Critical success factors for the implementation and management of energy cloud environments

Summary Energy management systems, both at the level of end‐users and companies and organizations, are migrating from a centralized way to cloud‐based environments, thus generating virtual environments for the users to manage their energy generation, storage, and consumption. This energy management...

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Published in:	International journal of energy research Vol. 46; no. 10; pp. 13752 - 13768
Main Authors:	Schaefer, Jones Luís, Siluk, Julio Cezar Mairesse, Carvalho, Patrícia Stefan
Format:	Journal Article
Language:	English
Published:	Chichester, UK John Wiley & Sons, Inc 01-08-2022 Hindawi Limited
Subjects:	Autonomy Cloud computing Computer applications critical success factor Data management Decision trees Distributed generation Electric vehicles Energy energy cloud energy cloud management Energy management Energy management systems Energy storage Environmental management Infrastructure Multiple criterion Renewable energy Renewable resources Renewal Resource management Success factors Surveying Utility theory Virtual environments
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Abstract	Summary Energy management systems, both at the level of end‐users and companies and organizations, are migrating from a centralized way to cloud‐based environments, thus generating virtual environments for the users to manage their energy generation, storage, and consumption. This energy management system, also called Energy Cloud (EC), is driven by the distributed generation of renewable energies, electric vehicles, and new energy storage technologies, thus providing ample flexibility and autonomy to users. In this sense, the objective of this article is to identify, evaluate, and discuss the Critical Success Factors (CSFs) that impact the implementation and management of EC environments. For this, an approach based on a survey with experts and the Multi‐attribute Utility Theory multicriteria method was used, evaluating the impact levels of CSFs for EC by grouping them according to business areas and structuring them hierarchically in a decision tree. Thus, this research shows that the implementation of EC environments depends more heavily on the energy infrastructure, data management, and the computational systems that process this data. This shows the need for investments in infrastructure renewal and also in the development of new and innovative technological solutions for energy management. Another important result was the evidence of the centralizing role that the users who make up the EC environments have, demanding easier access to the technologies that make up this energy management trend, as well as greater freedoms and decision autonomy, establishing themselves in the role of free users in a dynamic and flexible energy market. This article identifies, evaluates, and discusses the Critical Success Factors that impact the implementation and management of cloud‐based energy management environments – Energy Cloud. Energy Cloud is driven by the distributed generation of renewable energies, electric vehicles, and energy storage technologies, thus providing flexibility and autonomy to users. The factors are hierarchically structured following the corresponding business area and, with the MAUT method, they are evaluated, generating relevant management insights regarding the development and implementation of these energy management environments.
AbstractList	Energy management systems, both at the level of end‐users and companies and organizations, are migrating from a centralized way to cloud‐based environments, thus generating virtual environments for the users to manage their energy generation, storage, and consumption. This energy management system, also called Energy Cloud (EC), is driven by the distributed generation of renewable energies, electric vehicles, and new energy storage technologies, thus providing ample flexibility and autonomy to users. In this sense, the objective of this article is to identify, evaluate, and discuss the Critical Success Factors (CSFs) that impact the implementation and management of EC environments. For this, an approach based on a survey with experts and the Multi‐attribute Utility Theory multicriteria method was used, evaluating the impact levels of CSFs for EC by grouping them according to business areas and structuring them hierarchically in a decision tree. Thus, this research shows that the implementation of EC environments depends more heavily on the energy infrastructure, data management, and the computational systems that process this data. This shows the need for investments in infrastructure renewal and also in the development of new and innovative technological solutions for energy management. Another important result was the evidence of the centralizing role that the users who make up the EC environments have, demanding easier access to the technologies that make up this energy management trend, as well as greater freedoms and decision autonomy, establishing themselves in the role of free users in a dynamic and flexible energy market. Summary Energy management systems, both at the level of end‐users and companies and organizations, are migrating from a centralized way to cloud‐based environments, thus generating virtual environments for the users to manage their energy generation, storage, and consumption. This energy management system, also called Energy Cloud (EC), is driven by the distributed generation of renewable energies, electric vehicles, and new energy storage technologies, thus providing ample flexibility and autonomy to users. In this sense, the objective of this article is to identify, evaluate, and discuss the Critical Success Factors (CSFs) that impact the implementation and management of EC environments. For this, an approach based on a survey with experts and the Multi‐attribute Utility Theory multicriteria method was used, evaluating the impact levels of CSFs for EC by grouping them according to business areas and structuring them hierarchically in a decision tree. Thus, this research shows that the implementation of EC environments depends more heavily on the energy infrastructure, data management, and the computational systems that process this data. This shows the need for investments in infrastructure renewal and also in the development of new and innovative technological solutions for energy management. Another important result was the evidence of the centralizing role that the users who make up the EC environments have, demanding easier access to the technologies that make up this energy management trend, as well as greater freedoms and decision autonomy, establishing themselves in the role of free users in a dynamic and flexible energy market. This article identifies, evaluates, and discusses the Critical Success Factors that impact the implementation and management of cloud‐based energy management environments – Energy Cloud. Energy Cloud is driven by the distributed generation of renewable energies, electric vehicles, and energy storage technologies, thus providing flexibility and autonomy to users. The factors are hierarchically structured following the corresponding business area and, with the MAUT method, they are evaluated, generating relevant management insights regarding the development and implementation of these energy management environments.
Author	Siluk, Julio Cezar Mairesse Carvalho, Patrícia Stefan Schaefer, Jones Luís
Author_xml	– sequence: 1 givenname: Jones Luís orcidid: 0000-0001-6225-7782 surname: Schaefer fullname: Schaefer, Jones Luís email: engjlschaefer@yahoo.com.br organization: Universidade Federal de Santa Maria – sequence: 2 givenname: Julio Cezar Mairesse orcidid: 0000-0001-6755-7186 surname: Siluk fullname: Siluk, Julio Cezar Mairesse organization: Universidade Federal de Santa Maria – sequence: 3 givenname: Patrícia Stefan orcidid: 0000-0001-9862-1355 surname: Carvalho fullname: Carvalho, Patrícia Stefan organization: Universidade Federal de Santa Maria
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Copyright	2022 John Wiley & Sons Ltd. 2022 John Wiley & Sons, Ltd.
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Notes	Funding information This work was supported by the Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq), Grant/Award numbers: 308057/2020‐1, 465640/2014‐1; Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES), Grant/Award numbers: 23038.000776/2017‐54, 88887.486410/2020‐00; Fundação de Amparo à Pesquisa do Estado do Rio Grande do Sul (FAPERGS), Grant/Award numbers: 17/2551‐0000517‐1, 19/2551‐0001852‐5. The authors thank to CNPq, CAPES, FAPERGS and Institutos Nacionais de Ciência e Tecnologia – Geração Distribuída (INCT‐GD) for supporting this research.
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Publisher	John Wiley & Sons, Inc Hindawi Limited
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Snippet	Summary Energy management systems, both at the level of end‐users and companies and organizations, are migrating from a centralized way to cloud‐based... Energy management systems, both at the level of end‐users and companies and organizations, are migrating from a centralized way to cloud‐based environments,...
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SubjectTerms	Autonomy Cloud computing Computer applications critical success factor Data management Decision trees Distributed generation Electric vehicles Energy energy cloud energy cloud management Energy management Energy management systems Energy storage Environmental management Infrastructure Multiple criterion Renewable energy Renewable resources Renewal Resource management Success factors Surveying Utility theory Virtual environments
Title	Critical success factors for the implementation and management of energy cloud environments
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