Optimal short-term coordination of water-heat-power nexus incorporating plug-in electric vehicles and real-time demand response programs

Jabari, Farkhondeh; Jabari, Hamid; Mohammadi‐Ivatloo, Behnam; Ghafouri, Jafar

doi:10.1016/j.energy.2019.02.132

Cited by 27 publications

(14 citation statements)

References 30 publications

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“…Benefits resulting from these actions can include improving the quality of water supply by reducing water loss, minimizing energy costs, and increasing system performance without compromising operational reliability. The real-time demand management strategy is applied to water supply enterprises to reduce the target cost function as low as possible [2].…”

Section: Introductionmentioning

confidence: 99%

Development of model of optimal control of water supply system

Taghiyeva

2021

Sist. anal.i prikl. inform.

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This paper considers the problem of optimal control of branched water supply systems. To control the system, the problem of optimal distribution of products is developed whereas non-linear programming problems are applied. We consider a system for providing products, consisting of magistral and distribution pipelines, taking products from the magistral pipeline. Each distribution line has many warehouses. Products are taken into the system using the main intake facility and transferred between the warehouses using intermediate distribution facilities. To eliminate the deficiencies in management, tasks are set to determine the necessary intensities of product supply in the facilities, allowing timely provision of consumers with the necessary volume of products, to minimize losses, product discharges of facilities in the system during a certain control period.

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Section: Introductionmentioning

confidence: 99%

Development of model of optimal control of water supply system

Taghiyeva

2021

Sist. anal.i prikl. inform.

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“…They concluded that Indus Water Treaty has been successful in solving the water conflicts between India and Pakistan . Jabari et al studied the water–heat‐power nexus to co‐optimize water and power generation systems. They reported that integration of plug‐in electric vehicles and real‐time demand response programs would result in a saving of US$ 659,573 in the total fossil fuel energy use .…”

Section: Introductionmentioning

confidence: 99%

“…Jabari et al studied the water–heat‐power nexus to co‐optimize water and power generation systems. They reported that integration of plug‐in electric vehicles and real‐time demand response programs would result in a saving of US$ 659,573 in the total fossil fuel energy use . Wang et al developed a decision support framework based on the nexus of energy and water for the use in urban resource planning.…”

Section: Introductionmentioning

confidence: 99%

“…They concluded that Indus Water Treaty has been successful in solving the water conflicts between India and Pakistan. 16 Jabari et al 17 studied the waterheat-power nexus to co-optimize water and power generation systems.…”

Section: Introductionmentioning

confidence: 99%

“…They reported that integration of plug-in electric vehicles and real-time demand response programs would result in a saving of US$ 659,573 in the total fossil fuel energy use. 17 Wang et al 18 developed a decision support framework based on the nexus of energy and water for the use in urban resource planning. They tested the framework in Greater Accra Metropolitan Area in Ghana as a case study.…”

Section: Introductionmentioning

confidence: 99%

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Modeling of water–energy‐environment nexus by water evaluation and planning and long‐range energy alternative planning models: A case study

Javadifard

Khadivi

Motahari

et al. 2019

Env Prog and Sustain Energy

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The present study, as the first study of this type in Iran, was carried out with the aim of modeling Water–Energy‐Environment nexus of Jajrood River in northern Iran. The water evaluation and planning and long‐range energy alternative planning software were used as practical tools for water and energy modeling. To this end, after collecting the required input data on water and power supply and demand in Jajrood Basin, with regard to the population increase rate, three scenarios were simulated. By linking the data of the two software, the overlap between supply and demand in the nexus between water and energy, and greenhouse gas emissions were compared. According to the results, “reducing water consumption” (first scenario) and “rising water prices” (second scenario) were the best scenarios for policy‐making in the fields of water, energy, and environmental conservation in the next 20 years. These two scenarios will have four benefits of reducing water consumption (32.9 and 16.52%, respectively, under the first and second scenarios), reducing energy consumption (32 and 14.4%, respectively, under the first and second scenarios), reducing power generation (1.87 and 81.8%, respectively, under the first and second scenarios), and reducing greenhouse gas emissions (25 and 11%, respectively, under the first and second scenarios).

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Optimization of a tidal‐battery‐diesel driven energy‐efficient standalone microgrid considering the load‐curve flattening program

Jabari

Arasteh

Fini

et al. 2021

Int Trans Electr Energ Syst

Self Cite

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The diesel generators are usually used for supplying the electrical demand of the semi-submersible oil drilling rigs. The specific fuel consumption (SFC) of each diesel engine changes nonlinearly with respect to its power product.Hence, this paper presents an economic fuel dispatch model for diesel engines powered oil rig platforms using the cubic spline interpolation curve fitting of the SFC-power non-linear dependence. Moreover, the total fuel consumption of the diesel generators significantly reduces by shifting a partial part of the electricity demand of the offshore drilling rigs from on-peak time intervals to off-peak periods. In addition, battery energy storage contributes to the load curve smoothing strategy. A mixed-integer non-linear programming problem is developed under generalized algebraic mathematical modeling system to find the optimum fuel consumption and power generation schedules of the diesel producers, the value of demand increase/decrease, and the charge/discharge pattern of the battery at each operating time interval. A benchmark oil rig with

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Optimal short-term coordination of water-heat-power nexus incorporating plug-in electric vehicles and real-time demand response programs

Cited by 27 publications

References 30 publications

Development of model of optimal control of water supply system

Development of model of optimal control of water supply system

Modeling of water–energy‐environment nexus by water evaluation and planning and long‐range energy alternative planning models: A case study

Optimization of a tidal‐battery‐diesel driven energy‐efficient standalone microgrid considering the load‐curve flattening program

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