When reviewing an GUID-2043E09F-40E5-4155-AE28-134F62E54F54.htm#WS73099CC142F487552C60378B128B24194AD655E in the Results and Compare dialog, this table summarizes the major factors that affect the energy consumption of the analyzed model. Weather-related factors include the location, weather station, and outdoor temperature.
The project location, as specified in the Location Weather and Site dialog (which can be accessed from the Energy Settings dialog).
The weather station to be used for this project, as specified in the Location Weather and Site dialog (which can be accessed from the Energy Settings dialog).
Carbon-neutral design requires that you understand the weather data for the project location. Autodesk provides a complete year of hourly weather data, including dry-bulb temperature, dew point temperature, relative humidity, wind speed and wind direction, direct normal radiation, global and diffuse horizontal radiation, total sky cover, and more.
Many areas of the United States have micro-climatic conditions where the weather at an actual site may differ considerably from the nearest weather stations (typically located at the airport). Autodesk provides virtual weather stations no further than 14 km (8.8 miles) from a project virtually anywhere in the world.
The climate study portion of a design process should include, at a minimum, dry-bulb temperature and humidity studies and prevailing wind patterns for natural ventilation strategies.
The maximum and minimum temperatures at the project location.
The gross floor area of the analyzed model.
The net wall area (gross wall area, minus openings) of the analyzed model.
For single-family homes, heating and cooling loads are predominantly determined by the weather on the building envelope (skin). Internal loads (lighting, people, and equipment) play a smaller role.
For commercial projects, heating and cooling loads are driven by internal gains (heat emitted by people, lighting, and equipment) and by the building envelope. Depending on the building type and the exterior window ratio, HVAC loads may be more or less dependent on weather.
The building-wide average of watts of lighting electricity per area of conditioned indoor space.
The default value applied to the analyzed model is based on minimum efficiency requirements for the ASHRAE 90.1 energy code. The default value varies by building type, such as schools or retail buildings.
The default value of occupancy density based on the ASHRAE 62 Standard for Ventilation and Acceptable Indoor Air Quality.
The occupancy density (number of people per area of occupied space) impacts energy usage of the analyzed model in 2 ways:
The ratio of window area to gross wall area.
For more information, see GUID-7E14499F-4769-46D7-839B-C48C12F889B3.htm#WS73099CC142F48755-2231E4B3128F27EE529-2B48.
Electrical costs are in U.S. dollars per kilowatt-hour (kWh). The rates are based on state-wide, territory-wide, or nation-wide average utility rates. The analysis uses flat rates, not time-of-use (TOU) rates, due to the complexity and variability of TOU rates for different regions and building sizes.
Fuel costs are in U.S. dollars per therm. They are based on state-wide, territory-wide, or nation-wide average utility rates.