Your search keyword '"short-term optimal operation"' showing total 6 results

1. Economic Operation of Electric Power Systems

Author

Soliman, Soliman Abdel-Hady, Mantawy, Abdel-Aal Hassan, Soliman, Soliman Abdel-Hady, and Mantawy, Abdel-Aal Hassan

Published

2012

2. 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

3. Short-term optimal operation of water systems using ensemble forecasts

Author

Dirk Schwanenberg, P. J. van Overloop, N.C. Van de Giesen, Luciano Raso, DELFT UNIVERSITY OF TECHNOLOGY DELFT NLD, Partenaires IRSTEA, Institut national de recherche en sciences et technologies pour l'environnement et l'agriculture (IRSTEA)-Institut national de recherche en sciences et technologies pour l'environnement et l'agriculture (IRSTEA), Gestion de l'Eau, Acteurs, Usages (UMR G-EAU), Centre de Coopération Internationale en Recherche Agronomique pour le Développement (Cirad)-Centre international d'études supérieures en sciences agronomiques (Montpellier SupAgro)-AgroParisTech-Institut national de recherche en sciences et technologies pour l'environnement et l'agriculture (IRSTEA)-Institut de Recherche pour le Développement (IRD [France-Sud]), DELTARES FOUNDATION DELFT NLD, and UNIVERSITY OF DUISBURG ESSEX DUISBURG DEU

Subjects

Engineering, 010504 meteorology & atmospheric sciences, Operations research, PREDICTION, 02 engineering and technology, 01 natural sciences, ROBUSTNESS, SHORT-TERM OPTIMAL OPERATION, 020701 environmental engineering, Physics::Atmospheric and Oceanic Physics, Bauwissenschaften, Water Science and Technology, ARGENTINA, ENSEMBLE FORECASTING, PARAGUAY, WATER RESOURCE, Forecast verification, Stochastic programming, OPERATIONAL WATER MANAGEMENT, ROBUSTNESS (CONTROL SYSTEMS), MULTI-STAGE STOCHASTIC PROGRAMMING, Tree (data structure), Model predictive control, RESERVOIR MANAGEMENT, [SDE]Environmental Sciences, SHORT TERM RESERVOIR MANAGEMENT, MODEL PREDICTIVE CONTROL, COMPLEX DYNAMIC SYSTEMS, SALTO GRANDE RESERVOIR, STOCHASTIC PROGRAMMING, OPERATIONAL MANAGEMENT, UNCERTAINTY ANALYSIS, PERFORMANCE ASSESSMENT, WATER MANAGEMENT, STRATEGIC APPROACH, STOCHASTICITY, 0207 environmental engineering, ENSEMBLE FORECAST, WATERWORKS, PLANNING METHOD, Robustness (computer science), THEORETICAL INNOVATIONS, FORECASTING, FORECAST UNCERTAINTY, 0105 earth and related environmental sciences, ENSEMBLE FORECASTS, Ensemble forecasting, business.industry, MULTISTAGE STOCHASTIC PROGRAMMING, Term (time), RESERVOIR, PREDICTIVE CONTROL SYSTEMS, business, Consensus forecast, SHORT TERM

Abstract

International audience; Short-term water system operation can be realized using Model Predictive Control (MPC). MPC is a method for operational management of complex dynamic systems. Applied to open water systems, MPC provides integrated, optimal, and proactive management, when forecasts are available. Notwithstanding these properties, if forecast uncertainty is not properly taken into account, the system performance can critically deteriorate.Ensemble forecast is a way to represent short-term forecast uncertainty. An ensemble forecast is a set of possible future trajectories of a meteorological or hydrological system. The growing ensemble forecasts' availability and accuracy raises the question on how to use them for operational management.The theoretical innovation presented here is the use of ensemble forecasts for optimal operation. Specifically, we introduce a tree based approach. We called the new method Tree-Based Model Predictive Control (TB-MPC). In TB-MPC, a tree is used to set up a Multistage Stochastic Programming, which finds a different optimal strategy for each branch and enhances the adaptivity to forecast uncertainty. Adaptivity reduces the sensitivity to wrong forecasts and improves the operational performance.TB-MPC is applied to the operational management of Salto Grande reservoir, located at the border between Argentina and Uruguay, and compared to other methods.

Published

2014

4. Short-Term Optimal Operation of Cascade Reservoirs Considering Dynamic Water Flow Hysteresis

Author

Yuan Liu, Qiumei Ma, Yanke Zhang, Yueqiu Wu, and Changming Ji

Subjects

ipoa, lcsh:Hydraulic engineering, Water flow, Geography, Planning and Development, 0207 environmental engineering, 02 engineering and technology, Inflow, 010501 environmental sciences, Aquatic Science, 01 natural sciences, Biochemistry, lcsh:Water supply for domestic and industrial purposes, water flow hysteresis, lcsh:TC1-978, Control theory, 020701 environmental engineering, 0105 earth and related environmental sciences, Water Science and Technology, lcsh:TD201-500, Attenuation, Term (time), Hysteresis (economics), Cascade, space mapping principle, Environmental science, Constant (mathematics), short-term optimal operation, Energy (signal processing)

Abstract

In making short-term optimal operation schemes of cascade reservoirs, water flow hysteresis between the upper reservoir and the lower reservoir is often considered as constant, which cannot really reflect the hysteresis variation between different water flows and will lead to losses of the optimal operation scheme&rsquo, s benefit. To depict the water flow hysteresis, a Dynamic Water Flow Hysteresis Method (DWFHM) is proposed, based on the space mapping principle. With the mapping operator in the DWFHM, the lower reservoir inflow can be directly obtained. Besides, the DWFHM is used to deal with the hydraulic relation constraint in the short-term optimal operation model of cascade reservoirs. Then, the improved model is applied to the Jinguan cascade reservoirs in the Yalong River basin and solved by an Improved Progressive Optimal Algorithm (IPOA). The results are as follows. (1) Compared with the traditional Fixed Water Flow Hysteresis Method (FWFHM), the inflow processes of the lower reservoir obtained by the DWFHM are more in line with the actual values, due to full consideration of the attenuation effect. (2) The optimal operation with the DWFHM can effectively increase the generated energy (2827 MW&middot, h and 504 MW&middot, h in the non-flood season and the flood season, respectively). Through the analysis of this case, the DWFHM developed in this study can effectively improve the practicability of the optimal operation scheme and reduce the risk in the operation of cascade reservoirs.

Published

2019

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

Author

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

Subjects

WATER power, DYNAMIC programming, WATER consumption

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. [ABSTRACT FROM AUTHOR]

Published

2020

6. Short-Term Optimal Operation of Cascade Reservoirs Considering Dynamic Water Flow Hysteresis.

Author

Zhang, Yanke, Liu, Yuan, Wu, Yueqiu, Ji, Changming, and Ma, Qiumei

Subjects

HYDRAULICS, HYSTERESIS, RESERVOIRS, WATERSHEDS

Abstract

In making short-term optimal operation schemes of cascade reservoirs, water flow hysteresis between the upper reservoir and the lower reservoir is often considered as constant, which cannot really reflect the hysteresis variation between different water flows and will lead to losses of the optimal operation scheme's benefit. To depict the water flow hysteresis, a Dynamic Water Flow Hysteresis Method (DWFHM) is proposed, based on the space mapping principle. With the mapping operator in the DWFHM, the lower reservoir inflow can be directly obtained. Besides, the DWFHM is used to deal with the hydraulic relation constraint in the short-term optimal operation model of cascade reservoirs. Then, the improved model is applied to the Jinguan cascade reservoirs in the Yalong River basin and solved by an Improved Progressive Optimal Algorithm (IPOA). The results are as follows. (1) Compared with the traditional Fixed Water Flow Hysteresis Method (FWFHM), the inflow processes of the lower reservoir obtained by the DWFHM are more in line with the actual values, due to full consideration of the attenuation effect. (2) The optimal operation with the DWFHM can effectively increase the generated energy (2827 MW·h and 504 MW·h in the non-flood season and the flood season, respectively). Through the analysis of this case, the DWFHM developed in this study can effectively improve the practicability of the optimal operation scheme and reduce the risk in the operation of cascade reservoirs. [ABSTRACT FROM AUTHOR]

Published

2019