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This study highlights the crucial significance of stakeholder participation in the creation of a comprehensive energy and electrical master plan for Mozambique. The purpose of this study is to deliver a practical insights that transcend theoretical concerns by digging into the subtleties of stakeholder relationships and strategic collaborations, paving the path for pragmatic and meaningful solutions that connect with real-life conditions. This debate lays the groundwork for educated decision-making, propelling Mozambique’s energy industry towards a more sustainable and prosperous future.

The study used a combined approach of stakeholder analysis (SA) and social network analysis (SNA) to enhance our understanding of the stakeholder landscape in Mozambique’s energy sector. This methodological approach offers a unique vantage point to examine the individual stakeholders’ roles and the intricate web of connections, partnerships, collaborations and information-sharing activities. By integrating SA and SNA, this study aims to provide a more comprehensive and dynamic depiction of stakeholder interactions, contributing methodologically to the existing body of literature.

The findings also highlight the need to develop frameworks that promote private investment and joint endeavours with entities such as Cahora Bassa Dam/Mozambique Transmission Company. A consistent legal framework ensures uniform performance and a robust monitoring system for ongoing projects, improving accountability and progress tracking. Furthermore, the discussion includes enhancing the competence of the regulatory agency regulating the electricity industry. This includes tackling complex concerns with electricity pricing and other regulatory aspects relevant to private investment. A highly empowered regulatory agency is critical to creating an atmosphere conducive to long-term private sector involvement.

While the study emphasises the need to integrate multiple stakeholders, it may not detail specific issues or impediments that may develop during the engagement process. Additional research could look into potential tensions or barriers to effective collaboration. Furthermore, the study emphasises the necessity of addressing environmental impacts; it must thoroughly examine specific environmental concerns such as carbon emissions, deforestation or renewable energy possibilities. Future research could assess the suggested policies’ environmental impact more extensively. Additionally, while the conclusion briefly mentions economic prosperity, a more thorough consideration of the possible economic and social implications of various energy policies could provide a greater understanding of their practicality and potential benefits.

In terms of practical contributions, this study aspires to shed light on how stakeholder interactions can shape energy policy interventions that ensure reliable and affordable energy sources for economic development and societal well-being. By unveiling the complex network of relationships and partnerships, this study seeks to provide actionable insights for policymakers, industry players and other stakeholders involved in Mozambique’s energy sector. By taking this action, this research aims to pave the way for more effective and inclusive energy policies that align with circular economy principles, thus addressing a critical need in scholarly discourse and practical implementation.

The study underscores the critical role of energy stakeholders in shaping energy policies and projects, given their influential positions and impact on decision-making processes. While existing literature acknowledges this influence, a discernible research gap exists in comprehensively understanding how stakeholder interactions and collaborations in the energy sector affect policy interventions within a context such as Mozambique. This study seeks to bridge this gap by delving into the intricacies of stakeholder involvement and its implications for energy policy development in Mozambique.

This review investigates the significance of passive solar systems and bioclimatic building designs in improving thermal comfort across various African regions. The study evaluates current papers and publications, focusing on best practice standards, scientific developments and the possibility of achieving maximum thermal comfort across varied temperature zones.

This research utilised a systematic approach to analyse passive solar systems and African bioclimatic design. It involved a review of 175 documents sourced from the Web of Science (WOS) and Scopus databases, focusing on peer-reviewed publications from 1992 to 2023 as well as the Regulations and Standards for Thermal Comfort established in African countries.

The study shows how integrating passive solar systems into bioclimatic architecture greatly increases thermal comfort and lowers energy consumption in African buildings. Nevertheless, significant research gaps exist in using these systems in different African climates. Maintaining and modifying passive solar systems is essential to tackling the distinct environmental issues faced by the continent.

While this review provides a thorough analysis, it acknowledges the complexity of local settings and construction practices, recognising potential limitations in the available literature. The implications include a call for further research and technological advancements to address these limitations and refine passive solar systems for optimal performance.

This study bridges knowledge gaps about how passive solar systems and bioclimatic design principles can be efficiently used across various African climates and areas. Furthermore, it incorporates recent advances and a thorough review procedure to ensure that findings are current and relevant.