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Full Description
How do we design in a climate emergency?
A new social and ecological prerogative demands appropriate material choices, a re-invention of
construction and evolving building programmes that look at lifecycle, embodied energy and energy use.
Highly illustrated with practical information and simple explanations for design ideas, this book is the perfect introduction to sustainable design for architecture students.
It presents key concepts in relation to the embodied energy of construction, material properties and environmental performance of buildings in an accessible way.
In explaining the principles and technologies by which we heat, cool, moderate and mitigate, it demystifies environmental design as a technical exercise and enables students to create sustainable buildings with impact.
Keep this sourcebook with you.
Features: Amphibious House (Baca Architects), Ashen Cabin (HANNAH), Bunhill 2 Energy Centre (Ramboll, Cullinan Studio, McGurk Architects and Colloide), Cork House (Matthew Barnett Howland, Oliver Wilton and Dido Milne), Dymaxion House (Richard Buckminster Fuller), Eastgate Centre (Mick Pearce), Neuron Pod (Will Alsop - aLL Design and AKT II), Quik House (Adam Kalkin) and Tension Pavilion (StructureMode and Weber Industries).
Covers: Acoustics, bamboo construction, biopolymer, bioremediation, CLT, climatic envelope, computational fluid dynamics, earthen architecture, fabric formwork, hempcrete, insulation, mycelium biofabrication, paper construction, passive solar heating, pneumatic structures, solar geometry, tensegrity structures, thermal mass and more.
Contents
Introduction
Chapter 1 - Climate and Human Comfort
1.01 Human Comfort
1.02 Solar Geometry
1.03 Wind, Air Movement and Ventilation
1.04 Acoustics - Noise, Sound, Music and Architecture
1.05 Designing for Different Climatic Zones
1.06 The Climatic Envelope
1.07 Thermal Mass
1.08 Thermal Insulation
1.09 Computational Fluid Dynamics
1.10 Psychrometric Chart: Extending the Comfort Envelope
Chapter 2 - Materials Technology
2.01 Bio-Polymer: Made of Air
2.02 Bio-Polymer: Spatium Gelatum
2.03 Cardboard and paper construction
2.04 Cement Replacement Materials
2.05 Composites: Fibre Reinforced Polymer
2.06 Heat-motors: Deployable Shutters
2.07 Hempcrete: Hempcrete Blocks and 'Strocks'
2.08 Lime
2.09 Mycelium Biofabrication
2.10 Thermobimetal: Bloom
Chapter 3 - Construction Technology
3.01 Bamboo Construction
3.02 Earthen Architecture: Drone-sprayed mud
3.03 Earthen Architecture: Rammed Earth Construction
3.04 Fabric Formwork: Minishell
3.05 Pneumatic Structures: Desert Cloud
3.06 Steel Monocoque Construction: The Neuron Pod
3.07 Steel Upcycled Shipping Containers: Quik House
3.08 Tensegrity Structures: Tension Pavilion
3.09 Timber Gridshell Structures: Mannheim
3.10 Timber (Cross-laminated): CLT
Chapter 4 - Heating, Cooling and Remediation
4.01 Bio-Remediation: Eco-Machines
4.02 Evaporative Cooling: Porous Ceramic
4.03 Heat Pump (Ground Source): Energy Piles®
4.04 Heat Pump (Air Source): Bunhill 2 Energy Centre
4.05 Heliostat: The Sun Mirrors of Rjukan
4.06 Bio-remediation: Smog Eating Façade
4.07 Passive Solar Heating: Zome House
4.08 Thermal Storage: Skytherm, Solar Roof Pond technology
4.09 Thermal Labyrinth: Federation Square
4.10 Wind Catcher (badgir)
Chapter 5 - Buildings
5.01 Amphibious House
5.02 Cork House
5.03 Dymaxion House
5.04 Eastgate Centre
5.05 Halley VI
5.06 House in a Garden
5.07 Ashen Cabin
5.08 Media ICT
5.09 Mongolian Ger (Yurt)
5.10 1970s House St Albans
