Learning Lab

Climate Responsive Master Planning: Harnessing the Microclimate Around Buildings

Climate Responsive Master Planning: Harnessing the Microclimate Around Buildings

Host Info

Contact a Specialist

Name
Duncan Phillips
Position
Global Practice Leader | Principal
Phone
+1.519.823.1311 x2409
Email
Go to Duncan Phillips's page

Schedule

Date:
May 13, 2020
Time:
4:00 PM, Mumbai Time (GMT+5.5)
Duration:
60 min
Register

Abstract

In this course, strategies and processes to design and harness the microclimate around buildings are explored. The objective of harnessing the microclimate is to maximize the perception of acceptable thermal comfort experienced by pedestrians and residents and to increase the viability of natural ventilation within the building units. During this presentation we explore the tools and means to score "success" for both natural ventilation and thermal comfort. Other microclimate features such as rain penetration, solar impacts such as glare, noise and odor will also be addressed. By definition, the construction of a building creates a microclimate that is associated with the presence of the building itself. In the development of a masterplan, the combination of buildings can create a larger microclimate which impacts the local wind, solar and other climate parameters. Given that the process of design involves a series of decisions, a design team can choose to design the microclimate too. This course will examine microclimate manipulation, focusing on overall comfort for masterplans in a variety of regions.

Learning Objectives:

  1. Define the methods, and their limitations, to model and predict thermal comfort parameters within the urban environment.
  2. Diagnose project examples from around the world using real case studies from different climates shown in this course.
  3. Articulate the different options by which one describes and quantifies wind and thermal comfort.
  4. Identify means to improve thermal comfort within the public realm using different massing, building adjacencies and topologies, etc. to manipulate wind and shade.

Affiliated Associations

  • AIA