Minimum flow estimated by the froude number

Yen Chang Chen; Jen Yang Lin; Eric Hsienshao Tsao; Jung Chen Huang

doi:10.1061/40792(173)135

Minimum flow estimated by the froude number

Yen Chang Chen, Jen Yang Lin, Eric Hsienshao Tsao, Jung Chen Huang

環境工程學系

研究成果: Conference contribution

1 引文斯高帕斯（Scopus）

摘要

Following the development and management of water resources to satisfy the human demand, the quantity and quality of flow in streams change in both space and time. With increasing recognition of streams being fundamental to human existence, concerns for the effect on the stream ecosystem have been raised by government, biologists and private citizen groups interesting in preserving the natural integrity. It is necessary to maintain instream minimum flows to provide for preservation of wildlife and other environmental values. This study proposed a method for estimating the minimum discharge needed to maintain good biological quality. It is based on the Instream Flow Incremental Method (IFIM) that is a habitat based tool used to evaluate the environmental consequences of various water and land use practices. However the habitat suitability curves are obtained by the Froude number calculated by a two-dimensional computational fluid dynamic model. Then the habitat suitability curves are used to determine the weighted usable area. The minimum flow will be 80 percent of the maximum weighted usable area. The available data of the Fungane Creek is used to illustrate the proposed. The results show that the minimum flow of stream can be easily and efficiently determined by the Froude number.

原文	English
主出版物標題	World Water Congress 2005
主出版物子標題	Impacts of Global Climate Change - Proceedings of the 2005 World Water and Environmental Resources Congress
頁面	135
頁數	1
DOIs	https://doi.org/10.1061/40792(173)135
出版狀態	Published - 2005
事件	2005 World Water and Environmental Resources Congress - Anchorage, AK, United States 持續時間: 2005 5月 15 → 2005 5月 19

出版系列

名字	World Water Congress 2005: Impacts of Global Climate Change - Proceedings of the 2005 World Water and Environmental Resources Congress

Other

Other	2005 World Water and Environmental Resources Congress
國家/地區	United States
城市	Anchorage, AK
期間	05-05-15 → 05-05-19

All Science Journal Classification (ASJC) codes

水科學與技術

UN SDG

此研究成果有助於以下永續發展目標

存取文件

10.1061/40792(173)135

其它文件與鏈接

引用此

Chen, Y. C., Lin, J. Y., Tsao, E. H., & Huang, J. C. (2005). Minimum flow estimated by the froude number. 於 World Water Congress 2005: Impacts of Global Climate Change - Proceedings of the 2005 World Water and Environmental Resources Congress (頁 135). (World Water Congress 2005: Impacts of Global Climate Change - Proceedings of the 2005 World Water and Environmental Resources Congress). https://doi.org/10.1061/40792(173)135

Chen, Yen Chang ; Lin, Jen Yang ; Tsao, Eric Hsienshao 等. / Minimum flow estimated by the froude number. World Water Congress 2005: Impacts of Global Climate Change - Proceedings of the 2005 World Water and Environmental Resources Congress. 2005. 頁 135 (World Water Congress 2005: Impacts of Global Climate Change - Proceedings of the 2005 World Water and Environmental Resources Congress).

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title = "Minimum flow estimated by the froude number",

abstract = "Following the development and management of water resources to satisfy the human demand, the quantity and quality of flow in streams change in both space and time. With increasing recognition of streams being fundamental to human existence, concerns for the effect on the stream ecosystem have been raised by government, biologists and private citizen groups interesting in preserving the natural integrity. It is necessary to maintain instream minimum flows to provide for preservation of wildlife and other environmental values. This study proposed a method for estimating the minimum discharge needed to maintain good biological quality. It is based on the Instream Flow Incremental Method (IFIM) that is a habitat based tool used to evaluate the environmental consequences of various water and land use practices. However the habitat suitability curves are obtained by the Froude number calculated by a two-dimensional computational fluid dynamic model. Then the habitat suitability curves are used to determine the weighted usable area. The minimum flow will be 80 percent of the maximum weighted usable area. The available data of the Fungane Creek is used to illustrate the proposed. The results show that the minimum flow of stream can be easily and efficiently determined by the Froude number.",

author = "Chen, {Yen Chang} and Lin, {Jen Yang} and Tsao, {Eric Hsienshao} and Huang, {Jung Chen}",

year = "2005",

doi = "10.1061/40792(173)135",

language = "English",

isbn = "0784407924",

series = "World Water Congress 2005: Impacts of Global Climate Change - Proceedings of the 2005 World Water and Environmental Resources Congress",

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booktitle = "World Water Congress 2005",

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}

Chen, YC, Lin, JY, Tsao, EH & Huang, JC 2005, Minimum flow estimated by the froude number. 於 World Water Congress 2005: Impacts of Global Climate Change - Proceedings of the 2005 World Water and Environmental Resources Congress. World Water Congress 2005: Impacts of Global Climate Change - Proceedings of the 2005 World Water and Environmental Resources Congress, 頁 135, 2005 World Water and Environmental Resources Congress, Anchorage, AK, United States, 05-05-15. https://doi.org/10.1061/40792(173)135

Minimum flow estimated by the froude number. / Chen, Yen Chang; Lin, Jen Yang; Tsao, Eric Hsienshao 等.

World Water Congress 2005: Impacts of Global Climate Change - Proceedings of the 2005 World Water and Environmental Resources Congress. 2005. p. 135 (World Water Congress 2005: Impacts of Global Climate Change - Proceedings of the 2005 World Water and Environmental Resources Congress).

研究成果: Conference contribution

TY - GEN

T1 - Minimum flow estimated by the froude number

AU - Chen, Yen Chang

AU - Lin, Jen Yang

AU - Tsao, Eric Hsienshao

AU - Huang, Jung Chen

PY - 2005

Y1 - 2005

N2 - Following the development and management of water resources to satisfy the human demand, the quantity and quality of flow in streams change in both space and time. With increasing recognition of streams being fundamental to human existence, concerns for the effect on the stream ecosystem have been raised by government, biologists and private citizen groups interesting in preserving the natural integrity. It is necessary to maintain instream minimum flows to provide for preservation of wildlife and other environmental values. This study proposed a method for estimating the minimum discharge needed to maintain good biological quality. It is based on the Instream Flow Incremental Method (IFIM) that is a habitat based tool used to evaluate the environmental consequences of various water and land use practices. However the habitat suitability curves are obtained by the Froude number calculated by a two-dimensional computational fluid dynamic model. Then the habitat suitability curves are used to determine the weighted usable area. The minimum flow will be 80 percent of the maximum weighted usable area. The available data of the Fungane Creek is used to illustrate the proposed. The results show that the minimum flow of stream can be easily and efficiently determined by the Froude number.

AB - Following the development and management of water resources to satisfy the human demand, the quantity and quality of flow in streams change in both space and time. With increasing recognition of streams being fundamental to human existence, concerns for the effect on the stream ecosystem have been raised by government, biologists and private citizen groups interesting in preserving the natural integrity. It is necessary to maintain instream minimum flows to provide for preservation of wildlife and other environmental values. This study proposed a method for estimating the minimum discharge needed to maintain good biological quality. It is based on the Instream Flow Incremental Method (IFIM) that is a habitat based tool used to evaluate the environmental consequences of various water and land use practices. However the habitat suitability curves are obtained by the Froude number calculated by a two-dimensional computational fluid dynamic model. Then the habitat suitability curves are used to determine the weighted usable area. The minimum flow will be 80 percent of the maximum weighted usable area. The available data of the Fungane Creek is used to illustrate the proposed. The results show that the minimum flow of stream can be easily and efficiently determined by the Froude number.

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T3 - World Water Congress 2005: Impacts of Global Climate Change - Proceedings of the 2005 World Water and Environmental Resources Congress

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ER -

Chen YC, Lin JY, Tsao EH, Huang JC. Minimum flow estimated by the froude number. 於 World Water Congress 2005: Impacts of Global Climate Change - Proceedings of the 2005 World Water and Environmental Resources Congress. 2005. p. 135. (World Water Congress 2005: Impacts of Global Climate Change - Proceedings of the 2005 World Water and Environmental Resources Congress). doi: 10.1061/40792(173)135

Minimum flow estimated by the froude number

摘要

出版系列

Other

All Science Journal Classification (ASJC) codes

UN SDG

存取文件

其它文件與鏈接

指紋

引用此