The Buildings Specialization in the Green Technology Diploma program provides in-depth knowledge in sustainable practices for building design, construction, operation, and demolition processes. It offers both quantitative and qualitative tools for design and evaluation of performance of new and existing buildings including: materials, envelope, heating, cooling, and ventilation systems that provide comfort, good air quality, and building energy demands. It also offers essential knowledge of green building concepts needed for rating buildings and minimizing their impact on the environment, and the depletion of natural resources.
PRGR 630 Sustainable Preservation and Restoration of Existing Buildings (Syllabus) (2 cr.)
The course examines the benefits of green existing buildings and covers sustainable restoration processes involving: energy audits, construction materials, structural elements, electromechanical systems, site improvement, water conservation, and indoor environmental quality; in addition, to associated operations, management, and costs.
PRGR 631 Low Energy Architecture and Passive Building Design (Syllabus) (2 cr.)
This course centers on issues surrounding the integration of sustainable and passive design principles into conceptual and practical building design. Topics include: solar geometry, climate/regional limitations, natural lighting, passive design and sustainability initiatives, insulating and energy storing material, bio-climatic design, and concepts. Case studies will be used extensively as a vehicle to discuss the success/failure of ideas and their physical applications.
PRGR 632 Sustainable Building Materials (Syllabus) (2 cr.)
The course covers the description of sustainable building materials and products, such as, categories and types, factors and criteria for evaluation and selection, specifications and standards, life cycle assessment concepts and tools, and integration into projects.
PRGR 633 Renewable Energy Systems and Energy Efficiency in Buildings** (Syllabus) (2 cr.)
The course focus is on HVAC design optimization and energy conservation measures in a built-in environment to enhance the building’s energy efficiency while maintaining space thermal comfort and indoor air quality requirement. In addition, it includes concepts of district cooling/heating systems, dehumidification and personalized ventilation systems. It also covers renewable energy integration in building systems including: photo-voltaic, solar-thermal, and geothermal.
Performance and energy consumption of the conventional air conditioning system (constant and variable air volume) as well as the hybrid integrated air conditioning systems will be discussed and compared. The course will include several demonstrations of concept experiments.
**Can be counted as an Energy concentration course.
PRGR 634 Moisture and Control of Humidity in Buildings (Syllabus) (2 cr.)
This course covers sources of moisture and factors affecting its entry and buildup inside buildings, such as, construction practices and choice of building materials, and furniture. Other topics including: impact of moisture on thermal comfort and energy performance of the air-conditioning system, solid/liquid desiccant dehumidification, and hybrid air-conditioning systems are discussed. This module also covers modeling of moisture transport, the industrial need to control indoor humidity, and moisture-caused health issues, including, mold formation and growth.
PRGR 637 Green Building Basics and Building Rating Practices** (Syllabus) (2 cr.)
This course covers assessment building design and construction operations, such as, project rating systems (LEED, BREEAM, QSAS, etc.). Other topics include: embodied energy, carbon content and emission of CO2, SO2 and NOx of building materials, elements, and construction process. Water conservation, water management systems, water efficient landscaping, green roofing, rainwater harvesting, sanitary fixtures and plumbing systems, wastewater treatment and reuse, and process water strategies are also discussed.
**Students cannot receive credits for both PRGR 637 and PRGR 647
PRGR 639 Construction and Demolition Waste Management (Syllabus) (2 cr.)
This course covers building disposal techniques including deconstruction, as well as, selective and partially selective demolition, design and construction for deconstruction, and reuse. Other topics include: waste minimization through prefabrication, preassembly, and modular construction. Sustainable waste management including: recycling and reuse of waste materials, and components are also discussed.
PRGR 641 HVAC Systems for Energy Efficient Acclimatization (Syllabus) (2 cr.)
This course covers energy conservation measures in the built-in environment to enhance the building’s energy efficiency while maintaining space thermal comfort and indoor air quality requirement. Other topics include: overall and segmental thermal comfort models with localized air quality, fundamental ventilation, indoor-air-quality, infiltration natural and mechanical ventilation, importance and impact of indoor air quality on human health, and energy performance of the building’s air conditioning system. Students will also study the ASHRAE requirements for ventilation, personalized ventilation, and cooling devices.
PRGR 643 Refrigeration and Heat Pumps (Syllabus) (2 cr.)
The course focuses on heat pumps in low energy and passive buildings, as well as, ground source heat fundamentals, loop systems, open systems, soil classification and conductivity, grouting procedures, and performance of ground source heat pumps in housing units. Simulation of heat pumps and cost effective design options will be considered.
PRGR 645 Building Energy System Modeling (Syllabus) (2 cr.)
The course covers indoor space thermal models and the analysis and modeling of building energy systems involving: applications of thermodynamics, economics, heat transfer, fluid flow, and optimization. The use of modern computational tools to model thermal performance characteristics of components of HVAC systems including: chillers, recovery systems, flow control devices, heat exchanges, solar panels, dehumidification systems, boilers, condensers, cooling towers, fans, duct systems, piping systems, and pumps are also discussed.
PRGR 646 Energy Management Systems of Buildings** (Syllabus) (2 cr.)
The Building Management Systems course provides the necessary tools to control, monitor and optimize the building’s facilities, mechanical and electrical equipment for comfort, safety, and efficiency. It covers the principles of the building automation systems (BAS) applied to commercial HVAC equipment, lighting systems, fire and security systems; with a keen emphasis on the control routine for energy efficiency.
**Can be counted as an Energy concentration course
PRGR 647 Sustainable Building Design and Construction** (Syllabus) (2 cr.)
This course covers the implementation of sustainability principles throughout the building’s lifecycle including: building rating systems (LEED, BREEAM, ESTIDAMA etc.), embodied energy, carbon content, and emission of COx, SOx, and NOx of building materials, elements, and construction process. Energy efficiency, water and wastewater management, indoor environmental quality, materials, and location/transportation measures are also discussed.
**Students cannot receive credits for both PRGR 637 and PRGR 647