This record declares the performance data for the water source DX cooling coil model. The performance data are structured as follows:
nSta - Number of stages. Set to 1 for single speed coil, 2 for dual-speed (or dual stage coils), etc. minSpeRat - Minimum speed ratio, used only for variable speed coils. sta - Array of records with one performance curve for each stage, as described below.
Each element of the array per
has the following data.
spe - Rotational speed for the respective stage. (This is only used for variable speed coils to interpolate for intermediate speeds). nomVal - Nominal performance values for the respective stage. Data of the nomVal record are Q_flow_nominal - Total rate of cooling at nominal conditions. COP_nominal - Coefficient of performance at nominal conditions. SHR_nominal - Sensible heat ratio at nominal conditions. m_flow_nominal - Evaporator air mass flow rate at nominal conditions. TEvaIn_nominal - Evaporator air inlet wet-bulb temperature at nominal conditions. TConIn_nominal - Condenser water inlet temperature at nominal conditions. phiIn_nominal - Relative humidity at evaporator inlet at nominal conditions. p_nominal - Atmospheric pressure at nominal conditions. mCon_flow_nominal - Condenser water mass flow rate at nominal conditions. tWet - Time until moisture drips from coil when coil is switched on gamma - Ratio of evaporation heat transfer divided by latent heat transfer at nominal condition. per - Array of records with one performance curve for the respective stage of the coil. That is, the performance curves will be used in conjunction with the nominal values defined in the record spe. capFunT - Coefficients of biquadratic polynomial for cooling capacity as a function of temperature. capFunFF - Polynomial coefficients for cooling capacity as a function of the air mass flow fraction at evaporators. capFunFFCon - Polynomial coefficients for cooling capacity as a function of the water mass flow fraction at condensers. EIRFunT - Coefficients of biquadratic polynomial for EIR as a function of temperature. EIRFunFF - Polynomial coefficients for EIR as a function of the air mass flow fraction at evaporators. EIRFunFFCon - Polynomial coefficients for EIR as a function of the water mass flow fraction at condensers. [TConInMin, TConInMax] - Minimum and maximum condenser water inlet temperatures for which the performance curves are valid. Outside this range, they will be linearly extrapolated. [TEvaInMin, TEvaInMax] - Minimum and maximum evaporator air inlet temperatures for which the performance curves are valid. Outside this range, they will be linearly extrapolated. [ffMin, ffMax] - Minimum and maximum air mass flow fraction at evaporators (relative to m_flow_nominal) for which the performance curves are valid. Outside this range, they will be linearly extrapolated. [ffConMin, ffConMax] - Minimum and maximum water mass flow fraction at condensers (relative to m_flow_nominal) for which the performance curves are valid. Outside this range, they will be linearly extrapolated.
The data used to develop the performance curves
capFunT
and
EIRFunT
should represent performance when the
cooling coil is wet, i.e., the coil providing sensible cooling and at least some dehumidification.
Performance data when the cooling coil is dry
(i.e., not providing any dehumidification) should not be included when developing these modifier curves.
The DX coil model automatically detects and adjusts for dry coil conditions by evaluating
the performance curves for the wet bulb and dry bulb temperatures at the evaporator inlet,
and then selecting the corresponding performance.
The selection of the corresponding performance is described and implemented
in
Buildings.Fluid.DXSystems.Cooling.BaseClasses.DryWetSelector.
The parameters tWet
and gamma
characterize the amount of
moisture that evaporates from the coil surface into the air stream when the coil is
wet and switched off. For an examplanation of the parameters, see
Buildings.Fluid.DXSystems.Cooling.BaseClasses.Evaporation.
There can be an arbitrary number of polynomial coefficients for the record
capFunFF
,capFunFFCon
,EIRFunFF
and EIRFunFFCon
.
However, if a coil has multiple stages, then each stage must declare the
same amount of polynomial coefficients. For example, if a
quadratic function is used for stage one, then stage two must also use
a quadratic function.
DXCoil
to
Buildings.Fluid.DXSystems.Cooling.AirSource.Data.Generic.DXCoil.
Evaluate=true
.