Simulation and Optimization of Renewable Energy-Powered Desalination: A Bibliometric Analysis and Highlights of Recent Research

Pietrasanta, Ariana M.; Shaaban, Mostafa F.; Aguirre, Pío A.; Mussati, Sergio F.; Hamouda, Mohamed A.

doi:10.3390/su15129180

Cited by 2 publications

(2 citation statements)

References 158 publications

(89 reference statements)

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“…The costs of various technologies were recorded in the findings for [42] and [38]. In comparison to MD, computer models conducted in [44] by Pietrasanta et al based on ten different locations provided an indication that the climate and feed water salinity are key factors in permeate yield. The study also included the production capacity for RO ranges from 0.1 m3/day for marine and domestic uses to 395.000 m3/day for commercial applications, whereas the capacity for ED ranges from 2 to 145.000 m3/day.…”

Section: Performance Of the Desalination Technologiesmentioning

confidence: 99%

A Feasibility Study on the Implementation of a Solar Powered Water Desalination Plant

Adebisi,

Indongo,

Amusan

2023

JD-FEWS

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Water desalination plants powered by solar energy represent a viable solution for addressing a part of the water needs in areas without a reliable water supply. In this case extending the electric grid and water delivery to remote communities remain challenging for some countries. Using Namibia as a case study, this work carried out a feasibility study on the extent of which, solar energy could be used to power the entire desalination process thereby aiding groundwater usable for human consumption. This process includes but not limited to desalination of underground wells and boreholes as solution to the water shortage problem in remote places. In this study, a solar-powered desalination technique that could enhance the process of clean water provision to villagers is proposed. It further compares and analyzed various desalination technologies to determine the best fit based on the dryness of areas. Ohawuwanga Village in Namibia was used for evaluation purpose with a sampling instrument-questionnaire which determine the village's daily water consumption and corresponding power required. Modelling, simulation and analysis of the system was carried out using MATLAB Simulink in terms of energy consumption. Other parameters considered in this research are cost, water recovery ratio, salt removal factor, durability and market analysis. The research revealed that electrodialysis is the best technology for desalination in terms of efficient power consumption amidst other factors compared.

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Section: Performance Of the Desalination Technologiesmentioning

confidence: 99%

A Feasibility Study on the Implementation of a Solar Powered Water Desalination Plant

Adebisi,

Indongo,

Amusan

2023

JD-FEWS

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“…Ref. [5] introduces a priority-based load-shifting demand-response strategy to balance demand and supply with increased renewables. It provides insights into residential load-shifting and curtailments, emphasizing the potential of an automated demand response in residential settings.…”

Section: Introductionmentioning

confidence: 99%

Study on Dynamic Pricing Strategy for Industrial Power Users Considering Demand Response Differences in Master–Slave Game

Liu

Xing

et al. 2023

Sustainability

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With the deepening of power market reform, further study on power trading mechanisms has become the core issue of power market study. The development stage of the industrial electricity market requires efficient and flexible pricing mechanisms. Currently available pricing strategies are inadequate for demand response management. Therefore, this paper provides an in-depth study of the pricing mechanism in the industrial electricity market in the context of electricity market reform. It proposes a demand–response-based dynamic pricing strategy for industrial parks. The method proposes a dynamic pricing strategy for demand-side response in industrial parks based on master–slave game by establishing an exogenous model of demand-side response and incentives. Compared with the existing strategies, the strategy is more efficient and flexible, and effectively improves the economic efficiency of power trading and load regulation. Firstly, an exogenous model of demand-side response and incentive is built to characterize the demand-side response cost. The method focuses more on describing the exogenous characteristics of user incentives and response quantities. It only needs to analyze the exogenous indicators and random errors in various typical scenarios. The description of user demand-side response is more efficient. Secondly, a master–slave-game-based dynamic pricing strategy for industrial parks with demand-side response is proposed. The strategy is composed of a two-stage optimization. The primary regulation of customers is achieved by day-ahead time-of-use tariffs. The secondary regulation of customers is achieved by means of the same-day regulation of demand and purchase regarding clean electricity. The proposed two-stage price formation mechanism is more economical, more effective in load regulation, and improves the flexibility of industrial pricing. Finally, a case study is conducted on an industrial power user in a park in Liaoning Province. The results show that the proposed method is significantly better than existing methods in terms of improving the economic efficiency and load control effectiveness of the pricing strategy.

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Simulation and Optimization of Renewable Energy-Powered Desalination: A Bibliometric Analysis and Highlights of Recent Research

Cited by 2 publications

References 158 publications

A Feasibility Study on the Implementation of a Solar Powered Water Desalination Plant

A Feasibility Study on the Implementation of a Solar Powered Water Desalination Plant

Study on Dynamic Pricing Strategy for Industrial Power Users Considering Demand Response Differences in Master–Slave Game

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