Destratification Induced by Bubble Plumes
Destratification is an alternative for improving the overall quality, particularly dissolved oxygen content, of a stratified reservoir. Pneumatic systems have been used most often for providing the energy needed to destratify a water body. However, there are no means to evaluate the long-term operat...
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| creator | Zic, Kreshimir Stefan, Hienz G Turner, Herman O Wilhelms, Steven C |
| description | Destratification is an alternative for improving the overall quality, particularly dissolved oxygen content, of a stratified reservoir. Pneumatic systems have been used most often for providing the energy needed to destratify a water body. However, there are no means to evaluate the long-term operation of a destratification system. Under contract, the St. Anthony Falls Hydraulic Laboratory, University of Minnesota, developed a subroutine entitled BUBBLES that simulates the destratification of a lake or reservoir by an air bubble diffuser. This subroutine was added to CE-THERM-RI and used to account for mixing that occurs in a lake or reservoir caused by a pneumatic destratification system. CE-THERM-Rl contains the thermal analysis portion of CE-QUAL-R1 and is used to simulate the water and heat budgets of a water body. This report describes the development of BUBBLES and its incorporation into CE-THERM-R1. In BUBBLES, the reservoir is divided into a near field and a far field. 'Me near-field model includes the bubble plume and the flow in its vicinity. The far-field model treats the rest of the reservoir and considers the flow from the plume toward the lake and from the lake toward the plume. The far-field model is coupled with CE-THERM-RL to simulate water and heat budgets of the water body. Bubble plume, Pneumatic, Destratification, Reservoir, Diffuser, Water quality, Lake. |
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Pneumatic systems have been used most often for providing the energy needed to destratify a water body. However, there are no means to evaluate the long-term operation of a destratification system. Under contract, the St. Anthony Falls Hydraulic Laboratory, University of Minnesota, developed a subroutine entitled BUBBLES that simulates the destratification of a lake or reservoir by an air bubble diffuser. This subroutine was added to CE-THERM-RI and used to account for mixing that occurs in a lake or reservoir caused by a pneumatic destratification system. CE-THERM-Rl contains the thermal analysis portion of CE-QUAL-R1 and is used to simulate the water and heat budgets of a water body. This report describes the development of BUBBLES and its incorporation into CE-THERM-R1. In BUBBLES, the reservoir is divided into a near field and a far field. 'Me near-field model includes the bubble plume and the flow in its vicinity. The far-field model treats the rest of the reservoir and considers the flow from the plume toward the lake and from the lake toward the plume. The far-field model is coupled with CE-THERM-RL to simulate water and heat budgets of the water body. Bubble plume, Pneumatic, Destratification, Reservoir, Diffuser, Water quality, Lake.</description><language>eng</language><subject>AIR ; ANAEROBIC PROCESSES ; BUBBLES ; BUBBLES Computer program ; BUDGETS ; CE-QUAL-R1 Computer program ; CE-THERM-R1 Computer program ; COMPUTERIZED SIMULATION ; Destratification ; DIFFUSERS ; FAR FIELD ; HEAT ; HYDRAULIC MODELS ; Hydrology, Limnology and Potamology ; LAKES ; MATHEMATICAL MODELS ; MIXING ; NEAR FIELD ; OXYGEN ; PLUMES ; PNEUMATIC EQUIPMENT ; RESERVOIRS ; STRATIFICATION ; SUBROUTINES ; TEMPERATURE GRADIENTS ; THERMAL ANALYSIS ; WATER FLOW ; WATER POLLUTION ABATEMENT ; Water Pollution and Control ; WATER QUALITY</subject><creationdate>1994</creationdate><rights>APPROVED FOR PUBLIC RELEASE</rights><oa>free_for_read</oa><woscitedreferencessubscribed>false</woscitedreferencessubscribed></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><link.rule.ids>230,776,881,27546,27547</link.rule.ids><linktorsrc>$$Uhttps://apps.dtic.mil/sti/citations/ADA282202$$EView_record_in_DTIC$$FView_record_in_$$GDTIC$$Hfree_for_read</linktorsrc></links><search><creatorcontrib>Zic, Kreshimir</creatorcontrib><creatorcontrib>Stefan, Hienz G</creatorcontrib><creatorcontrib>Turner, Herman O</creatorcontrib><creatorcontrib>Wilhelms, Steven C</creatorcontrib><creatorcontrib>ARMY ENGINEER WATERWAYS EXPERIMENT STATION VICKSBURG MS</creatorcontrib><title>Destratification Induced by Bubble Plumes</title><description>Destratification is an alternative for improving the overall quality, particularly dissolved oxygen content, of a stratified reservoir. Pneumatic systems have been used most often for providing the energy needed to destratify a water body. However, there are no means to evaluate the long-term operation of a destratification system. Under contract, the St. Anthony Falls Hydraulic Laboratory, University of Minnesota, developed a subroutine entitled BUBBLES that simulates the destratification of a lake or reservoir by an air bubble diffuser. This subroutine was added to CE-THERM-RI and used to account for mixing that occurs in a lake or reservoir caused by a pneumatic destratification system. CE-THERM-Rl contains the thermal analysis portion of CE-QUAL-R1 and is used to simulate the water and heat budgets of a water body. This report describes the development of BUBBLES and its incorporation into CE-THERM-R1. In BUBBLES, the reservoir is divided into a near field and a far field. 'Me near-field model includes the bubble plume and the flow in its vicinity. The far-field model treats the rest of the reservoir and considers the flow from the plume toward the lake and from the lake toward the plume. The far-field model is coupled with CE-THERM-RL to simulate water and heat budgets of the water body. 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Pneumatic systems have been used most often for providing the energy needed to destratify a water body. However, there are no means to evaluate the long-term operation of a destratification system. Under contract, the St. Anthony Falls Hydraulic Laboratory, University of Minnesota, developed a subroutine entitled BUBBLES that simulates the destratification of a lake or reservoir by an air bubble diffuser. This subroutine was added to CE-THERM-RI and used to account for mixing that occurs in a lake or reservoir caused by a pneumatic destratification system. CE-THERM-Rl contains the thermal analysis portion of CE-QUAL-R1 and is used to simulate the water and heat budgets of a water body. This report describes the development of BUBBLES and its incorporation into CE-THERM-R1. In BUBBLES, the reservoir is divided into a near field and a far field. 'Me near-field model includes the bubble plume and the flow in its vicinity. The far-field model treats the rest of the reservoir and considers the flow from the plume toward the lake and from the lake toward the plume. The far-field model is coupled with CE-THERM-RL to simulate water and heat budgets of the water body. Bubble plume, Pneumatic, Destratification, Reservoir, Diffuser, Water quality, Lake.</abstract><oa>free_for_read</oa></addata></record> |
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| source | DTIC Technical Reports |
| subjects | AIR ANAEROBIC PROCESSES BUBBLES BUBBLES Computer program BUDGETS CE-QUAL-R1 Computer program CE-THERM-R1 Computer program COMPUTERIZED SIMULATION Destratification DIFFUSERS FAR FIELD HEAT HYDRAULIC MODELS Hydrology, Limnology and Potamology LAKES MATHEMATICAL MODELS MIXING NEAR FIELD OXYGEN PLUMES PNEUMATIC EQUIPMENT RESERVOIRS STRATIFICATION SUBROUTINES TEMPERATURE GRADIENTS THERMAL ANALYSIS WATER FLOW WATER POLLUTION ABATEMENT Water Pollution and Control WATER QUALITY |
| title | Destratification Induced by Bubble Plumes |
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