"The Mitigation Measures of Sediment Deposition in-front of El Kuraimat Power Plant Intake". Journal of Scientific and Engineering Research (JSAER), India, June 2016
The objectives of the current research were to mitigate the sedimentation problem in front of thermal power plant intakes, case study, El Kuraimat thermal power plant, also investigate the effectiveness of a set of alternatives to solve this problem. Several sorts of data were collected including, velocity measurements, hydrographic survey data, water levels and discharges in several years and seasons. 2-D numerical model, iRIC "international River Interface Corporative" was utilized to simulate the study area and test the set of alternatives to meet the optimum solution, the model was calibrated and verified using the field velocities and water levels. The set of alternatives were used to improve the flow pattern inside the eastern channel, where the plant intake was located. The model results were revealed that connecting the small formed island and the downstream tip of El Kuraimat island to bed level 23.00 m, was the optimum solution from both the hydraulic and economical point of view. • 2016
Publication Information
Authors
Gamal Elsaeed, Mohammad Bahgat, Mohammad Ibrahim and Rowida Elsayed
Keywords
Not Available
Journal
The objectives of the current research were to mitigate the sedimentation problem in front of thermal power plant intakes, case study, El Kuraimat thermal power plant, also investigate the effectiveness of a set of alternatives to solve this problem. Several sorts of data were collected including, velocity measurements, hydrographic survey data, water levels and discharges in several years and seasons. 2-D numerical model, iRIC "international River Interface Corporative" was utilized to simulate the study area and test the set of alternatives to meet the optimum solution, the model was calibrated and verified using the field velocities and water levels. The set of alternatives were used to improve the flow pattern inside the eastern channel, where the plant intake was located. The model results were revealed that connecting the small formed island and the downstream tip of El Kuraimat island to bed level 23.00 m, was the optimum solution from both the hydraulic and economical point of view.
Publisher
Not Available
Volume
3
Issue
3
Pages
155-164
publication.type
International
Paper Link
Not Available
Supplementary Materials
Not Available
Abstract
The objectives of the current research were to mitigate the sedimentation problem in front of thermal power plant intakes, case study, El Kuraimat thermal power plant, also investigate the effectiveness of a set of alternatives to solve this problem. Several sorts of data were collected including, velocity measurements, hydrographic survey data, water levels and discharges in several years and seasons. 2-D numerical model, iRIC "international River Interface Corporative" was utilized to simulate the study area and test the set of alternatives to meet the optimum solution, the model was calibrated and verified using the field velocities and water levels. The set of alternatives were used to improve the flow pattern inside the eastern channel, where the plant intake was located. The model results were revealed that connecting the small formed island and the downstream tip of El Kuraimat island to bed level 23.00 m, was the optimum solution from both the hydraulic and economical point of view.
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