&lt;strong&gt;&lt;/strong&gt;Integrating Solar Energy in Rome's Built Environment: A Perspective for Distributed Generation on Global Scale

Meneguzzo, Francesco; Pecoraino, Mario; Pagliaro, Mario

doi:10.20944/preprints201801.0116.v1

Cited by 1 publication

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References 20 publications

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“…It calculates both solar irradiance data and energy gains, visualizing sun paths with terrain horizon that might have shading effect on solar radiation. Based on available irradiance data, this platform calculates optimal tilt angle for a PV module of determined azimuth orientation (Meneguzzo et al, 2018), which could be a valuable input for architectural design on a specific location. Relying on automatic processing of data collected from available mapping sources, these simulation tools do not recognize the existing built environment, and the overshadowing effects that occur and affect the solar radiance.…”

Section: Physical Limitations In the Urban Environment And Simulation Toolsmentioning

confidence: 99%

Trends in the integration of photovoltaic facilities into the built environment

Krstić‐Furundžić¹,

Scognamiglio²,

Devetaković³

et al. 2020

OHI

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Purpose The purpose of this paper is to present a critical review of the key trends in the integration of photovoltaic (PV) facilities into the built environment in cities. This is regarded as part of a series of measures towards wider use of renewable energy sources. Design/methodology/approach The problem has been approached from the point that cities are consumers of large amounts of energy. They require uninterrupted energy supply but with dynamic power profile. Mainly consumption of energy generated from fossil fuels is present nowadays with significant pollution of the environment as a consequence. The sustainable energy transition in cities means increasing the supply of energy from renewable sources. Findings The paper points to the integration of PV renewable systems in the built environment, opportunities and constraints, design conditions and tools. The consideration of the constraints which creates urban environment is carried out to understand the complexity of selecting locations in the cities. The paper gives an overview of the possibilities of PV systems integration in the built environment and discusses physical limitations in the urban environment and simulation tools as well as challenges and research and development issues. Research limitations/implications The paper offers a critical review of the PV applications which have been illustrated with examples from developed countries. However, examples from developing markets have not been considered. Future work would address this limitation and enable the discussion from a comparative perspective. Social implications The study gives a comprehensive overview of PV integrations in contemporary cities, stimulating architects’ practitioners to acquire the PV technology and aesthetics, and to apply it in future developments. Originality/value Observing the use of PV applications from the perspective of architects and designers the discussion and examples covered in this paper offers an original review, which provides the base future in-depth studies on PV applications in various contexts.