A PSO (particle swarm optimization)-based model for the optimal management of a small PV(Photovoltaic)-pump hydro energy storage in a rural dry area

In developing countries, the exploitation of renewable sources is an opportunity to increase the number of people who have simple access to electricity and to water. Among other technologies, stand-alone photovoltaic pumping systems are often installed in remote areas where the grid is not available...

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Published inEnergy (Oxford) Vol. 76; pp. 168 - 174
Main Authors Stoppato, Anna, Cavazzini, Giovanna, Ardizzon, Guido, Rossetti, Antonio
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.11.2014
Subjects
algorithms
batteries
developing countries
Diesel
Diesel engines
diesel fuel
Electricity
energy
Energy storage
groundwater
irrigation
Nigeria
Optimization
Particle swarm theory
people
Photovoltaic cells
Photovoltaic pumping systems
Power plants
Pump as turbine
Pumps
Solar cells
villages
Water cooling
Water saving
water storage
Nigeria
Water cooling
Photovoltaic pumping systems
Particle swarm theory
Water saving
Pump as turbine
Energy storage
Online AccessGet full text
ISSN0360-5442
DOI10.1016/j.energy.2014.06.004

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Abstract In developing countries, the exploitation of renewable sources is an opportunity to increase the number of people who have simple access to electricity and to water. Among other technologies, stand-alone photovoltaic pumping systems are often installed in remote areas where the grid is not available: they are used for irrigation and/or other local water needs and can supply also electricity to small consumers. In this paper, by means of an optimization model based on the Particle Swarm Theory, the managing strategy of a system aimed at supplying electricity and water to an isolated small village in Nigeria has been optimized in order to fulfill the requirement of the users and to improve the system efficiency. Ground water is pumped into a storage reservoir and can be used both for irrigation and domestic use. The system is composed by a photovoltaic plant, a pump as turbine, a pack of batteries and a diesel internal combustion engine for integration purposes. A simultaneous optimization of both devices size and plant management has been performed in order to achieve the best economic performances or to fulfil the requirement only by renewable sources. In the first case, the use of a pump as turbine permits to save about 4% of diesel oil, even if the low cost of fuel makes it convenient to use the engine. In the latter case the optimum size of photovoltaic plant is about 16 times higher than in the first one, while the batteries' and pump's optimum sizes are strictly connected to the maximum allowable value for the water storage volume. •A procedure based on the Particle Swarm Optimization is applied to a hybrid energy system.•The simultaneous optimization of the devices size and their operation is performed.•The use of a pump as turbine is investigated.•The use of an internal combustion is preferred due to the low cost of oil.•If energy is given only by a PV (photovoltaic) plant, the results depend on water storage capacity.
AbstractList In developing countries, the exploitation of renewable sources is an opportunity to increase the number of people who have simple access to electricity and to water. Among other technologies, stand-alone photovoltaic pumping systems are often installed in remote areas where the grid is not available: they are used for irrigation and/or other local water needs and can supply also electricity to small consumers. In this paper, by means of an optimization model based on the Particle Swarm Theory, the managing strategy of a system aimed at supplying electricity and water to an isolated small village in Nigeria has been optimized in order to fulfill the requirement of the users and to improve the system efficiency. Ground water is pumped into a storage reservoir and can be used both for irrigation and domestic use. The system is composed by a photovoltaic plant, a pump as turbine, a pack of batteries and a diesel internal combustion engine for integration purposes. A simultaneous optimization of both devices size and plant management has been performed in order to achieve the best economic performances or to fulfil the requirement only by renewable sources. In the first case, the use of a pump as turbine permits to save about 4% of diesel oil, even if the low cost of fuel makes it convenient to use the engine. In the latter case the optimum size of photovoltaic plant is about 16 times higher than in the first one, while the batteries' and pump's optimum sizes are strictly connected to the maximum allowable value for the water storage volume.
In developing countries, the exploitation of renewable sources is an opportunity to increase the number of people who have simple access to electricity and to water. Among other technologies, stand-alone photovoltaic pumping systems are often installed in remote areas where the grid is not available: they are used for irrigation and/or other local water needs and can supply also electricity to small consumers. In this paper, by means of an optimization model based on the Particle Swarm Theory, the managing strategy of a system aimed at supplying electricity and water to an isolated small village in Nigeria has been optimized in order to fulfill the requirement of the users and to improve the system efficiency. Ground water is pumped into a storage reservoir and can be used both for irrigation and domestic use. The system is composed by a photovoltaic plant, a pump as turbine, a pack of batteries and a diesel internal combustion engine for integration purposes. A simultaneous optimization of both devices size and plant management has been performed in order to achieve the best economic performances or to fulfil the requirement only by renewable sources. In the first case, the use of a pump as turbine permits to save about 4% of diesel oil, even if the low cost of fuel makes it convenient to use the engine. In the latter case the optimum size of photovoltaic plant is about 16 times higher than in the first one, while the batteries' and pump's optimum sizes are strictly connected to the maximum allowable value for the water storage volume. •A procedure based on the Particle Swarm Optimization is applied to a hybrid energy system.•The simultaneous optimization of the devices size and their operation is performed.•The use of a pump as turbine is investigated.•The use of an internal combustion is preferred due to the low cost of oil.•If energy is given only by a PV (photovoltaic) plant, the results depend on water storage capacity.
Author Cavazzini, Giovanna
Ardizzon, Guido
Rossetti, Antonio
Stoppato, Anna
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  givenname: Giovanna
  orcidid: 0000-0003-0829-0965
  surname: Cavazzini
  fullname: Cavazzini, Giovanna
  email: giovanna.cavazzini@unipd.it
– sequence: 3
  givenname: Guido
  orcidid: 0000-0003-1598-1115
  surname: Ardizzon
  fullname: Ardizzon, Guido
– sequence: 4
  givenname: Antonio
  surname: Rossetti
  fullname: Rossetti, Antonio
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Keywords Water cooling
Photovoltaic pumping systems
Particle swarm theory
Water saving
Pump as turbine
Energy storage
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Snippet In developing countries, the exploitation of renewable sources is an opportunity to increase the number of people who have simple access to electricity and to...
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SubjectTerms algorithms
batteries
developing countries
Diesel
Diesel engines
diesel fuel
Electricity
energy
Energy storage
groundwater
irrigation
Nigeria
Optimization
Particle swarm theory
people
Photovoltaic cells
Photovoltaic pumping systems
Power plants
Pump as turbine
Pumps
Solar cells
villages
Water cooling
Water saving
water storage
Title A PSO (particle swarm optimization)-based model for the optimal management of a small PV(Photovoltaic)-pump hydro energy storage in a rural dry area
URI https://dx.doi.org/10.1016/j.energy.2014.06.004
https://www.proquest.com/docview/1655741813
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