Contents
- The Motivation behind the Green Building Idea
- Increased Public Focus on Sustainability and Energy Efficiency
- Supportive Framework and General Conditions
- CO Emission Trade
- Rating Systems for Sustainable Buildings
- An integrated View of Green Buildings –
- Life Cycle Engineering
- Green Building Requirements
- B Sustainable Design
- Perceived Use defines the Concept
- Relationship between Level of Well-Being
- and healthy Indoor Climate
- Relationship between Comfort Level and
- Performance Ability
- Operative Indoor Temperature in Occupied Rooms
- Operative Temperature in Atria
- Indoor Humidity
- Air Velocity and Draught Risk
- Clothing and Activity Level
- Visual Comfort
- Acoustics
- Air Quality
- Electromagnetic Compatibility
- Individualized Indoor Climate Control
- B Conscientious Handling of Resources
- Energy Benchmarks as Target Values for Design
- Fossils and Regenerative Energy Resources
- Today’s Energy Benchmark – Primary Energy
- Demand for Indoor Climate Conditioning
- Heating Energy Demand
- Energy Demand for Water Heating
- Cooling Energy Demand
- Electricity Demand for Air Transport
- Electricity Demand for Artificial Lighting
- Future Energy Benchmark – Primary Energy Demand
- over the Life Cycle of a Building
- Cumulative Primary Energy Demand
- of Building Materials
- Primary Energy Demand – Use-related
- Water Requirements
- Design, Construction, Commissioning
- and Monitoring for Green Buildings
- C Buildings
- Climate
- Urban Development and Infrastructure