Hussein, A. (2022). The National Network of Solar Collectors Integrated in the Development and Coverage of Sports Buildings Case Study: Cairo Stadium General Authority. International Design Journal, 12(2), 173-183. doi: 10.12816/idj.2022.222607
Ahmed Halim Hussein. "The National Network of Solar Collectors Integrated in the Development and Coverage of Sports Buildings Case Study: Cairo Stadium General Authority". International Design Journal, 12, 2, 2022, 173-183. doi: 10.12816/idj.2022.222607
Hussein, A. (2022). 'The National Network of Solar Collectors Integrated in the Development and Coverage of Sports Buildings Case Study: Cairo Stadium General Authority', International Design Journal, 12(2), pp. 173-183. doi: 10.12816/idj.2022.222607
Hussein, A. The National Network of Solar Collectors Integrated in the Development and Coverage of Sports Buildings Case Study: Cairo Stadium General Authority. International Design Journal, 2022; 12(2): 173-183. doi: 10.12816/idj.2022.222607
The National Network of Solar Collectors Integrated in the Development and Coverage of Sports Buildings Case Study: Cairo Stadium General Authority
Lecturer, Department of Architecture, Faculty of Engineering, Helwan University (Mattaria branch),
Abstract
Egypt occupies a unique position among the countries of the world through solar maps in its solar capabilities and the possibility of benefiting from it, and if the rest of the world has initiated the use of its facilities, especially stadiums as solar fields, since sports facilities are usually concentrated among urban communities intensive energy consumption and Egypt's growing desire to organize more tournaments locally, regionally and internationally and due to Egypt's plan 2030, which targets quality and quantity in various aspects of life. In this regard, the coverage of sports stadiums in part or entirely using electrovoltaic cells is a solar pool to be maximized by integrating them into the development of coverage of Egyptian stadiums. Egypt occupies a unique position among the countries of the world through solar maps in its solar capabilities and the possibility of benefiting from it, and if the rest of the world has initiated the use of its facilities, especially stadiums as solar fields, since sports facilities are usually concentrated among urban communities intensive energy consumption and Egypt's growing desire to organize more tournaments locally, regionally and internationally and due to Egypt's plan 2030, which targets quality and quantity in various aspects of life. In this regard, the coverage of sports stadiums in part or entirely using electrovoltaic cells is a solar pool to be maximized by integrating them into the development of coverage of Egyptian stadiums.Research problem: - Omission of the concept of the solar stadium that emerged in 2003 - Lack of awareness of the economic benefits of solar energy, which significantly outweigh the cost of installing and operating solar panels. - Neglect the role that sports can play as they are important platforms to promote value and their ability to reach a large number of fans around the world.Hypothesis :The research assumes that electricity production from sports facilities, usually concentrated in urban, energy-intensive communities, will transform the facilities of the Ministry of Youth and Sports into zero-consumption facilities from the national grid and pump the increase in the production of the Egyptian national grid.Objective: 1- Developing Egyptian stadiums and equipping them to receive and organize international, continental and local events in accordance with the history and reputation of Egyptian sports.2.No new areas of land are wasted to implement solar system systems.3.Reducing the loss that usually accompanies long-distance energy transport, where stadiums and sports facilities are usually located in urban communities that are energy-intensive, which means direct consumption in the production shop < span lang="AR-EG" dir="RTL">.4.The research also aims to study the possibilities of applying solar renewable energy technologies in buildings for the purpose of activating these technologies locally and benefiting from renewable energy sources in light of the future vision to activate the use of solar energy in buildings.Research methodology: To achieve the previous goals, the research methodology relied on an analytical study to analyze some models of solar stadiums to try to identify their features, features and requirements as they relied on the applied method by applying the research hypothesis to Egyptian stadiums and knowing the production efficiency that can be obtained and making a virtual model of Cairo Stadium covered with solar cells and knowing its production efficiency.Results: Egypt seeks to increase the efficiency and development of the structure of its sports facilities and increases egypt's chances of organizing and hosting events and tournaments locally, regionally and internationally, egypt is a primary and more deserving of states that do not have any history or sporting components by hosting sports events. Experience has shown impressive success in organizing the last African championship. Egypt inaugurates one of the largest solar projects (Benban in Aswan) where it is characterized by its large size and high production capacity if the estimated cost of the Benban project is about 3.5 billion euros, or 60 billion Egyptians to survive about 1465 MW/h, where the Banban project occupies an area of 37 square kilometers, the audited study to cover the cairo international stadium in full includes: (Main Stadium Building - Swimming Pool Complex - Multi-Storey Smart Garage) using vacuum metal trusses topped with solar cells will cost about 500 million Egyptian pounds for mineral coverage and 224 million Egyptian pounds for solar cells, which will produce about 13 MW/hour and will be fully recovered the cost of solar cells according to their production rates in seven and a half years.
1.Top 50 Solar Stadiums Worldwide (2018) World Cup Edition). Solarplaza.com. (2021). Retrieved 28 November 2021, from https://www.solarplaza.com/channels/top-10s/11879/top-50-solar-stadiums-worldwide-2018-world-cup-edition/.
2.Ayoubi, K., Gharib, M., Keswani, A., & Al-Khalaf, B. (2021). ملعب التنّين الشمسي في تايوان. Syr-res.com. Retrieved 22 june 2018, from https://www.syr-res.com/article/7198.html
3.Schell, A. (2021). NFL Stadiums That Are Scoring Big With Solar Energy. Paradisesolarenergy.com. Retrieved 2021, from: https://www.paradisesolarenergy.com/blog/nfl-stadiums-that-are-scoring-big-with-solar-energy
4.Taiwan Solar Powered Stadium / Toyo Ito. ArchDaily. (2021). Retrieved 17 March 2013, from https://www.archdaily.com/22520/taiwan-solar-powered-stadium-toyo-ito
5.Ayoubi, K., Gharib, M., Keswani, A., & Al-Khalaf, B. (2021). ملعب التنّين الشمسي في تايوان. Syr-res.com. Retrieved 29 July 2014, from https://www.syr-res.com/article/7198.html
Fon. (2019), EGL Complete Transportation and Jacking/ Skidding for the World’s Largest Solar Plant Project, Retrieved 24 June 2019, from https://xlprojects.net/egl-complete-transportation-and-jacking-skidding-for-the-worlds-largest-solar-plant-project/