Undergraduate Certificate in Energy Recovery

• Energy Recovery Fundamentals: Introduction to energy recovery systems, principles of energy conservation and efficiency, and the role of energy recovery in sustainable building design.
• Thermal Energy Recovery: Heat recovery ventilation systems, run-around coils, and regenerative thermal oxidizers. Understanding temperature recovery, sensible heat, and latent heat in the context of energy recovery.
• Power Generation and Electricity Recovery: Waste-to-energy systems, combined heat and power (CHP) systems, and principles of electricity recovery. Understanding the role of power generation and electricity recovery in industrial and commercial settings.
• Energy Recovery Technologies: Overview of various energy recovery technologies, including desiccant dehumidification, absorption chillers, and thermoelectric generators.
• Energy Recovery Systems Design: System sizing, selection, and integration. Understanding the impact of energy recovery on indoor air quality, thermal comfort, and energy efficiency.
• Energy Recovery Performance Evaluation: Measuring and verifying energy recovery system performance. Understanding the importance of monitoring and evaluating energy recovery systems to ensure optimal performance and energy savings.
• Energy Recovery Policy and Incentives: Overview of federal, state, and local policies and incentives that promote energy recovery. Understanding the role of policy and incentives in driving the adoption of energy recovery systems.

Note: The above list is not exhaustive and may vary depending on the program and institution.