FEASIBILITY ANALYSIS FOR THE DECARBONISATION OF A DECENTRALISED GRID SYSTEM: A CASE STUDY FOR THE ISLAND OF FUERTEVENTURA, SPAIN

Melian Batista, Pablo

January 2022

Decarbonisation of different energy sectors of society is becoming a pressing issue globally withnumerous legislations and objectives being set to decarbonise electrical grids worldwide. Somehave already been met; however, islanded grids still heavily rely on fossil fuels to meet their electrical demand due to the weakness of their grid and limited available space forcing them to use space-efficient technologies such as diesel generators. This is the case of Fuerteventura in the Canary Islands (Spain) which produces 80-90% of its electricity from fossil fuels. This study will analyse the feasibility of decarbonising the electrical grid of Fuerteventura using a decentralised grid system with wind, solar, and battery storage to achieve 100% renewable generation. To select the best hybrid energy system for the case study, a 9-step methodology has been presented and followed in which both descriptive (qualitative) and quantitative data have been used to provide the background knowledge of the study and the inputs for the analysis which is done using the microgrids optimisation model HOMER. The analysis aims to understand the grid and renewable resources on the island to later develop the different scenarios to be reviewed. The three different scenarios, wind-battery, solar-battery, and wind-solar-battery were modelled and simulated using the latest HOMER software. Results showed reduced LCOE and capital costs in the wind-solar-battery scenario compared to the wind-battery and solar-battery scenarios due to increased use of wind and lower capacity of installed batteries needed. Space availability was shown to be a problem for the scenarios using wind as the turbines would occupy 5% of the islands surface. Environmental and visual impacts would also be noticeable under the wind-battery and wind-solar-battery scenarios as the entire island is a Biosphere Nature Reserve and is a well-known touristic destination for natural virgin beaches. Additionally, the results showed that all 3 scenarios had excess electricity values above 50% of the total electrical production and still experienced some capacity shortages. To solve this, diversification of the generation and storage facilities, implementation of DSM (Demand side management) and V2G (Vehicle-to-grid), and interconnection of the islands is proposed with the latter being the most realistic solution. The study concludes the wind-solar-battery is the most technological and economically feasible solution although several issues need to be addressed for a similar project to be implemented on a real island.

Hybrid renewable energy systems

HOMER Software

Wind energy

PV

Battery storage

Distributed generation

Decarbonisation

Energy Engineering

Energiteknik

Grid connected hybrid renewable energy systems for urban households in Djibouti: An economic evaluation

Guelleh, Houssein O., Patel, Rajnikant, Kara-Zaitri, Chakib, Mujtaba, Iqbal M.

02 November 2022

Yes / The cost of electricity produced by thermal power plants in Republic of Djibouti is relatively high at about $0.32/ kWh. This is due to its dependence on imported oil coupled with fluctuating oil prices. Consequently, the customer pays a high electricity bill. However, Djibouti is endowed with indigenous renewable energy resources such as a good solar irradiance of 5.92 kWh/ m2 day, a potential geothermal energy estimated up to 1000 MW, and few sites with annual wind speed higher than 6 m/s. The goal of this paper is, therefore, to assess an economic evaluation of different grid connected hybrid renewable energy systems to a residential urban house located in Tadjourah city (11.7913◦ N, 42.8796◦ E) in the North-Eastern part of Djibouti to reduce the cost of electricity from the grid. To reach this objective, a powerful software tool called HOMER (Hybrid Optimization Model for Electric Renewables) has been used to find the optimum hybrid energy system using real wind and solar irradiation data. The results obtained from this study show that the best economical suited combination of hybrid renewable energy system is a PV-Wind grid connected system. This study shows also that potentially the indigenous renewable energy contribution, in Tadjourah, can be as much as 77 % with 47 % of solar and 30% of Wind energy. The Net Present Cost, the Levelized Cost of Energy, and the operating cost of the optimal HRES are $337, $0.002/kWh and $1,025/year, respectively. When compared with the average cost of grid-only connection of $0.32/kWh, the optimal hybrid renewable energy system is more economical and will save 51 % of the cost that the customer must pay when using only the electricity from the grid.

Hybrid renewable energy system (HRES)

Wind energy

Solar PV

Djibouti

Renewable power generation for developing societies on a remote island in Fiji : A case study / Förnybar kraftproduktion för utvecklingssamhällen på en avlägset belägen ö i Fiji : En fallstudie

Rebhan, Erika, Wahnström, Ellinor

January 2020

Access to electricity is an important factor for rural development as many needs and services such as education, health care and water supply all have energy requirements. The aim of this study was to develop a sustainable electrification system based on renewable energy for the remote village Keteira on Moala Island, Fiji. Keteira does not currently have any reliable electricity supply, but the Fijian Government has set ambitious goals regarding electricity access and the renewable share in the power generation which led to the conclusion that Keteira in the near future will have access to electricity. The daily electricity demand profile for the village has been estimated based on consumption patterns available from other communities in similar living standards. The renewable energy sources available to Moala island have been identified as solar, wind and biomass energy, and the potentials of those sources were calculated based on global data libraries available online. Six different electrification system alternatives were developed, based on the aforementioned energy resources, either as single energy source-based systems or hybrid energy system solutions.These system alternatives were evaluated analytically and optimised for Levelized Cost of Electricity (LCOE) using the software HOMER Pro. The results showed that the optimal LCOE was 0.516 USD/kWh for the hybrid energy system which consisted of biomass, wind, solar and battery storage designed to supply the maximum power demand and daily energy demand in the village. Capital investment cost (CAPEX) was estimated as 480,500 USD for installation of the optimum system. However, it should be taken into account that no field study could be conducted in Keteira due to covid-19 and that the resulting system therefore might not be the most optimal for Keteira’s real conditions. / Tillgång till elektricitet är en viktig faktor för utveckling av landsbygden eftersom många behov och tjänster såsom utbildning, hälsovård och vattenförsörjning har energikrav. Syftet med denna studie var att utveckla ett hållbart elektrifieringssystem baserat på förnybar energi för den avlägset belägna byn Keteira på Moala Island, Fiji. Keteira har för närvarande ingen pålitlig elförsörjning, men den Fijianska regeringen har satt upp ambitiösa mål gällande tillgång till elektricitet och den förnybara andelen i kraftproduktionen vilket ledde till slutsatsen att Keteira kommer att få tillgång till elektricitet inom en snar framtid. Den dagliga elbehovsprofilen för byn har uppskattats baserat på tillgängliga konsumtionsmönster från andra samhällen med liknande levnadsstandard. De förnybara energikällor som finns på ön Moala har identifierats som sol-, vind- och biomassaenergi, där potentialen för dessa källor beräknades baserat på globala databibliotek tillgängliga online. Sex olika elektrifieringssystemsalternativ utvecklades baserat på de tidigare nämnda energiresurserna, antingen som systemlösningar bestående av en energikälla eller som hybrid-energisystemlösningar. Dessa systemalternativ utvärderades analytiskt och optimerades för Levelized Cost of Electricity (LCOE) med hjälp av programvaran HOMER Pro. Resultaten visade att den optimala LCOE var 0,516 USD / kWh för hybridenergisystemet vilket bestod av biomassa, vind, sol och batterilagring utformat för att tillgodose det maximala kraftbehovet och det dagliga energibehovet i byn. Kapitalinvesteringskostnaden (CAPEX) beräknades till 480 500 USD för installation av det optimala systemet. Det bör dock beaktas att ingen fältstudie kunde genomföras i Keteira på grund av covid-19 och att det resulterande systemet därför kanske inte är det mest optimala för Keteiras verkliga förhållanden.

Fiji

Moala Island

Renewable power generation

Remote electrification

HOMER software

Fiji

Moala

Förnybar kraftproduktion

Elektrifiering på avlägsna platser

HOMER-programvara

Energy Systems

Energisystem

Simulação e dimensionamento ótimo de sistemas autônomos híbridos com reservatórios hidrelétricos

Vega, Fausto Alfredo Canales

January 2015

O interesse mundial e os investimentos em fontes renováveis de energia têm aumentado consideravelmente nos últimos anos. Estas tecnologias têm a vantagem de aproveitar os recursos disponíveis localmente, reduzindo a dependência de fontes externas. Entretanto, um dos principais problemas associados a muitas das tecnologias de energias renováveis é sua imprevisibilidade ou intermitência. O armazenamento de energia é a técnica mais utilizada para moderar estas intermitências. Para aproveitamento em grande escala, os reservatórios hidrelétricos (de usinas hidrelétricas convencionais com reservatório e usinas hidrelétricas reversíveis) representam a tecnologia mais madura e amplamente aproveitada para armazenamento de energia elétrica na forma de energia potencial no volume de água. Isto faz destes uma opção importante a ser incluída no projeto de um sistema autônomo híbrido de geração de energia. Segundo diferentes autores consultados, o software HOMER (Hybrid Optimization Model for Electric Renewables) é a ferramenta mais amplamente utilizada em pesquisas relacionadas à simulação e configuração ótima deste tipo de sistemas. Esta tese apresenta um conjunto de procedimentos para determinar, em nível de pré-viabilidade, a configuração ótima (em termos do custo presente líquido) e o conjunto de arranjos viáveis de um sistema autônomo de geração de energia incluindo fontes renováveis intermitentes e reservatórios hidrelétricos. O software HOMER é aplicado na simulação e avaliação dos sistemas híbridos dos estudos de caso hipotéticos do presente trabalho, utilizados para validar os métodos propostos. Estes exemplos foram criados a partir de dados reais relacionados ao Estado de Rio Grande do Sul. Os procedimentos descritos são aplicáveis a qualquer região do mundo onde exista um local com potencial para reservatórios hidrelétricos, assim como dados de disponibilidade e custos relacionados a fontes renováveis intermitentes. Além de determinar a configuração ótima e o conjunto de arranjos viáveis, os resultados obtidos indicam que os procedimentos descritos podem ajudar na definição da melhor utilização de um local com potencial hidrelétrico. Igualmente, permitem estimar a quantidade de eletricidade excedente que poderia ser recuperada através de usinas reversíveis. Os resultados mostram que configuração ótima depende de muitos fatores, tais como restrições hidrológicas, a carga a ser atendida e o custo de geração de cada fonte. / Global interest and investments in renewable energy sources has increased considerably in recent years. These technologies have the advantage of using locally available resources, reducing dependence on external energy sources. However, most renewable energy technologies suffer from an intermittent characteristic due to the diurnal and seasonal patterns of the natural resources needed for power generation. Energy Storage is the most used technique to buffer this intermittency. For large-scale applications, hydropower reservoirs (of conventional and pumped storage plants) are the most mature and the most widely employed technology for electricity storage in the form of potential energy. For this reason, a hydropower reservoir is a suitable option to consider including in an autonomous hybrid power system. According to many authors, the HOMER model (Hybrid Optimization Model for Electric Renewables) is the most widely used tool in research studies related to simulation and optimal design of this type of systems. This thesis presents some procedures to define, as a pre-feasibility assessment, the optimal configuration (in terms of Net Present Cost) and set of feasible designs of an autonomous hybrid power system that includes intermittent renewable energy sources and hydropower reservoirs. The HOMER software is used for simulating and evaluating the hybrid power systems of the hypothetical case studies, used to validate the proposed methods. These examples were created based on real data related to the State of Rio Grande do Sul, Brazil. The procedures described can be adapted to any other region of the world where exists a site suitable for the construction of hydropower reservoirs, along with available data regarding intermittent renewable sources and generation costs. Besides defining the optimal configuration and the set of feasible designs, the results indicate that the procedures explained could help in the definition of the best use of a site with hydropower potential. Likewise, these methods can also be used to estimate how much excess electricity can be recovered by means of pumped storage hydropower. The results show that the optimal system design depends on many factors such as hydrological constraints, average load to serve and energy cost of each source.

Energia renovável

Sistemas híbridos

Reservatório hidrelétrico

Armazenamento de energia

HOMER (Programa de Computador)

Hydropower reservoirs

Pumped storage hydropower

Autonomous hybrid power systems

Renewable energies

Energy storage

HOMER software

Pre-feasibility assessment

Simulação e dimensionamento ótimo de sistemas autônomos híbridos com reservatórios hidrelétricos

Vega, Fausto Alfredo Canales

January 2015

O interesse mundial e os investimentos em fontes renováveis de energia têm aumentado consideravelmente nos últimos anos. Estas tecnologias têm a vantagem de aproveitar os recursos disponíveis localmente, reduzindo a dependência de fontes externas. Entretanto, um dos principais problemas associados a muitas das tecnologias de energias renováveis é sua imprevisibilidade ou intermitência. O armazenamento de energia é a técnica mais utilizada para moderar estas intermitências. Para aproveitamento em grande escala, os reservatórios hidrelétricos (de usinas hidrelétricas convencionais com reservatório e usinas hidrelétricas reversíveis) representam a tecnologia mais madura e amplamente aproveitada para armazenamento de energia elétrica na forma de energia potencial no volume de água. Isto faz destes uma opção importante a ser incluída no projeto de um sistema autônomo híbrido de geração de energia. Segundo diferentes autores consultados, o software HOMER (Hybrid Optimization Model for Electric Renewables) é a ferramenta mais amplamente utilizada em pesquisas relacionadas à simulação e configuração ótima deste tipo de sistemas. Esta tese apresenta um conjunto de procedimentos para determinar, em nível de pré-viabilidade, a configuração ótima (em termos do custo presente líquido) e o conjunto de arranjos viáveis de um sistema autônomo de geração de energia incluindo fontes renováveis intermitentes e reservatórios hidrelétricos. O software HOMER é aplicado na simulação e avaliação dos sistemas híbridos dos estudos de caso hipotéticos do presente trabalho, utilizados para validar os métodos propostos. Estes exemplos foram criados a partir de dados reais relacionados ao Estado de Rio Grande do Sul. Os procedimentos descritos são aplicáveis a qualquer região do mundo onde exista um local com potencial para reservatórios hidrelétricos, assim como dados de disponibilidade e custos relacionados a fontes renováveis intermitentes. Além de determinar a configuração ótima e o conjunto de arranjos viáveis, os resultados obtidos indicam que os procedimentos descritos podem ajudar na definição da melhor utilização de um local com potencial hidrelétrico. Igualmente, permitem estimar a quantidade de eletricidade excedente que poderia ser recuperada através de usinas reversíveis. Os resultados mostram que configuração ótima depende de muitos fatores, tais como restrições hidrológicas, a carga a ser atendida e o custo de geração de cada fonte. / Global interest and investments in renewable energy sources has increased considerably in recent years. These technologies have the advantage of using locally available resources, reducing dependence on external energy sources. However, most renewable energy technologies suffer from an intermittent characteristic due to the diurnal and seasonal patterns of the natural resources needed for power generation. Energy Storage is the most used technique to buffer this intermittency. For large-scale applications, hydropower reservoirs (of conventional and pumped storage plants) are the most mature and the most widely employed technology for electricity storage in the form of potential energy. For this reason, a hydropower reservoir is a suitable option to consider including in an autonomous hybrid power system. According to many authors, the HOMER model (Hybrid Optimization Model for Electric Renewables) is the most widely used tool in research studies related to simulation and optimal design of this type of systems. This thesis presents some procedures to define, as a pre-feasibility assessment, the optimal configuration (in terms of Net Present Cost) and set of feasible designs of an autonomous hybrid power system that includes intermittent renewable energy sources and hydropower reservoirs. The HOMER software is used for simulating and evaluating the hybrid power systems of the hypothetical case studies, used to validate the proposed methods. These examples were created based on real data related to the State of Rio Grande do Sul, Brazil. The procedures described can be adapted to any other region of the world where exists a site suitable for the construction of hydropower reservoirs, along with available data regarding intermittent renewable sources and generation costs. Besides defining the optimal configuration and the set of feasible designs, the results indicate that the procedures explained could help in the definition of the best use of a site with hydropower potential. Likewise, these methods can also be used to estimate how much excess electricity can be recovered by means of pumped storage hydropower. The results show that the optimal system design depends on many factors such as hydrological constraints, average load to serve and energy cost of each source.

Energia renovável

Sistemas híbridos

Reservatório hidrelétrico

Armazenamento de energia

HOMER (Programa de Computador)

Hydropower reservoirs

Pumped storage hydropower

Autonomous hybrid power systems

Renewable energies

Energy storage

HOMER software

Pre-feasibility assessment

Simulação e dimensionamento ótimo de sistemas autônomos híbridos com reservatórios hidrelétricos

Vega, Fausto Alfredo Canales

January 2015

O interesse mundial e os investimentos em fontes renováveis de energia têm aumentado consideravelmente nos últimos anos. Estas tecnologias têm a vantagem de aproveitar os recursos disponíveis localmente, reduzindo a dependência de fontes externas. Entretanto, um dos principais problemas associados a muitas das tecnologias de energias renováveis é sua imprevisibilidade ou intermitência. O armazenamento de energia é a técnica mais utilizada para moderar estas intermitências. Para aproveitamento em grande escala, os reservatórios hidrelétricos (de usinas hidrelétricas convencionais com reservatório e usinas hidrelétricas reversíveis) representam a tecnologia mais madura e amplamente aproveitada para armazenamento de energia elétrica na forma de energia potencial no volume de água. Isto faz destes uma opção importante a ser incluída no projeto de um sistema autônomo híbrido de geração de energia. Segundo diferentes autores consultados, o software HOMER (Hybrid Optimization Model for Electric Renewables) é a ferramenta mais amplamente utilizada em pesquisas relacionadas à simulação e configuração ótima deste tipo de sistemas. Esta tese apresenta um conjunto de procedimentos para determinar, em nível de pré-viabilidade, a configuração ótima (em termos do custo presente líquido) e o conjunto de arranjos viáveis de um sistema autônomo de geração de energia incluindo fontes renováveis intermitentes e reservatórios hidrelétricos. O software HOMER é aplicado na simulação e avaliação dos sistemas híbridos dos estudos de caso hipotéticos do presente trabalho, utilizados para validar os métodos propostos. Estes exemplos foram criados a partir de dados reais relacionados ao Estado de Rio Grande do Sul. Os procedimentos descritos são aplicáveis a qualquer região do mundo onde exista um local com potencial para reservatórios hidrelétricos, assim como dados de disponibilidade e custos relacionados a fontes renováveis intermitentes. Além de determinar a configuração ótima e o conjunto de arranjos viáveis, os resultados obtidos indicam que os procedimentos descritos podem ajudar na definição da melhor utilização de um local com potencial hidrelétrico. Igualmente, permitem estimar a quantidade de eletricidade excedente que poderia ser recuperada através de usinas reversíveis. Os resultados mostram que configuração ótima depende de muitos fatores, tais como restrições hidrológicas, a carga a ser atendida e o custo de geração de cada fonte. / Global interest and investments in renewable energy sources has increased considerably in recent years. These technologies have the advantage of using locally available resources, reducing dependence on external energy sources. However, most renewable energy technologies suffer from an intermittent characteristic due to the diurnal and seasonal patterns of the natural resources needed for power generation. Energy Storage is the most used technique to buffer this intermittency. For large-scale applications, hydropower reservoirs (of conventional and pumped storage plants) are the most mature and the most widely employed technology for electricity storage in the form of potential energy. For this reason, a hydropower reservoir is a suitable option to consider including in an autonomous hybrid power system. According to many authors, the HOMER model (Hybrid Optimization Model for Electric Renewables) is the most widely used tool in research studies related to simulation and optimal design of this type of systems. This thesis presents some procedures to define, as a pre-feasibility assessment, the optimal configuration (in terms of Net Present Cost) and set of feasible designs of an autonomous hybrid power system that includes intermittent renewable energy sources and hydropower reservoirs. The HOMER software is used for simulating and evaluating the hybrid power systems of the hypothetical case studies, used to validate the proposed methods. These examples were created based on real data related to the State of Rio Grande do Sul, Brazil. The procedures described can be adapted to any other region of the world where exists a site suitable for the construction of hydropower reservoirs, along with available data regarding intermittent renewable sources and generation costs. Besides defining the optimal configuration and the set of feasible designs, the results indicate that the procedures explained could help in the definition of the best use of a site with hydropower potential. Likewise, these methods can also be used to estimate how much excess electricity can be recovered by means of pumped storage hydropower. The results show that the optimal system design depends on many factors such as hydrological constraints, average load to serve and energy cost of each source.

Energia renovável

Sistemas híbridos

Reservatório hidrelétrico

Armazenamento de energia

HOMER (Programa de Computador)

Hydropower reservoirs

Pumped storage hydropower

Autonomous hybrid power systems

Renewable energies

Energy storage

HOMER software

Pre-feasibility assessment