Location tab on model data at Site level
Cooling design and simulation autosizing simulations use simplified summer design weather based on worst case design days.
The weather data used in cooling design calculations is as follows:
In addition for zone cooling load simulation autosizing this additional data is used:
The degree of 'confidence' of the design data can be selected, i.e. the probability that the design data will occur in practice based on conditions encountered over recent years. This risk can be specified based on dry or wet-bulb temperatures, for 99.6, 99 and 98% confidence (i.e. 0.4, 1 or 2% chance of more extreme weather occurring).
The above data is described in more detail below.
The daily temperature profile used in the cooling design calculations is calculated from the maximum and minimum values using a modified sinusoidal curve and assuming that the maximum temperature occurs at 15:00 and the minimum at 5:00. You can change this behaviour by using the data described below.
The options are:
When using the 1-Default multipliers option, the multipliers are taken from the ASHRAE 2009 HOF. More specifically, EnergyPlus creates an air temperature for each timestep by using the entered maximum dry-bulb temperature in conjunction with the entered daily range and the above multiplier values. The actual equation used is shown below:
Tcurrent = Tmax - Trange x Tmultiplier
where:
Tcurrent = Air temperature of current hour of day
TMax = User supplied Max Dry-bulb Temperature
Trange = The daily temperature range (Tmax - Tmin)
TMultiplier = Range multiplier as shown on the above graph
The range multiplier values represent typical conditions of diurnal temperatures (i.e. the low temperature for the day occurring about 5:00 AM and the maximum temperature for the day occurring about 15:00. Note that EnergyPlus does not shift the profile based on the time of solar noon as is optionally allowed in ASHRAE procedures.
ASHRAE research indicates that dry-bulb and wet-bulb temperatures typically follow the same profile, so EnergyPlus can use the default profile to generate humidity conditions.
If you would like to override the default ASHRAE profile you can select the 2-Multiplier schedule option for the Dry-bulb temperature range modifier type setting. This shows allows a Day schedule to be selected to define the range multipliers for each time of the cooling design day.
This is the wind speed to be used for calculating the exterior convective heat transfer coefficients and for use (only in Calculated natural ventilation autosizing simulations) for calculating the exterior wind pressure along with the surface wind press coefficients.
Used only for only in autosizing simulations of Calculated natural ventilation models for calculating the exterior wind pressure along with the surface wind press coefficients.
The design month for cooling design and autosizing simulations is not always clear from the outset and indeed is often different for different parts of the same building. You can therefore select up to 12 design months to be used in cooling design and autosizing simulations.
You can choose to enter design data for either 1 or multiple months:
Note: The details of the design day(s): day of the month, the month range and day of week to be used for the Cooling design analysis can be defined on the Model options and Cooling design dialogs.
Note: DesignBuilder is supplied with a wide range of design data suitable for use with both of the above 2 options for over 6,400 locations around the world. The data supplied is based on the ASHRAE 2013 design data set and is licensed from ASHRAE.
DesignBuilder uses the ASHRAE Clear Sky model described in ASHRAE HOF 2005 Chapter 31 for calculating the direct and diffuse solar radiation for each hour in the cooling design day. The details of this are described in the EnergyPlus Engineering reference guide.