Global trends in sustainability rating assessment systems and their role in achieving sustainable urban communities in Saudi Arabia

Hegazy, Ibrahim; Helmi, Mansour; Qurnfulah, Emad; Maddah, Rahif; Ibrahim, Hossam

doi:10.1093/ijlct/ctab018

Cited by 4 publications

(1 citation statement)

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“…Incorporating many of the ideas proposed in Masdar City's original design, NEOM can further benefit from the lessons presented by its Emirati competitor. On the other hand, KAUST can be considered a direct predecessor of the NEOM project that successfully addressed many of the sustainable challenges [18,27]. Although considerably smaller than The Line or The Oxagon, the KAUST campus features compelling design features such as solar panels, wind towers, and passively cooled spaces.…”

Section: Sustainable Planned City Projectsmentioning

confidence: 99%

Saudi Arabia’s NEOM Project as a Testing Ground for Economically Feasible Planned Cities: Case Study

Yusuf

Abdulmohsen

2022

Sustainability

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The objective of this case study was to examine how the planned city of NEOM in Saudi Arabia can contribute to the country’s economy and sustainability goals. The case study was intended to assess the challenges of planned city projects through the lens of the potential benefits to the host country’s economy. Using data from the project’s official website and relevant publications, it became possible to assess the risk management in urban megaprojects and to explore the issue of sustainable urbanization in the context of NEOM. In order to analyze the data, content analysis and thematic analysis techniques were used which allowed for the identification of patterns and trends in the data and to draw conclusions about the potential contributions of NEOM to Saudi Arabia’s economy and sustainability goals. The findings suggest that NEOM, which aims to be a net-zero carbon city, has attracted significant partners and investors interested in testing renewable energy technologies and infrastructure. The viability of NEOM as a testing ground for sustainable planned cities and their impact on the host country will depend on the ability to effectively balance the potential economic benefits with the risks and costs associated with the project. This study’s results indicate that NEOM represents an opportunity for Saudi Arabia to rebrand its image and participate in the creation of a green future, but its success will depend on fulfilling the investment requirements and managing the project-related challenges.

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Section: Sustainable Planned City Projectsmentioning

confidence: 99%

Saudi Arabia’s NEOM Project as a Testing Ground for Economically Feasible Planned Cities: Case Study

Yusuf

Abdulmohsen

2022

Sustainability

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Thermal Potential of Rammed Earth Constructions in Hot-Arid Climates: A Study of Non-Structural Rammed Earth Walls as Building Envelope of Residences in Riyadh

Jalali,

Soni

2024

Lecture Notes in Civil Engineering

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Development of resource treatment technology for fracturing backflow fluids of tight sandstone

Gao

Yang

Zhao

et al. 2023

International Journal of Low-Carbon Technologies

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Fracturing is an important means to realize the development value for tight sandstone unconventional reservoirs, which consumes serious water resources, and generates high viscosity of backflow fluid with the petroleum and suspended matter pollutants. Therefore, it is of great significance to recycle fracturing fluid from tight sandstone with low-carbon and environmental protection. In this study, the fracturing fluid of tight sandstone in a block of a certain oilfield was taken as the research object, and a comprehensive water quality analysis was carried out. And studied on the influence factors of oxidation gel breaking, flocculation sedimentation, ion removal, filtration and process optimization, it formed the combined process technology for resource treatment of fracturing flowback fluid in tight sandstone. After treatment, the mass concentration of iron ion in fracturing flowback fluid was less than 5 mg/L, the mass concentration of suspended matter was less than 10 mg/L, and the mass concentration of oil was less than 5 mg/L, which could meet the water quality requirements of fluid distribution and reuse, and avoid the environmental pollution risk of flowback fluid effectively; and while, the consumption level of water resources in fracturing construction also was greatly reduced. This paper will have positive significance for the resource treatment technology and development of tight sandstone fracturing fluid.

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Global trends in sustainability rating assessment systems and their role in achieving sustainable urban communities in Saudi Arabia

Cited by 4 publications

References 0 publications

Saudi Arabia’s NEOM Project as a Testing Ground for Economically Feasible Planned Cities: Case Study

Saudi Arabia’s NEOM Project as a Testing Ground for Economically Feasible Planned Cities: Case Study

Thermal Potential of Rammed Earth Constructions in Hot-Arid Climates: A Study of Non-Structural Rammed Earth Walls as Building Envelope of Residences in Riyadh

Development of resource treatment technology for fracturing backflow fluids of tight sandstone

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