Aiding Water Production in Isolated Islands Using Integrated Renewable Energies Sources

Worldwide, several locations are characterized by abundance of natural energy sources, prone to be converted in power for electricity generation and process-related duties. However, the discontinuity of such renewable energy sources (RES) coupled with their conversion difficulties, results in modera...

Full description

Bibliographic Details
Main Authors: Mariasole Cipolletta, Valeria Casson Moreno, Elisa Dallavalle, Barbara Zanuttigh, Valerio Cozzani
Format: Article
Language:English
Published: AIDIC Servizi S.r.l. 2021-06-01
Series:Chemical Engineering Transactions
Online Access:https://www.cetjournal.it/index.php/cet/article/view/11461
id doaj-05bf1c1a74ac443899f48c815ae07ce8
record_format Article
spelling doaj-05bf1c1a74ac443899f48c815ae07ce82021-06-15T20:22:42ZengAIDIC Servizi S.r.l.Chemical Engineering Transactions2283-92162021-06-018610.3303/CET2186035Aiding Water Production in Isolated Islands Using Integrated Renewable Energies SourcesMariasole CipollettaValeria Casson MorenoElisa DallavalleBarbara ZanuttighValerio CozzaniWorldwide, several locations are characterized by abundance of natural energy sources, prone to be converted in power for electricity generation and process-related duties. However, the discontinuity of such renewable energy sources (RES) coupled with their conversion difficulties, results in moderate advantages when a steady power demand has to be satisfied using a single energy source. To overcome the forehead mentioned limitations, profitable renewable energy harvesting can be reached by exploiting multiple RES at once. Such possibility is, in principle, very versatile, thanks to the modularity of the integrated power generation plant, that can be designed based on the energy availability and investment options. In the present work, the approach of integrating multiple RES was used to assess the technical feasibility of harvesting solar (via photovoltaic panels) and wave energy (via wave energy converters) to supply a desalination unit for the production of irrigation water in Tenerife (Canary Islands, Spain). The available energy from RES was evaluated through the elaboration of weather-climate hourly data, offered by open-access databases. Then, the proper conversion technologies were selected and single production curves were obtained. The integrated system was conceptually designed overlapping the hourly power generations; its performance was assessed with respect to possible duties of the desalination unit. The self-sustainment level of the integrated system was evaluated by calculating the percentage of time that RES can cover the requested power. Based on this, the selection of the most sustainable RES mixing was set, determining, in turn, the final productivity of the desalination facility. The results demonstrated that the integration of different RES represents a reliable and environmentally sustainable solution, especially for remote areas dependent on fossil fuels importation.https://www.cetjournal.it/index.php/cet/article/view/11461
collection DOAJ
language English
format Article
sources DOAJ
author Mariasole Cipolletta
Valeria Casson Moreno
Elisa Dallavalle
Barbara Zanuttigh
Valerio Cozzani
spellingShingle Mariasole Cipolletta
Valeria Casson Moreno
Elisa Dallavalle
Barbara Zanuttigh
Valerio Cozzani
Aiding Water Production in Isolated Islands Using Integrated Renewable Energies Sources
Chemical Engineering Transactions
author_facet Mariasole Cipolletta
Valeria Casson Moreno
Elisa Dallavalle
Barbara Zanuttigh
Valerio Cozzani
author_sort Mariasole Cipolletta
title Aiding Water Production in Isolated Islands Using Integrated Renewable Energies Sources
title_short Aiding Water Production in Isolated Islands Using Integrated Renewable Energies Sources
title_full Aiding Water Production in Isolated Islands Using Integrated Renewable Energies Sources
title_fullStr Aiding Water Production in Isolated Islands Using Integrated Renewable Energies Sources
title_full_unstemmed Aiding Water Production in Isolated Islands Using Integrated Renewable Energies Sources
title_sort aiding water production in isolated islands using integrated renewable energies sources
publisher AIDIC Servizi S.r.l.
series Chemical Engineering Transactions
issn 2283-9216
publishDate 2021-06-01
description Worldwide, several locations are characterized by abundance of natural energy sources, prone to be converted in power for electricity generation and process-related duties. However, the discontinuity of such renewable energy sources (RES) coupled with their conversion difficulties, results in moderate advantages when a steady power demand has to be satisfied using a single energy source. To overcome the forehead mentioned limitations, profitable renewable energy harvesting can be reached by exploiting multiple RES at once. Such possibility is, in principle, very versatile, thanks to the modularity of the integrated power generation plant, that can be designed based on the energy availability and investment options. In the present work, the approach of integrating multiple RES was used to assess the technical feasibility of harvesting solar (via photovoltaic panels) and wave energy (via wave energy converters) to supply a desalination unit for the production of irrigation water in Tenerife (Canary Islands, Spain). The available energy from RES was evaluated through the elaboration of weather-climate hourly data, offered by open-access databases. Then, the proper conversion technologies were selected and single production curves were obtained. The integrated system was conceptually designed overlapping the hourly power generations; its performance was assessed with respect to possible duties of the desalination unit. The self-sustainment level of the integrated system was evaluated by calculating the percentage of time that RES can cover the requested power. Based on this, the selection of the most sustainable RES mixing was set, determining, in turn, the final productivity of the desalination facility. The results demonstrated that the integration of different RES represents a reliable and environmentally sustainable solution, especially for remote areas dependent on fossil fuels importation.
url https://www.cetjournal.it/index.php/cet/article/view/11461
work_keys_str_mv AT mariasolecipolletta aidingwaterproductioninisolatedislandsusingintegratedrenewableenergiessources
AT valeriacassonmoreno aidingwaterproductioninisolatedislandsusingintegratedrenewableenergiessources
AT elisadallavalle aidingwaterproductioninisolatedislandsusingintegratedrenewableenergiessources
AT barbarazanuttigh aidingwaterproductioninisolatedislandsusingintegratedrenewableenergiessources
AT valeriocozzani aidingwaterproductioninisolatedislandsusingintegratedrenewableenergiessources
_version_ 1721375779079585792