turbine, whose whole structure is exposed in the air, in the research is an alternative for conventional immersed water turbine. The size of the water turbine is relatively small compared with industry size. Incoming water can be from any direction. The water turbine displays certain advantageous perspectives. Following the past experiments about this device, a myriad of developments has made over years. The blades of drag based water turbine have been tested with numerous combinations and permutations; thus, the effective choices of blade curvature decided in the research are one-quarter of a circle, one-third of a circle and half a circle, with the arc lengths and thicknesses to be the same. Besides, the number of blades in different experiments are 2, 3, 4 respectively. The incoming flow rate is expected to be constant, even though it fluctuates between 5.45 LPM and 5.95 LPM because of limited experiment equipment. Effects of blade number and curvature are examined, and corresponding conclusions are made.</jats:p> The Study on Performance of Drag Based Water Turbine under Non-immersive Condition E3S Web of Conferences
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title The Study on Performance of Drag Based Water Turbine under Non-immersive Condition
title_unstemmed The Study on Performance of Drag Based Water Turbine under Non-immersive Condition
title_full The Study on Performance of Drag Based Water Turbine under Non-immersive Condition
title_fullStr The Study on Performance of Drag Based Water Turbine under Non-immersive Condition
title_full_unstemmed The Study on Performance of Drag Based Water Turbine under Non-immersive Condition
title_short The Study on Performance of Drag Based Water Turbine under Non-immersive Condition
title_sort the study on performance of drag based water turbine under non-immersive condition
topic Pulmonary and Respiratory Medicine
Pediatrics, Perinatology, and Child Health
url http://dx.doi.org/10.1051/e3sconf/201910701005
publishDate 2019
physical 01005
description <jats:p>As electricity plays a paramount role in modern life, the electric power outage is always considered to be a serious problem. For this purpose, our research focuses on improving the efficiency of water turbine. By studying the effects of the number and curvature of turbine blades and stimulating water faucet, the water turbine is expected to effectively boost the rotation under non-immersive condition. The goal of the study is to improve the blade design for higher efficiency of the turbine.</jats:p><jats:p>This project presents the research of performance on drag based water turbine. The water turbine, whose whole structure is exposed in the air, in the research is an alternative for conventional immersed water turbine. The size of the water turbine is relatively small compared with industry size. Incoming water can be from any direction. The water turbine displays certain advantageous perspectives. Following the past experiments about this device, a myriad of developments has made over years. The blades of drag based water turbine have been tested with numerous combinations and permutations; thus, the effective choices of blade curvature decided in the research are one-quarter of a circle, one-third of a circle and half a circle, with the arc lengths and thicknesses to be the same. Besides, the number of blades in different experiments are 2, 3, 4 respectively. The incoming flow rate is expected to be constant, even though it fluctuates between 5.45 LPM and 5.95 LPM because of limited experiment equipment. Effects of blade number and curvature are examined, and corresponding conclusions are made.</jats:p>
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author_sort pei, yiting
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description <jats:p>As electricity plays a paramount role in modern life, the electric power outage is always considered to be a serious problem. For this purpose, our research focuses on improving the efficiency of water turbine. By studying the effects of the number and curvature of turbine blades and stimulating water faucet, the water turbine is expected to effectively boost the rotation under non-immersive condition. The goal of the study is to improve the blade design for higher efficiency of the turbine.</jats:p><jats:p>This project presents the research of performance on drag based water turbine. The water turbine, whose whole structure is exposed in the air, in the research is an alternative for conventional immersed water turbine. The size of the water turbine is relatively small compared with industry size. Incoming water can be from any direction. The water turbine displays certain advantageous perspectives. Following the past experiments about this device, a myriad of developments has made over years. The blades of drag based water turbine have been tested with numerous combinations and permutations; thus, the effective choices of blade curvature decided in the research are one-quarter of a circle, one-third of a circle and half a circle, with the arc lengths and thicknesses to be the same. Besides, the number of blades in different experiments are 2, 3, 4 respectively. The incoming flow rate is expected to be constant, even though it fluctuates between 5.45 LPM and 5.95 LPM because of limited experiment equipment. Effects of blade number and curvature are examined, and corresponding conclusions are made.</jats:p>
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spelling Pei, Yiting Mu, Zekun 2267-1242 EDP Sciences Pulmonary and Respiratory Medicine Pediatrics, Perinatology, and Child Health http://dx.doi.org/10.1051/e3sconf/201910701005 <jats:p>As electricity plays a paramount role in modern life, the electric power outage is always considered to be a serious problem. For this purpose, our research focuses on improving the efficiency of water turbine. By studying the effects of the number and curvature of turbine blades and stimulating water faucet, the water turbine is expected to effectively boost the rotation under non-immersive condition. The goal of the study is to improve the blade design for higher efficiency of the turbine.</jats:p><jats:p>This project presents the research of performance on drag based water turbine. The water turbine, whose whole structure is exposed in the air, in the research is an alternative for conventional immersed water turbine. The size of the water turbine is relatively small compared with industry size. Incoming water can be from any direction. The water turbine displays certain advantageous perspectives. Following the past experiments about this device, a myriad of developments has made over years. The blades of drag based water turbine have been tested with numerous combinations and permutations; thus, the effective choices of blade curvature decided in the research are one-quarter of a circle, one-third of a circle and half a circle, with the arc lengths and thicknesses to be the same. Besides, the number of blades in different experiments are 2, 3, 4 respectively. The incoming flow rate is expected to be constant, even though it fluctuates between 5.45 LPM and 5.95 LPM because of limited experiment equipment. Effects of blade number and curvature are examined, and corresponding conclusions are made.</jats:p> The Study on Performance of Drag Based Water Turbine under Non-immersive Condition E3S Web of Conferences
spellingShingle Pei, Yiting, Mu, Zekun, E3S Web of Conferences, The Study on Performance of Drag Based Water Turbine under Non-immersive Condition, Pulmonary and Respiratory Medicine, Pediatrics, Perinatology, and Child Health
title The Study on Performance of Drag Based Water Turbine under Non-immersive Condition
title_full The Study on Performance of Drag Based Water Turbine under Non-immersive Condition
title_fullStr The Study on Performance of Drag Based Water Turbine under Non-immersive Condition
title_full_unstemmed The Study on Performance of Drag Based Water Turbine under Non-immersive Condition
title_short The Study on Performance of Drag Based Water Turbine under Non-immersive Condition
title_sort the study on performance of drag based water turbine under non-immersive condition
title_unstemmed The Study on Performance of Drag Based Water Turbine under Non-immersive Condition
topic Pulmonary and Respiratory Medicine, Pediatrics, Perinatology, and Child Health
url http://dx.doi.org/10.1051/e3sconf/201910701005