![]() The review highlights the various WSUD techniques identified in past studies for reducing sewer overflows. This literature review presents a complete assessment of the application of Water Sensitive Urban Design (WSUD) approaches as mitigation strategies for reducing rainfall-induced SSOs. Furthermore, we discuss potential future applications and future research areas for IoT, the critical component of sustainable digital communities.Įxtreme rainfall events cause an increase in the flow into aging sewer networks, which can lead to Sanitary Sewer Overflows (SSOs). We also look into a number of major issues facing the use of IoT technology in digital communities. After carefully examining the most recent literature, we specifically highlight the various smart digital community application scenarios, such as smart buildings, energy management, green transportation, trash management, etc. We give a modern survey in this study on the most recent developments in IoT for sustainable digital communities. With more and more population in the urban areas, sustainability issues have become a key factor to consider in the development of a digital community. In addition, IoT platforms empower the ubiquitous computing ability, providing more potentials to the actuators in perception layer in the IoT architecture. The sophisticated ecosystem of a digital community is made feasible by the IoT infrastructure, which also provides community control with access to a wealth of actual data. As a revolutionary communication paradigm, the Internet of Things (IoT) empowers the cutting-edge and emerging applications which enable manifold new intelligent services towards a smart community. Seeking continuous development, a modern community must also be able to adapt to future possible challenges using constrained or limited resources. ![]() ![]() Such data can be utilised towards developing a stand-alone guideline and software for green roof design. Future research on vegetated roofs and their subsequent evolutions should put a focus on gathering experimental data towards establishing a performance benchmark for detention, retention and water quality in urban settings. A lack of regulatory acceptance caused by an absence of experimental data and a subsequent knowledge gap establishing the effectiveness of vegetated roofs are major reasons behind this slow uptake. It has also been found that the uptake of vegetated roofs has been slow. It has been found that research on vegetated roofs has been increasing significantly and it can contribute towards achieving multiple sustainable development goals (SDGs). A scoping review is presented here to examine how vegetated roofs are being evolved as an effective tool of sustainable urban stormwater management and overall urban development. Vegetated roofs have the potential to minimise the effects of urbanisation. Urbanisation affects the water cycle and heat balance in a negative way. The research results proved that green roofs could enhance thermal performance and reduce energy demand in buildings in summer and winter by decreasing indoor air temperature to be able to reach thermal comfort. This method is applied in building A in the British university in Egypt. The simulation working mechanism is by building a digital model, measure and compare the effect of this alternative roof design on temperature and energy demand, to determine if the green roof minimizing heat gain through the roof. The research adopts a quantitative approach towards investigating and comparing the green roof with the conventional roof. The aim of this thesis is to investigate how green roof technology can improve the thermal behavior and energy usage of educational buildings in Egypt as compared to a traditional roof. Green roofs have a lot of other environmental advantages such as improving the management of stormwater, reducing the effects of urban heat islands, decreasing air and noise pollution, and increasing wildlife ecosystems as well as social and economic benefits. ![]() So, green roofing is considered as a solution that can solve these problems and incorporate sustainable development principles in building features. Although these systems are well designed to achieve their goal which is internal thermal comfort, they heavily rely on electricity to function which results in huge powerĬonsumption. Most of the construction companies supply their buildings with manufactured heating and cooling systems like air conditioners with different types and variations. People face a critical problem with the gradual increase in temperature due to climate change as well as being in Egypt, a hot arid climate zone. ![]()
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