Maximization of hydropower generation through the application of a linear programming model

The linear objective function is examined as an alternative to a nonlinear form with the aim of maximizing hydropower energy generation. The Yongdam multipurpose dam, located on the Geum River in South Korea, is selected as the subject of the model application. Inflow data with a reliability of 50%...

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Published inJournal of hydrology (Amsterdam) Vol. 376; no. 1; pp. 182 - 187
Main Author Yoo, Ju-Hwan
Format Journal Article
LanguageEnglish
Published Kidlington Elsevier B.V 30.09.2009
[Amsterdam; New York]: Elsevier
Elsevier
Subjects
Earth sciences
Earth, ocean, space
energy
Exact sciences and technology
Freshwater
Geum
Hydrology
Hydrology. Hydrogeology
Hydropower
issues and policy
linear models
Linear programming
Reservoir operation
rivers
South Korea
water power
Water resources
Yongdam dam
South Korea
Far East
Asia
Korea
Korea, Rep
Hydropower
Yongdam dam
Linear programming
Reservoir operation
rivers
sensitivity analysis
water policy
reliability
reservoirs
linear programming
artificial lakes
dams
linear models
hydroelectric energy
water storage
water resource management
Online AccessGet full text
ISSN0022-1694
1879-2707
DOI10.1016/j.jhydrol.2009.07.026

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Abstract The linear objective function is examined as an alternative to a nonlinear form with the aim of maximizing hydropower energy generation. The Yongdam multipurpose dam, located on the Geum River in South Korea, is selected as the subject of the model application. Inflow data with a reliability of 50% is applied to the model for an operation period of 12 months. This study analyzes the effect and sensitivity of the model’s release and reservoir storage on the maximization of hydropower energy generation based on calculations of optimal values. The operation according to the optimized policy is shown in terms of the given priority. The ratio between two parameters (releases and reservoir storage) is also examined in the context of the objective function of the linear model. The maximum annual energy production of the proposed model was approximately 184 GWH, which represents 86% of the potential energy production level.
AbstractList The linear objective function is examined as an alternative to a nonlinear form with the aim of maximizing hydropower energy generation. The Yongdam multipurpose dam, located on the Geum River in South Korea, is selected as the subject of the model application. Inflow data with a reliability of 50% is applied to the model for an operation period of 12months. This study analyzes the effect and sensitivity of the model's release and reservoir storage on the maximization of hydropower energy generation based on calculations of optimal values. The operation according to the optimized policy is shown in terms of the given priority. The ratio between two parameters (releases and reservoir storage) is also examined in the context of the objective function of the linear model. The maximum annual energy production of the proposed model was approximately 184GWH, which represents 86% of the potential energy production level.
The linear objective function is examined as an alternative to a nonlinear form with the aim of maximizing hydropower energy generation. The Yongdam multipurpose dam, located on the Geum River in South Korea, is selected as the subject of the model application. Inflow data with a reliability of 50% is applied to the model for an operation period of 12 months. This study analyzes the effect and sensitivity of the model’s release and reservoir storage on the maximization of hydropower energy generation based on calculations of optimal values. The operation according to the optimized policy is shown in terms of the given priority. The ratio between two parameters (releases and reservoir storage) is also examined in the context of the objective function of the linear model. The maximum annual energy production of the proposed model was approximately 184 GWH, which represents 86% of the potential energy production level.
Author Yoo, Ju-Hwan
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Issue 1
Keywords Hydropower
Yongdam dam
Linear programming
Reservoir operation
rivers
sensitivity analysis
water policy
reliability
reservoirs
linear programming
artificial lakes
dams
linear models
hydroelectric energy
water storage
water resource management
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Snippet The linear objective function is examined as an alternative to a nonlinear form with the aim of maximizing hydropower energy generation. The Yongdam...
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SubjectTerms Earth sciences
Earth, ocean, space
energy
Exact sciences and technology
Freshwater
Geum
Hydrology
Hydrology. Hydrogeology
Hydropower
issues and policy
linear models
Linear programming
Reservoir operation
rivers
South Korea
water power
Water resources
Yongdam dam
Title Maximization of hydropower generation through the application of a linear programming model
URI https://dx.doi.org/10.1016/j.jhydrol.2009.07.026
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