Green Building: An Engineering Approach to Sustainable Construction
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Green Building: An Engineering Approach to Sustainable Construction
Carrico, Christian M.
Elsevier - Health Sciences Division
04/2025
352
Mole
9780128243657
Pré-lançamento - envio 15 a 20 dias após a sua edição
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1.?Introduction: How Have We Arrived Here?
2.?Motivation: Why Do It Differently?
3.?Energy Mechanics: Key Underlying Concepts
4.?Buildings and Energy Use: Embodied and Ongoing Building Energy Use
5.?Green Design: Starting the Project or Renovation Right
6.?Materials: Choosing the Best Options
7.?Engineered Mechanical Systems: Evaluating System Choices
8.?Hydro Systems: Water is Energy
9.?Onsite Renewable Energy Systems: Advancing Distributed Energy Production
10.?Indoor Environmental Quality: Maintaining Healthy Buildings
11.?Green Sites: Harmonizing the Built and Surrounding Natural Environments
12.?Economics and Policy Options: Choosing Cost Effective Measures
13.?Resiliency Engineering: Designing for Future Disruptions
2.?Motivation: Why Do It Differently?
3.?Energy Mechanics: Key Underlying Concepts
4.?Buildings and Energy Use: Embodied and Ongoing Building Energy Use
5.?Green Design: Starting the Project or Renovation Right
6.?Materials: Choosing the Best Options
7.?Engineered Mechanical Systems: Evaluating System Choices
8.?Hydro Systems: Water is Energy
9.?Onsite Renewable Energy Systems: Advancing Distributed Energy Production
10.?Indoor Environmental Quality: Maintaining Healthy Buildings
11.?Green Sites: Harmonizing the Built and Surrounding Natural Environments
12.?Economics and Policy Options: Choosing Cost Effective Measures
13.?Resiliency Engineering: Designing for Future Disruptions
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
<p>energy consumption; environmental degradation; climate change; finite resources; affluenza; thermodynamics; heat transfer; heat capacity; direct fuels combustion; energy efficiency; heat engines; Carnot efficiency; process efficiency; plant efficiency; net-zero energy; insulation techniques; R-values; recycled materials; control systems; water reuse; rainwater harvesting; wind power; geothermal; sick building syndrome; landscape design; exterior environment; xeriscaping; present value analysis; life-cycle cost assessment; LEED</p>
1.?Introduction: How Have We Arrived Here?
2.?Motivation: Why Do It Differently?
3.?Energy Mechanics: Key Underlying Concepts
4.?Buildings and Energy Use: Embodied and Ongoing Building Energy Use
5.?Green Design: Starting the Project or Renovation Right
6.?Materials: Choosing the Best Options
7.?Engineered Mechanical Systems: Evaluating System Choices
8.?Hydro Systems: Water is Energy
9.?Onsite Renewable Energy Systems: Advancing Distributed Energy Production
10.?Indoor Environmental Quality: Maintaining Healthy Buildings
11.?Green Sites: Harmonizing the Built and Surrounding Natural Environments
12.?Economics and Policy Options: Choosing Cost Effective Measures
13.?Resiliency Engineering: Designing for Future Disruptions
2.?Motivation: Why Do It Differently?
3.?Energy Mechanics: Key Underlying Concepts
4.?Buildings and Energy Use: Embodied and Ongoing Building Energy Use
5.?Green Design: Starting the Project or Renovation Right
6.?Materials: Choosing the Best Options
7.?Engineered Mechanical Systems: Evaluating System Choices
8.?Hydro Systems: Water is Energy
9.?Onsite Renewable Energy Systems: Advancing Distributed Energy Production
10.?Indoor Environmental Quality: Maintaining Healthy Buildings
11.?Green Sites: Harmonizing the Built and Surrounding Natural Environments
12.?Economics and Policy Options: Choosing Cost Effective Measures
13.?Resiliency Engineering: Designing for Future Disruptions
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
<p>energy consumption; environmental degradation; climate change; finite resources; affluenza; thermodynamics; heat transfer; heat capacity; direct fuels combustion; energy efficiency; heat engines; Carnot efficiency; process efficiency; plant efficiency; net-zero energy; insulation techniques; R-values; recycled materials; control systems; water reuse; rainwater harvesting; wind power; geothermal; sick building syndrome; landscape design; exterior environment; xeriscaping; present value analysis; life-cycle cost assessment; LEED</p>
