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IZXFER

IZXFER constructs an object that represents an interzone or zone/ambient heat transfer due to conduction and/or air transfer. The air transfer modeled by IZXFER transfers heat only; humidity transfer is not modeled as of July 2011. Note that SURFACE is the preferred way represent conduction between ZONEs.

The AIRNET types are used in a multi-cell pressure balancing model that finds zone pressures that produce net 0 mass flow into each zone. The model operates in concert with the znType=CZM or znType=UZM to represent ventilation strategies. During each time step, the pressure balance is found for two modes that can be thought of as “VentOff” (or infiltration-only) and “VentOn” (or infiltration+ventilation). The zone model then determines the ventilation fraction required to hold the desired zone temperature (if possible). AIRNET modeling methods are documented in the CSE Engineering Documentation.

Note that fan-driven types assume pressure-independent flow. That is, the specified flow is included in the zone pressure balance but the modeled fan flow does not change with zone pressure. The assumption is that in realistic configurations, zone pressure will generally be close to ambient pressure. Unbalanced fan ventilation in a zone without relief area will result in runtime termination due to excessively high or low pressure.

izName

Optional name of interzone transfer; give after the word "IZXFER" if desired.

Units Legal Range Default Required Variability
63 characters none No constant

izNVType

Type: choice

Choice specifying the type of ventilation or leakage model to be used.
NONE No interzone ventilation
ONEWAY Uncontrolled flow from izZn1 to izZn2 when izZn1 air temperature exceeds izZn2 air temperature (using ASHRAE high/low vent model).
TWOWAY Uncontrolled flow in either direction (using ASHRAE high/low vent model).
AIRNETIZ Single opening to another zone (using pressure balance AirNet model). Flow is driven by buoyancy.
AIRNETEXT Single opening to ambient (using pressure balance AirNet model). Flow is driven by buoyancy and wind pressure.
AIRNETHORIZ Horizontal (large) opening between two zones, used to represent e.g. stairwells. Flow is driven by buoyancy; simultaneous up and down flow is modeled.
AIRNETEXTFAN Fan from exterior to zone (flow either direction).
AIRNETIZFAN Fan between two zones (flow either direction).
AIRNETEXTFLOW Specified flow from exterior to zone (either direction). Behaves identically to AIRNETEXTFAN except no electricity is consumed and no fan heat is added to the air stream.
AIRNETIZFLOW Specified flow between two zones (either direction). Behaves identically to AIRNETIZFAN except no electricity is consumed and no fan heat is added to the air stream.
AIRNETHERV Heat or energy recovery ventilator. Supply and exhaust air are exchanged with the exterior with heat and/or moisture exchange between the air streams. Flow may or may not be balanced.
AIRNETDOAS Air supplied from and/or exhausted to a centralized DOAS fans.

Note that optional inputs izTEx, izWEx, and izWindSpeed can override the outside conditions assumed for ivNVTypes that are connected to ambient (AIRNETEXT, AIRNETEXTFAN, AIRNETEXTFLOW, and AIRNETHERV).

Units Legal Range Default Required Variability
choices above none No constant

izAFCat

Type: choice

Choice indicating air flow category used only for recording air flow results to an AFMETER. izAFCat has no effect for non-AIRNET IZXFERs. izAFCat is not used unless the associated ZONE(s) specify znAFMtr.

Choices are:
InfilEx Infiltration from ambient
VentEx Natural ventilation from ambient
FanEx Forced ventilation from ambient
InfilIz Interzone infiltration
VentIz Interzone natural ventilation
FanIz Interzone forced ventilation
DuctLk Duct leakage
HVAC HVAC air

Default values for izAFCat are generally adequate except that natural ventilation IZXFERs are by default categorized as infiltration. It is thus recommended that izAfCat be omitted except that ventilation IZXFERs (e.g. representing openable windows) should include izAfCat=VentEx (or VentIz).

Units Legal Range Default Required Variability
choices above derived from IZXFER characteristics No constant

izZn1

Type: znName

Name of primary zone. Flow rates \(>\) 0 are into the primary zone.

Units Legal Range Default Required Variability
name of a ZONE none Yes constant

izZn2

Type: znName

Name of secondary zone.

Units Legal Range Default Required Variability
name of a ZONE none required unless constant izNVType = AIRNETEXT, AIRNETEXTFAN, AIRNETEXTFLOW, or AIRNETHERV constant

izDOAS

Type: oaName

Name of DOAS where air is supplied from (izVfMin > 0), or exhausting to (izVfMin < 0).

Units Legal Range Default Required Variability
name of a DOAS when izNVType = AIRNETDOAS constant

izLinkedFlowMult

Type: float

Specifies a multiplier applied to air flow to/from any associated DOAS. This supports use of a single modeled zone to represent multiple actual zones while preserving the total DOAS air flow and energy consumption.

For example, consider a DOAS-linked IZXFER with izVfMin = 100 and izLinkedFlowMult = 5. The zone specified by izZn1 receives 100 cfm while the DOAS specified by izDOAS is modeled as if the supply flow is 500 cfm. Thus the DOAS behavior (fan energy use etc.) approximates that of a DOAS serving 5 zones, but only one zone is simulated.

Note izLinkedFlowMult has no effect on the air flow to or from the zone specified by izZn1.

Units Legal Range Default Required Variability
-- x \(\gt\) 0 1 No constant

Give izHConst for a conductive transfer between zones. Give izNVType other than NONE and the following variables for a convective (air) transfer between the zones or between a zone and outdoors. Both may be given if desired. Not known to work properly as of July 2011

izHConst

Type: float

Conductance between zones.

Units Legal Range Default Required Variability
Btu/oF x \(\ge\) 0 0 No hourly

izALo

Type: float

Area of low or only vent (typically VentOff)

Units Legal Range Default Required Variability
ft2 x \(\ge\) 0 0 No hourly

izAHi

Type: float

Additional vent area (high vent or VentOn). If used in AIRNET, izAHi > izALo typically but this is not required.

Units Legal Range Default Required Variability
ft2 x \(\ge\) 0 izALo No hourly

izTEx

Type: float

Alternative exterior air dry bulb temperature for this vent. Allowed only with izNVTypes that use outdoor air (AIRNETEXT, AIRNETEXTFAN, AIRNETEXTFLOW, and AIRNETHERV). If given, izTEx overrides the outdoor dry-bulb temperature read from the weather file or derived from design conditions.

Caution: izTEx is not checked for reasonableness.

One use of izTEx is in representation of leaks in surfaces adjacent to zones not being simulated. "Pseudo-interior" surface leakage can be created as follows (where "Z1" is the name of the leak's zone and izALo and izHD are set to appropriate values) --

 IZXFER RLF izNVTYPE=AirNetExt izZN1="Z1" izALo=.1 izHD=10  izTEx=@zone["Z1"].tzls izWEx=@zone["Z1"].wzls

This will allow Z1's pressure to be realistic without inducing thermal loads that would occur if the leak source had outdoor conditions.

Units Legal Range Default Required Variability
oF Outdoor dry-bulb No subhourly

izWEx

Type: float

Alternative exterior air humidity ratio seen by this vent. Allowed only with izNVTypes that use outdoor air (AIRNETEXT, AIRNETEXTFAN, AIRNETEXTFLOW, and AIRNETHERV). If given, izWEx overrides the outdoor humidity ratio derived from weather file data or design conditions.

Caution: izWEx is not checked against saturation -- there is no verification that the value provided is physically possible.

See izTEx example just above.

Units Legal Range Default Required Variability
\(\gt\) 0 Outdoor humidity ratio No subhourly

izWindSpeed

Type: float

Alternative windspeed seen by this vent. Allowed only with izNVTypes that use outdoor air (AIRNETEXT, AIRNETEXTFAN, AIRNETEXTFLOW, and AIRNETHERV). If given, izWindSpeed overrides the windspeed read from the weather file or derived from design conditions.

No adjustments such as TOP windF or ZONE znWindFLkg are applied to izWindSpeed when it is used in derivation of wind-driven air flow.

Note that izCpr must be non-0 for izWindSpeed to have any effect.

Units Legal Range Default Required Variability
mph \(\ge\) 0 Zone adjusted windspeed No subhourly

izL1

Type: float

Length or width of AIRNETHORIZ opening.

Units Legal Range Default Required Variability
ft x \(>\) 0 none if izNVType = AIRNETHORIZ constant

izL2

Type: float

Width or length of AIRNETHORIZ opening.

Units Legal Range Default Required Variability
ft x \(>\) 0 none if izNVType = AIRNETHORIZ constant

izStairAngle

Type: float

Stairway angle for AIRNETHORIZ opening. Use 90 for an open hole. Note that 0 prevents flow.

Units Legal Range Default Required Variability
o degrees x \(>\) 0 34 No constant

izHD

Type: float

Vent center-to-center height difference (for TWOWAY) or vent height above nominal 0 level (for AirNet types)

Units Legal Range Default Required Variability
ft 0 No constant

izNVEff

Type: float

Vent discharge coefficient.

Units Legal Range Default Required Variability
0 \(\le\) x \(\le\) 1 0.8 No constant

izfanVfDs

Type: float

Fan design or rated flow at rated pressure. For AIRNETHERV, this is the net air flow into the zone, gross flow at the fan is derived using izEATR (see below).

Units Legal Range Default Required Variability
cfm x \(\ge\) 0 0 (no fan) If fan present constant

izCpr

Type: float

Wind pressure coefficient (for AIRNETEXT).

Units Legal Range Default Required Variability
x \(\ge\) 0 0 No constant

izExp

Type: float

Opening exponent (for AIRNETEXT).

Units Legal Range Default Required Variability
x \(>\) 0 0.5 No constant

izVfMin

Type: float

Minimum volume flow rate (VentOff mode).

Units Legal Range Default Required Variability
cfm x \(\ge\) 0 izfanVfDs No subhourly

izVfMax

Type: float

Maximum volume flow rate (VentOn mode)

Units Legal Range Default Required Variability
cfm x \(\ge\) 0 izVfMin No subhourly

izASEF

Type: float

Apparent sensible effectiveness for AIRNETHERV ventilator. ASEF is a commonly-reported HERV rating and is calculated as (supplyT - sourceT) / (returnT - sourceT). This formulation includes fan heat (in supplyT), hence the term "apparent". Ignored if izSRE is given. CSE does not HRV exhaust-side condensation, so this model is approximate.

Units Legal Range Default Required Variability
0 \(\le\) x \(\le\) 1 0 No subhourly

izSRE

Type: float

Sensible recovery efficiency (SRE) for AIRNETHERV ventilator. Used as the sensible effectiveness in calculation of the supply air temperature. Note that values of SRE greater than approximately 0.6 imply exhaust-side condensation under HVI rating conditions. CSE does not adjust for these effects. High values of izSRE will produce unrealistic results under mild outdoor conditions and/or dry indoor conditions.

Units Legal Range Default Required Variability
0 \(\le\) x \(\le\) 1 0 No subhourly

izASRE

Type: float

Adjusted sensible recovery efficiency (ASRE) for AIRNETHERV ventilator. The difference izASRE - izSRE is used to calculate fan heat added to the supply air stream. See izSRE notes. No effect when izSRE is 0.

Units Legal Range Default Required Variability
0 \(\le\) x \(\le\) izSRE 0 No subhourly

izEATR

Type: float

Exhaust air transfer ratio for AIRNETHERV ventilator. NetFlow = (1 - EATR)*(grossFlow).

Units Legal Range Default Required Variability
cfm 0 \(\le\) x \(\le\) 1 0 No subhourly

izLEF

Type: float

Latent heat recovery effectiveness for AIRNETHERV ventilator. The default value (0) results in sensible-only heat recovery.

Units Legal Range Default Required Variability
0 \(\le\) x \(\le\) 1 0 No subhourly

izRVFanHeatF

Type: float

Fraction of fan heat added to supply air stream for AIRNETHERV ventilator. Used only when when izSRE is 0 (that is, when izASEF specifies the sensible effectiveness).

Units Legal Range Default Required Variability
0 \(\le\) x \(\le\) 1 0 No subhourly

izVfExhRat

Type: float

Exhaust volume flow ratio for AIRNETHERV ventilator = (exhaust flow) / (supply flow). Any value other than 1 indicates unbalanced flow that effects the zone pressure.

Units Legal Range Default Required Variability
x \(\ge\) 0 1 (balanced) No constant

izfanPress

Type: float

Design or rated fan pressure.

Units Legal Range Default Required Variability
inches H2O x \(>\) 0 0.3 No constant

Only one of izfanElecPwr, izfanEff, and izfanShaftBhp may be given: together with izfanVfDs and izfanPress, any one is sufficient for CSE to determine the others and to compute the fan heat contribution to the air stream.

izfanElecPwr

Type: float

Fan input power per unit air flow (at design flow and pressure).

Units Legal Range Default Required Variability
W/cfm x \(>\) 0 derived from izfanEff and izfanShaftBhp If izfanEff and izfanShaftBhp not present constant

izfanEff

Type: float

Fan efficiency at design flow and pressure, as a fraction.

Units Legal Range Default Required Variability
0 \(\le\) x \(\le\) 1 derived from izfanShaftBhp if given, else 0.08 No constant

izfanShaftBhp

Type: float

Fan shaft brake horsepower at design flow and pressure.

Units Legal Range Default Required Variability
bhp x \(>\) 0 derived from izfanEff. No constant

izfanCurvePy=\(k_0\), \(k_1\), \(k_2\), \(k_3\), \(x_0\)

\(k_0\) through \(k_3\) are the coefficients of a cubic polynomial for the curve relating fan relative energy consumption to relative air flow above the minimum flow \(x_0\). Up to five floats may be given, separated by commas. 0 is used for any omitted trailing values. The values are used as follows:

\[z = k_0 + k_1 \cdot (x - x_0)| + k_2 \cdot (x - x_0)|^2 + k_3 \cdot (x - x_0)|^3\]

where:

  • \(x\) is the relative fan air flow (as fraction of izfanVfDs; 0 \(\le\) \(x\) \(\le\) 1);
  • \(x_0\) is the minimum relative air flow (default 0);
  • \((x - x_0)|\) is the "positive difference", i.e. \((x - x_0)\) if \(x > x_0\); else 0;
  • \(z\) is the relative energy consumption.

If \(z\) is not 1.0 for \(x\) = 1.0, a warning message is displayed and the coefficients are normalized by dividing by the polynomial's value for \(x\) = 1.0.

Units Legal Range Default Required Variability
x \(\ge\) 0 0, 1, 0, 0, 0 (linear) No constant

izFanMtr

Type: mtrName

Name of meter, if any, to record energy used by supply fan. End use category used is specified by izFanEndUse (next).

Units Legal Range Default Required Variability
name of a METER not recorded No constant

izFanEndUse

Type: choice

End use to which fan energy is recorded (in METER specified by izFanMtr). See METER for available end use choices.

Units Legal Range Default Required Variability
end use choice Fan No constant

endIZXFER

Optionally indicates the end of the interzone transfer definition.

Units Legal Range Default Required Variability
none No constant

Related Probes: