![]() ![]() A summary of key findings from the reviewed articles is given in Appendix C. Nearly all articles discussed CCM, identified gaps and proposed future research directions. Finally, a technical report by Olgyay, Coan presented connected communities and explored several factors affecting their functionality. A review by Roberts, Bruce identified the scope of PV deployment in multi-residential apartment buildings and investigated opportunities and barriers for the uptake of PV systems, especially from an Australian perspective. Ceglia, Esposito studied smart energy systems (SESs) for smart energy communities and reviewed prospective applications in smart localities. ![]() The authors also presented technical issues associated with a CG and discussed solutions for developing a sustainable network. The concept of a community grid (CG), including grid and distributed energy sources and participation of energy trading, was presented by Rosado and Khadem. Neves, Silva reviewed Hybrid Renewable Energy Systems (HRESs) design for micro-communities and discussed technological configuration, electricity demand and the intricacies of system commissioning. Koirala, Koliou presented the concept of integrated community energy systems (ICESs) and studied issues of ICES from technical, socio-economic, environmental and institutional perspectives. Huang, Zhang reviewed solar mobility concepts and discussed the modelling of solar to building, vehicle and storage (S2BVS). Community energy storage (CES) was reviewed by, with a strong focus on technologies used for end-user applications, techno-economic analysis and socio-environmental assessments of CES this paper also provided a viewpoint on CES from the utility network, policy and consumers perspectives. ![]() Hannan, Faisal reviewed IoE-based building energy management system (BEMS) technologies such as DRESs, storage and communication interfaces for upgrading the proposed building energy operation. The study describes the rapid review methodology in detail and discusses and examines the configurations and methodologies for microgrids. This literature review uses the rapid review technique, an industry and societal issue-based version of the systematic literature review, to identify the case for microgrids for multi-residential buildings and communities. Despite the proliferation of renewables, the uptake of solar and battery storage systems in communities and multi-residential buildings are less researched in the literature, and many uncertainties remain in terms of providing an optimal solution. The primary objectives for commissioning such systems include significant electricity cost reductions and carbon emissions abatement. Renewable energy systems in the form of microgrids, and grid-connected solar PV-storage are considered primary solutions for powering residential developments. As the population of urban areas continues to grow, and construction of multi-unit developments surges in response, building energy use demand has increased accordingly and solutions are needed to offset electricity used from the grid. ![]()
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