Implementation of solar energy in smart cities using an integration of artificial neural network, photovoltaic system and classical Delphi methods

•Data mining of electrical energy consumption in home uses of Mashhad, Iran with extracting the consumption patterns.•Simulating implementation of a PhotoVoltaic (PV) system in the user's home.•Designing the motivation algorithm for Transformational Participation (TP) energy harvesting in a sma...

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Bibliographic Details
Published in:Sustainable cities and society 2021-11, Vol.74, p.103149, Article 103149
Main Authors: Ghadami, Nasim, Gheibi, Mohammad, Kian, Zahra, Faramarz, Mahdieh G., Naghedi, Reza, Eftekhari, Mohammad, Fathollahi-Fard, Amir M., Dulebenets, Maxim A., Tian, Guangdong
Format: Article
Language:English
Subjects:
Artificial neural network
Classical Delphi method
Smartcities
Solar energy
Transformational participation
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Summary:•Data mining of electrical energy consumption in home uses of Mashhad, Iran with extracting the consumption patterns.•Simulating implementation of a PhotoVoltaic (PV) system in the user's home.•Designing the motivation algorithm for Transformational Participation (TP) energy harvesting in a smart city.•Analyzing the sensitivity of future conditions by scenario wizard computing. Energy supply of megacities is considered as an active research topic in the new aspects of urban management, especially in developing countries like Iran. With an introduction to the sustainable development goals, the smart city concept presents a novel idea for providing energy in a city with the use of Artificial Intelligence (AI), renewable energy, such as Photovoltaic (PV) technologies, and Transformational Participation (TP) based on motivational programs for citizens. This study aims to evaluate the electrical energy consumption in Mashhad, Iran, based on machine learning tools and present the dynamic strategies for promoting citizens’ willingness for renewable energy generation based on the experts’ knowledge. The main novelty of this research is simultaneous application of Artificial Neural Network (ANN) and statistical analysis for creating a Decision Support System (DSS). Then, the solar energy potential is appraised by the PV system simulation tool during one year in our case study in Mashhad, Iran. Furthermore, a Classical Delphi (CD) method is applied for motivational strategies and further TP implementation. In particular, the motivational strategies are suggested by 45 experts and then are prioritized in sequential expert meetings. The outcomes of this research indicate that the ANN model can successfully forecast the electrical energy consumption in summer and winter periods with a 99% accuracy. Then, based on the solar energy computations in the PV system, the peak of electrical energy consumption can be controlled in the hottest and coldest months. Last but not least, the superposition of experts’ and citizens’ opinions reveal A4 (sharing benefits of optimized costs with the citizens by solar energy generation), B2 (reducing the electrical energy cost for solar energy generation, especially in peak times) and C1 (creating the energy coin in the city with credits instead of spending money in urban activities fits to solar energy generation) as the main motivational strategies for solar energy generation in short, middle and long-term planning horizons.
ISSN:2210-6707
2210-6715
DOI:10.1016/j.scs.2021.103149