Sustainability assessment frameworks for delivering Environmental, Social, and Governance (ESG) targets: A case of Building Research Establishment Environmental Assessment Method (BREEAM) <scp>UK</scp> New Construction

Adewumi, Ayomikun Solomon; Opoku, Alex; Dangana, Zainab

doi:10.1002/csr.2768

Corp Soc Responsibility Env

2024

DOI: 10.1002/csr.2768

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Sustainability assessment frameworks for delivering Environmental, Social, and Governance (ESG) targets: A case of Building Research Establishment Environmental Assessment Method (BREEAM) UK New Construction

Ayomikun Solomon Adewumi,

Alex Opoku,

Zainab Dangana

Abstract: Due to the potential role of the construction industry in addressing the global challenge of climate change, stakeholders are beginning to develop the environmental, social and governance (ESG) framework. Prior to this, several assessment frameworks such as the building research establishment environmental assessment methods (BREEAM), LEED, and Green Star Certification amongst others have evolved to evaluate a development against an array of sustainability indicators. Through document analysis, this paper expl… Show more

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Editorial: Green Taxonomy for Sustainable Development

Kuzmin,

Mirzaev,

Alimov

2024

E3S Web Conf.

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The article examines the concept of green taxonomy as a key tool for sustainable development aimed at overcoming modern challenges. Green taxonomy is viewed as a classification system that allows identifying and assessing activities in terms of their contribution to achieving sustainable development goals. The focus is on systematizing activities in the following sectors: power, transport, agriculture, construction and waste management. The article discusses the prospects and potential threats of green taxonomy. Green taxonomy has significant potential to accelerate the transition to a sustainable economic model, support international climate commitments, and stimulate innovation. The study also highlights the need to improve the mechanisms for implementing green taxonomy to ensure its effectiveness and adaptation to changing conditions and needs of society.

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Editorial: Green Taxonomy for Sustainable Development

Kuzmin,

Mirzaev,

Alimov

2024

E3S Web Conf.

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Progress and challenges of bioclimatic design strategies for enhancing building environmental performance: a systematic review

Bera,

Das,

Dutta

et al. 2024

SASBE

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PurposeThe study aims to synthesize findings from over two decades of research, highlighting key trends, progress, innovations, methodologies and challenges in bioclimatic design strategies and their interconnection with building environmental performance across the world.Design/methodology/approachThis systematic review examines advancements in bioclimatic design strategies aimed at enhancing the environmental performance of buildings from 2000 to 2023 (n = 1,069). The methodology/approach involves a comprehensive analysis of literature from the SCOPUS database using bibliometric analysis, identifying trends, thematic evolution, keyword clusters and pivotal strategies such as passive solar design, natural ventilation, green roofs and thermal mass utilization.FindingsThe review highlights significant progress in several areas, including improved simulation/modeling tools for passive solar design, advanced computational fluid dynamics models for natural ventilation optimization, and the integration of green roofs with photovoltaic systems for increased building energy efficiency. Additionally, the use of phase change materials and high-performance glazing has reduced heating and cooling loads, while real-time optimization technologies have enhanced building performance and led to energy savings.Research limitations/implicationsThe study recognizes limitations where the effectiveness of bioclimatic strategies varies across different climates. For example, passive solar design is highly effective in temperate climates but less so in tropical regions. Global differences in design preferences and building types and practices impact the applicability of bioclimatic strategies and traditional building methods in some cultures may not easily integrate with modern approaches, affecting their implementation and effectiveness. Furthermore, practical implications highlight the potential for reduced reliance on artificial heating, cooling and lighting systems, while social implications underscore the role of bioclimatic design in promoting sustainable construction practices.Practical implicationsPractical implications highlight the potential for reduced reliance on artificial heating, cooling and lighting systems.Social implicationsSocial implications underscore the role of bioclimatic design in promoting sustainable construction practices.Originality/valueThis review offers a detailed analysis of bioclimatic design evolution, highlighting trends such as adaptive building designs and smart materials. This study serves as a crucial resource for architects, engineers and policymakers, advocating for innovative, climate-responsive design solutions to mitigate the environmental impact of the built environment and address challenges related to climate change and urbanization.

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Towards an integrated framework for sustainability: evaluating selected projects from Saudi Arabia

Selim,

Abuzaid

2024

Front. Built Environ.

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The capital of Saudi Arabia is evolving into one of the most attractive cities in the Middle East due to various ambitious expansion projects aligned with Vision 2030. This urban development strategy requires researchers to adopt evaluation approaches based on comprehensive sustainability criteria, including environmental and cultural sustainability, community involvement, and economic feasibility. This study utilizes the Delphi methodology to define evaluation criteria and their importance, employing the Delphi technique to gather insights from a group of experts through three rounds of questionnaires. The responses were analyzed using the Top-of-Priority Similarity to Ideal Solution (TOPSIS) technique to develop an integrated evaluation model, which assessed architectural practices in Riyadh through three key projects: The King Fahad National Library, Qasr Al-Hokm, and Saudi Arabia's Digital City. Data sources included extensive site visits, project documentation, and expert evaluations. The evaluation model demonstrated varying levels of sustainability across the projects. The King Fahad National Library and Qasr Al-Hokm showed high scores in sustainability practices, while Digital City lagged behind in several areas, highlighting the need for improvement. This research enhances the understanding of how globalization influences urban renewal in Riyadh and emphasizes the importance of developing effective evaluation models that address the multifaceted nature of sustainability. The findings underscore the need for continuous reassessment of architectural initiatives in the city to align with both international standards and local cultural contexts. The proposed evaluation model successfully tests sustainability frameworks at the local level, indicating areas for future enhancements and contributing valuable insights toward achieving sustainable urban development in Saudi Arabia.

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Sustainability assessment frameworks for delivering Environmental, Social, and Governance (ESG) targets: A case of Building Research Establishment Environmental Assessment Method (BREEAM) UK New Construction

Cited by 3 publications

References 56 publications

Editorial: Green Taxonomy for Sustainable Development

Editorial: Green Taxonomy for Sustainable Development

Progress and challenges of bioclimatic design strategies for enhancing building environmental performance: a systematic review

Towards an integrated framework for sustainability: evaluating selected projects from Saudi Arabia

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