Certificate in Sustainable Building Retrofitting: Smart Systems
-- ViewingNowThe Certificate in Sustainable Building Retrofitting: Smart Systems course is a professional development program that addresses the growing need for sustainable building practices. This course focuses on the latest smart retrofitting techniques, equipping learners with essential skills to enhance building performance, reduce energy consumption, and lower environmental impact.
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⢠Introduction to Sustainable Building Retrofitting: An overview of the principles and practices of sustainable building retrofitting, including the benefits and challenges of retrofitting existing buildings for improved energy efficiency and environmental performance. ⢠Smart Systems for Building Retrofits: An examination of the various smart systems that can be used in building retrofits, such as smart thermostats, smart lighting, and building management systems, and how they can contribute to improved energy efficiency and sustainability. ⢠Energy Audits and Assessments: A review of the process of conducting energy audits and assessments in buildings, including the use of energy modeling and simulation tools to identify opportunities for energy savings and retrofit measures. ⢠Building Envelope and Insulation: An exploration of the key considerations for retrofitting the building envelope and insulation, including the use of high-performance insulation materials, air sealing techniques, and window and door upgrades. ⢠HVAC Systems and Controls: A discussion of the options for retrofitting HVAC systems and controls in buildings, including the use of energy-efficient equipment, advanced controls strategies, and renewable energy sources. ⢠Renewable Energy Technologies for Building Retrofits: An overview of the various renewable energy technologies that can be used in building retrofits, such as solar photovoltaic (PV) systems, wind turbines, and geothermal systems. ⢠Water Conservation and Efficiency: A review of the strategies for reducing water use and waste in buildings, including the use of low-flow fixtures, rainwater harvesting systems, and graywater reuse. ⢠Monitoring and Evaluation of Retrofit Projects: An examination of the methods and tools for monitoring and evaluating the performance of retrofit projects, including the use of data analytics and building performance simulation. ⢠Building Codes and Standards for Sustainable Retrofits: A discussion of the relevant building codes and standards for sustainable retrofits, including the International Energy Conservation Code (IECC), ASHRAE Standard 90.1, and the Leadership in Energy and Environmental Design (LEED) rating system. ⢠Case Studies and Best Practices in Sustainable Building Retrofitting: An exploration of real-world examples
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