These files help predict how cooling demands might increase and heating demands decrease as global temperatures rise. 4. Sourcing & Global Repositories
These are the most common files, created by statistically selecting the 12 most "typical" months from a multi-year period (often 10–30 years).
As the climate shifts, historical data (TMY) may become less representative of a building's future lifespan. Engineers now use to "future-proof" designs.
Speed and direction to estimate natural ventilation and infiltration.
A primary source for thousands of international weather locations.
Reliable weather data is available through several major repositories:
There are two primary categories of weather files used to analyze building energy demand and resilience:
A widely cited repository for updated TMYx files and climate change data.
These files help predict how cooling demands might increase and heating demands decrease as global temperatures rise. 4. Sourcing & Global Repositories
These are the most common files, created by statistically selecting the 12 most "typical" months from a multi-year period (often 10–30 years).
As the climate shifts, historical data (TMY) may become less representative of a building's future lifespan. Engineers now use to "future-proof" designs.
Speed and direction to estimate natural ventilation and infiltration.
A primary source for thousands of international weather locations.
Reliable weather data is available through several major repositories:
There are two primary categories of weather files used to analyze building energy demand and resilience:
A widely cited repository for updated TMYx files and climate change data.