This third edition combines embodied and operational emissions into a structured approach for achieving zero emissions by a specific year with certainty. It is a major positive step towards design thinking that makes achieving zero carbon emissions a reality.
This third edition combines embodied and operational emissions into a structured approach for achieving zero emissions by a specific year with certainty. It is a major positive step towards design thinking that makes achieving zero carbon emissions a reality.
Prof Ljubomir Jankovic, MSc, PhD, CEng, MCIBSE, MASHRAE, FIAP, FIBPSA, has spent the past 35 years as an academic, researcher and practitioner, focusing on how environmental design of buildings can be improved using instrumental performance monitoring, dynamic simulation, advanced computer modelling methods, and utilisation of bio-sourced materials. He holds an MSc from the University of Belgrade and a PhD from the University of Birmingham, both in Mechanical Engineering. He is a Chartered Engineer, a Member of ASHRAE, a Member of CIBSE, a Fellow of the Institution of Analysts and Programmers and a Fellow of the International Building Performance Simulation Association. His professional society activities included roles of President of ASHRAE UK London and South East Chapter, Vice-President of ASHRAE UK Chapter, and an ASHRAE Distinguished Lecturer.
Inhaltsangabe
Part 1: Zero carbon: why and how? 1. Introduction 2. Methods and tools for determining embodied emissions 3. Methods and tools for determining operational emissions 4. Weather and climate Part 2: Embodied emissions context 5. Working out embodied emissions in a building Part 3: Operational emissions context 6. Site issues 7. Building geometry 8. Thermal insulation and air tightness 9. Solar gain 10. Solar shading design 11. Thermal mass 12. Natural and mechanical ventilation 13. Natural daylight 14. Electrical lighting and its integration with natural daylight 15. Internal heat gains, heating and cooling 16. Renewable energy Part 4: Designing true zero 17. Designing for thermal comfort 18. Designing for negative operational emissions 19. Designing embodied and operational emissions to target zero emissions year for a building 20. Post occupancy monitoring and performance evaluation Part 5: Practice, Research, and Policy Development Support 21. Practice: Case Studies 22. Where the field is going - Research and Policy Development Support 23. Conclusions and future prospect
Part 1: Zero carbon: why and how? 1. Introduction 2. Methods and tools for determining embodied emissions 3. Methods and tools for determining operational emissions 4. Weather and climate Part 2: Embodied emissions context 5. Working out embodied emissions in a building Part 3: Operational emissions context 6. Site issues 7. Building geometry 8. Thermal insulation and air tightness 9. Solar gain 10. Solar shading design 11. Thermal mass 12. Natural and mechanical ventilation 13. Natural daylight 14. Electrical lighting and its integration with natural daylight 15. Internal heat gains, heating and cooling 16. Renewable energy Part 4: Designing true zero 17. Designing for thermal comfort 18. Designing for negative operational emissions 19. Designing embodied and operational emissions to target zero emissions year for a building 20. Post occupancy monitoring and performance evaluation Part 5: Practice, Research, and Policy Development Support 21. Practice: Case Studies 22. Where the field is going - Research and Policy Development Support 23. Conclusions and future prospect
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