negative social consequences such as, for example, land sale or purchase, relocating of neighbors and depletion of resources. Social consequences could develop into social dangers under specific conditions and could lead even to social disputes among the many stakeholders if not properly and carefully handled. The social impact evaluation is widely used in the life cycle of building projects to prevent negative social effects (Xiahou et al., 2018). Therefore, the current proposal's social performance is vital to social sustainability to satisfy the requirements of existing and anticipated individuals and populations, and all stakeholders have been of great concern for increasing social performance. The idea of sustainable growth involves cost, social and environmental aspect connections. But economics and the environment have been more appreciated by social sustainability. The social successes of construction projects in the construction industry contribute not only to social sustainability but are also crucial for the success of projects. The proposed design is analyzed in aspect of the safety and aesthetic appearance for the regular visitors and neighborhoods. The project will attract local traffic and give knowledge about the renewable energy used in it. Surveys and fun activities with local public about the project which results in their thoughts about the project. The engaging design and ambient will provide a scenic, relaxing and photo booth for the visitors and neighborhood. This will not only promote the development but also generates more and more kinetic energy by the movement. The proposed design is one hundred percent safe for the pedestrians and bicycle riders.
10. Conclusion The design was developed to meet the expectations of stakeholders and provide renewable energy for innovation, security, and public space. Outdoor areas can develop a shared cultural identity, enhance the quality of city areas, and move towards a healthier community. The concept complied with all requirements for the sustainable development in the aspects of triple bottom line. The design aims to generate more than 13.87 MWh/year energy with solar, kinetic and wind energy. The total cost estimated for the project is around AUD 20,000 which includes the cost for the materials, maintenance, and installations. It covers environmental, economic, and social issues and makes Melbourne more familiar with Australia's first notion of renewable energy.
