Today, total energy consumption is greater than the earth's sustenance potential. The global trend towards sustainable development, population growth, the definitive origin of the earth and their effect on rising energy prices place increasing pressure on the development of buildings with significantly higher environmental performance. Likewise, the transition to an energy system based on renewable technologies will have very positive economic and environmental consequences. Buildings are responsible for a high percentage of annual energy consumption, and most of this energy comes from burning fossil fuels to provide heating, cooling, and lighting, and to power household appliances and electrical equipment. By transforming the built environment to be more energy efficient and climate friendly, the building sector can have a major impact on reducing the use of non-renewable energy resources and the threat of climate change. Say no to plagiarism. Get a tailor-made essay on "Why Violent Video Games Shouldn't Be Banned"? Get an original essay The Richard J. Klarchek Information Commons at Loyola University is a good example of an energy-efficient project that, through energy integration of active and passive systems and technologies, particular attention is paid to minimizing the consumption of renewable resources. The minimum embodied emissions of materials and the minimization of negative impacts on the environment are also taken into consideration, while the building exploits the maximum use of environmental potential to obtain thermal and visual comfort inside and the maximum quality of the internal and external environment. architectural quality. On the one hand, the concept of a transparent and open computing space that uses the clearest glass available with visually delicate structural elements to maintain the view from the campus through the building to the lake, plays a crucial role in providing a magnificent light frame natural with stunning views which is part of the concept of the building. Furthermore, to achieve this it was necessary to perform a detailed climate analysis to understand the external environment in order to use the natural environment to heat and cool the building. A detailed climate analysis was carried out to understand the external environment in order to use the natural environment to facilitate ventilation of the building and help the heating and cooling systems work better. Climate analysis including wind speed and impact of solar radiation. For example, the results indicated that an integrated façade and mechanical design were needed to mitigate heat gains from the rising and setting of the sun in summer. As a result, it is perceived that the building is designed to harness energy from the environment and be in close connection with the environment, which is a crucial quality of an energy-efficient and energy-integrated building . The result of these innovative techniques is a building that achieves an energy reduction of 52% below the ASHRAE-90.1-1999 requirements. The purpose of this standard is to provide a set of standards for the energy-efficient design of buildings, except low-rise residential buildings, including standards such as insufficient heating or cooling, not using electricity or fossil fuels, etc. The ambition of this report is to provide a better perception of the energy systems used in the Klarchek Information Commons in the Loyola University building and their concordance with the.