Pairing solar power to sustainable energy storage solutions within a residential building: A case study

Așchilean, Ioan; Cobîrzan, Nicoleta; Bolboaca, Andrei; Boieru, Radu; Felseghi, Raluca‐Andreea

doi:10.1002/er.6982

Cited by 14 publications

(2 citation statements)

References 48 publications

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“…The intermittent nature of solar power generation necessitates efficient energy storage solutions, especially in urban environments where demand fluctuates throughout the day (Așchilean et al,2021). Conventional energy storage technologies, such as lithium-ion batteries, have witnessed substantial advancements in terms of capacity, cycle life, and cost-effectiveness.…”

Section: Efficiency Enhancements In Urban Solar Systemsmentioning

confidence: 99%

Solar power integration in Urban areas: A review of design innovations and efficiency enhancements

Emmanuel Augustine Etukudoh,

Zamathula Queen Sikhakhane Nwokediegwu,

Aniekan Akpan Umoh

et al. 2024

World J. Adv. Res. Rev.

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The increasing global emphasis on sustainable energy solutions has fueled a growing interest in integrating solar power systems into urban landscapes. This paper presents a comprehensive review of the current state of solar power integration in urban areas, with a focus on design innovations and efficiency enhancements. Urban environments pose unique challenges for solar power implementation, such as limited space, shading, and aesthetic considerations. This review explores a range of design innovations aimed at overcoming these challenges, including the integration of solar panels into building facades, windows, and urban infrastructure. The examination of these advancements provides insights into maximizing energy capture while seamlessly blending solar technologies into the urban fabric. Efficiency enhancements play a pivotal role in the viability of solar power integration. The paper analyzes emerging technologies and methodologies that boost the efficiency of solar energy systems in urban contexts. This includes advancements in photovoltaic cell technologies, energy storage solutions, and intelligent grid integration. The exploration of these efficiency-enhancing strategies sheds light on the potential for increased energy yield and grid reliability in urban solar installations. Moreover, the paper discusses the role of smart city concepts in optimizing solar power integration. The integration of data analytics, Internet of Things (IoT) devices, and artificial intelligence is explored as a means to enhance the monitoring, control, and maintenance of urban solar infrastructure. In conclusion, this review provides a nuanced examination of the evolving landscape of solar power integration in urban areas. By exploring design innovations and efficiency enhancements, the paper contributes valuable insights for researchers, policymakers, and practitioners seeking to promote sustainable energy solutions in the urban environment.

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Section: Efficiency Enhancements In Urban Solar Systemsmentioning

confidence: 99%

Solar power integration in Urban areas: A review of design innovations and efficiency enhancements

Emmanuel Augustine Etukudoh,

Zamathula Queen Sikhakhane Nwokediegwu,

Aniekan Akpan Umoh

et al. 2024

World J. Adv. Res. Rev.

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“…As ¸chileanet et al 25 investigated the feasibility of using a grid-independent electricity generation system for a normal residential building with an average daily load of 6.5 kWh. The proposed system combines photovoltaic panels with battery storage or hydrogen storage as energy storage technologies.…”

Section: Introductionmentioning

confidence: 99%

An integrated framework for optimum planning and operating solar energy conversion technologies in buildings

Golkar

Baneshi

Fathi

2022

Intl J of Energy Research

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The study presents an iterative structure for optimal allocating roof space to photovoltaic panels and solar water heaters to provide part of the energy demand of the building and supply the excess energy to the grid. This framework is based on a mathematical programming model and consists of six stages: demand model, optimum tilt angle, selection of energy conversion technologies, near shadow, planning and operation, and evaluation with a detailed model. The output of the proposed model is the optimal arrangement of photovoltaic panels and solar water heaters, type and capacity of cooling system, and operational issues including energy exchange between solar systems, electricity grid, natural gas network, and building and capacity factor of water circulation pump working between solar water heater system and central cooling-heating system in each time step. Various constraints such as full supply of the building's energy demand, limited allocated space to solar systems installation, limited financial resources for investment in solar systems, technical constraints, etc, have been considered in this model. Eight different scenarios in terms of energy carriers prices, guaranteed renewable electricity purchase tariff, circulation pump operational cost, and investment costs for solar systems were examined. The results of using the proposed model on an office building show a water-cooled absorption chiller cooling system is the optimal option with the ability to satisfy technical constraints. If the electricity generated from the photovoltaic panels cannot be sold to the grid, only the installation of solar water heaters with a capacity of 29 kW is optimal. In this case, the annual capacity factor of the system, considering the hot water demand, solar irradiation, and cost of running the pump, is 22.7%. Suppose it is possible to sell electricity to the grid due to a higher sale tariff than purchase one in Iran, in that case, only the solar panels with a capacity of 8.75 kW will be installed on the roof.

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Performance Evaluation of Multi-type Energy Storage Power Station Based on AHP and FCE

Sang,

Hu,

Dong

et al. 2024

Lecture Notes in Electrical Engineering

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Pairing solar power to sustainable energy storage solutions within a residential building: A case study

Cited by 14 publications

References 48 publications

Solar power integration in Urban areas: A review of design innovations and efficiency enhancements

Solar power integration in Urban areas: A review of design innovations and efficiency enhancements

An integrated framework for optimum planning and operating solar energy conversion technologies in buildings

Performance Evaluation of Multi-type Energy Storage Power Station Based on AHP and FCE

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