Your search keyword '"Operation model"' showing total 5 results

1. Optimal Operation Model of Drainage Works for Minimizing Waterlogging Loss in Paddy Fields

Author

Juzeng Xu, Fangping Liu, Zewei Jiang, Shihong Yang, Liu Zhenyang, and Yujiang Xiong

Subjects

Irrigation, Water supply for domestic and industrial purposes, Flood myth, Geography, Planning and Development, optimal operation, modeling, Hydraulic engineering, Agricultural engineering, Aquatic Science, Biochemistry, Irrigation district, waterlogging, Environmental science, Operation time, paddy field drainage, Drainage, TC1-978, Operation model, TD201-500, Global optimization, Water Science and Technology, Waterlogging (agriculture)

Abstract

The risk of flood or waterlogging in irrigation districts has increased due to global climate change and intensive human activities. A Model of Optimal Operation of Drainage Works (MOODW) for flat irrigation district was established by incorporating the hydrological model of waterlogging process and waterlogging loss estimation, which was solved by an optimization method of genetic algorithm. The model of waterlogging process was built based on a modified Tank model and hydrodynamic model for the ditch-river system. The waterlogging loss is calculated under the condition of inconstant inundated depth by linear interpolation. The adaptive genetic algorithm with the global optimization function was selected to solve the model. With an extreme rainfall events in Gaoyou irrigation district as cases, results showed that operation time and numbers of pumps increased, thus, operating costs were 1.4 times higher than before, but the yield loss of rice decreased by 35.4% observably. Finally, the total waterlogging loss was reduced by 33.8% compared with the traditional operation of waterlogging work. The most significant improvement was found in units with high waterlogging vulnerability. The MOODW can provide the waterlogging information visually and assist the district manager in making a reasonable decision.

Published

2021

2. Study on the Single-Multi-Objective Optimal Dispatch in the Middle and Lower Reaches of Yellow River for River Ecological Health

Author

Jian-xia Chang, Ha Yanping, Xia Liu, Jian Wei, Lianzhou Wu, Tao Bai, and Jin Liu

Subjects

Mathematical optimization, lcsh:Hydraulic engineering, 010504 meteorology & atmospheric sciences, Ecological health, Computer science, Geography, Planning and Development, 0207 environmental engineering, 02 engineering and technology, Aquatic Science, 01 natural sciences, Biochemistry, Profit (economics), elasticity coefficient, multi-objective optimal operation model, lcsh:Water supply for domestic and industrial purposes, lcsh:TC1-978, Optimal dispatch, Elasticity coefficient, 020701 environmental engineering, Operation model, loss–benefit ratio of ecology and power generation, 0105 earth and related environmental sciences, Water Science and Technology, lcsh:TD201-500, Spatial search, Pareto-front optimal solution set, feasible search space, Electricity generation, Optimal scheduling

Abstract

Given the increasingly worsening ecology issues in the lower Yellow River, the Xiaolangdi reservoir is chosen as the regulation and control target, and the single and multi-objective operation by ecology and power generation in the lower Yellow River is studied in this paper. This paper first proposes the following three indicators: the ecological elasticity coefficient (f1), the power generation elasticity coefficient (f2), and the ecological power generation profit and loss ratio (k). This paper then conducts a multi-target single dispatching study on ecology and power generation in the lower Yellow River. A genetic algorithm (GA) and an improved non-dominated genetic algorithm (NSGA-II) combining constraint processing and feasible space search techniques were used to solve the single-objective model with the largest power generation and the multi-objective optimal scheduling model considering both ecology and power generation. The calculation results show that: (1) the effectiveness of the NSGA-Ⅱcombined with constraint processing and feasible spatial search technology in reservoir dispatching is verified by an example, (2) compared with the operation model of maximizing power generation, the power generation of the target model was reduced by 0.87%, the ecological guarantee rate was increased by 18.75%, and the degree of the impact of ecological targets on the operating results was quantified, (3) in each typical year, the solution spatial distribution and dimensions of the single-target and multi-target models of change are represented by the Pareto-front curve, and a multi-objective operation plan is generated for decision makers to choose, (4) the f1, f2, and k indicators are selected to analyze the sensitivity of the five multi-objective plans and to quantify the interaction between ecological targets and power generation targets. Ultimately, this paper discusses the conversion relationship and finally recommends the best equilibrium solution in the multi-objective global equilibrium solution set. The results provide a decision-making basis for the multi-objective dispatching of the Xiaolangdi reservoir and have important practical significance for further improving the ecological health of the lower Yellow River.

Published

2020

3. Short-Term Optimal Operation of Baluchaung II Hydropower Plant in Myanmar

Author

Hongjie Yu, Siyu Chen, May Myat Moe Saw, and Jiqing Li

Subjects

Mathematical optimization, lcsh:Hydraulic engineering, Power station, Computer science, 020209 energy, Geography, Planning and Development, 0207 environmental engineering, 02 engineering and technology, Aquatic Science, Biochemistry, Water consumption, Profit (economics), lcsh:Water supply for domestic and industrial purposes, lcsh:TC1-978, run-off-river, 0202 electrical engineering, electronic engineering, information engineering, Revenue, equal micro-increment rate method, 020701 environmental engineering, Operation model, Hydropower, Water Science and Technology, dynamic programming, lcsh:TD201-500, business.industry, Baluchaung II hydropower station, Dynamic programming, Electricity generation, business, short-term optimal operation

Abstract

The short-term optimal operation model discussed in this paper uses the 2016 to 2018 daily and monthly data of Baluchaung II hydropower station to optimize power generation by minimizing water consumption effectively in order to get more revenue from optimal operation. In the first stage, run-off-river type Baluchaung II hydropower station data was applied in a mathematical model of equal micro-increment rate method for optimal hydropower generation flow distribution unit results. In the second stage, dynamic programming was used to get optimal hydropower generation unit distribution results. The resultant data indicated that optimized results can effectively guide the actual operation run of this power station. The purpose of the optimal load dispatching unit was to consider the optimal power of each unit for financial profit and numerical programming on the actual data of Baluchaung II hydropower plant to confirm that our methods are able to find good optimal solutions which satisfy the objective values of 17.75% in flow distribution units and 24.16% in load distribution units.

Published

2020

4. Formulation and Implementation of Short-Term Optimal Reservoir Operation Schemes Integrated with Operation Rules

Author

Jiajie Wu, Hongjie Yu, Changming Ji, and Yanke Zhang

Subjects

Scheme (programming language), lcsh:Hydraulic engineering, 010504 meteorology & atmospheric sciences, operation rules, Computer science, 0208 environmental biotechnology, Geography, Planning and Development, 02 engineering and technology, Aquatic Science, 01 natural sciences, Biochemistry, lcsh:Water supply for domestic and industrial purposes, lcsh:TC1-978, uncertainty, Operation model, Hydropower, 0105 earth and related environmental sciences, Water Science and Technology, computer.programming_language, lcsh:TD201-500, optimal reservoir operation scheme, business.industry, Mode (statistics), 020801 environmental engineering, Reliability engineering, Term (time), Reservoir operation, Electricity generation, post-evaluation, implementation mode, Profitability index, business, computer

Abstract

To narrow the gap between theoretical research and practical application of short-term optimal reservoir power generation operation under uncertain conditions, a comprehensive study is conducted on the formulation, evaluation, and implementation of operation schemes throughout the entire procedure of optimal operation. Firstly, the three implementation modes of the optimal operation scheme are assessed with the post-evaluation method. After the optimal implementation mode is determined, the formulation and implementation of optimal operation schemes are improved by combining the advantages of conventional and optimal operation and using the concept of warning water level in operation rules. Finally, the Xiaoxuan Reservoir is taken as an example for simulation calculation under different operating conditions. The results show that the operation model integrated with operation rules has both the security of conventional operation and the profitability of optimal operation. The accordingly-formulated optimal operation schemes, when implemented with the output control mode, can provide valuable guidance for the actual operation of hydropower stations.

Published

2019

5. Hedging Rules for Water Supply Reservoir Based on the Model of Simulation and Optimization

Author

Xiaohui Lei, Xu Wang, Siyu Cai, and Yi Ji

Subjects

Mathematical optimization, Engineering, lcsh:Hydraulic engineering, 0208 environmental biotechnology, Geography, Planning and Development, Water supply, hedging rule, two-period model, acceptable damage depth, simulation and optimization model, 02 engineering and technology, Aquatic Science, Biochemistry, lcsh:Water supply for domestic and industrial purposes, lcsh:TC1-978, Operations management, Operation model, Water Science and Technology, lcsh:TD201-500, business.industry, Simulation modeling, Particle swarm optimization, 020801 environmental engineering, Weighting, Coupling (computer programming), business

Abstract

This study proposes a hedging rule model which is composed of a two-period reservior operation model considering the damage depth and hedging rule parameter optimization model. The former solves hedging rules based on a given poriod’s water supply weighting factor and carryover storage target, while the latter optimization model is used to optimize the weighting factor and carryover storage target based on the hedging rules. The coupling model gives the optimal poriod’s water supply weighting factor and carryover storage target to guide release. The conclusions achieved from this study as follows: (1) the water supply weighting factor and carryover storage target have a direct impact on the three elements of the hedging rule; (2) parameters can guide reservoirs to supply water reasonably after optimization of the simulation and optimization model; and (3) in order to verify the utility of the hedging rule, the Heiquan reservoir is used as a case study and particle swarm optimization algorithm with a simulation model is adopted for optimizing the parameter. The results show that the proposed hedging rule can improve the operation performances of the water supply reservoir.

Published

2016