6.42 izXfer

@izXfer[1..].

Name	Input?	Runtime?	Type	Variability	Description
name	X	X	string	constant	–
zi1	X	X	integer number	run start time (of each phase, autoSize or simulate)	Subscripts of zones involved (air flow > 0 = into zone 1)
zi2	X	X	integer number	run start time (of each phase, autoSize or simulate)	Iz_zi2 = -1 iff not interzone
doas	X	X	integer number	run start time (of each phase, autoSize or simulate)	Subscript of doas where air is supplied from (air flow > 0), or exhausting to (airflow < 0)
ua	X	X	number	hourly	Air-to-air coupling const (btuh/f) thru walls etc.
nvcntrl	X	X	integer number	input time	Control type for nat vents:
afCatI	X	X	unrecognized	run start time (of each phase, autoSize or simulate)	Air flow input category (accounting only) c_afcat_xxx
afMtrCat1	X	X	integer number	run start time (of each phase, autoSize or simulate)	… for iz_pafmtr1
afMtrCat2	X	X	integer number	run start time (of each phase, autoSize or simulate)	… for iz_pafmtr2
a1	X	X	number	hourly	Vent area 1, ft2
a2	X	X	number	hourly	Vent area 2, ft2
L1	X	X	number	input time	Opening dim 1, ft (_anhoriz)
L2	X	X	number	input time	Opening dim 2, ft
hz	X	X	number	input time	_an (non fan): height of iz_a1 relative to arbitrary 0 (ft)
stairAngle	X	X	number	input time	Stair angle, deg (_anhoriz) (90 = vert)
cd	X	X	number	input time	Orifice coefficient, dimless (user input, default 0.8)
exp	X	X	number	run start time (of each phase, autoSize or simulate)	Power law exponent, (user input, default 0.5)
cpr	X	X	number	input time	Wind pressure coefficient (ignored if not _anext)
vfMin	X	X	number	subhourly	Min vent flow rate, cfm (for fixed flow types)
vfMax	X	X	number	subhourly	Max vent flow rate, cfm (for fixed flow types)
tEx	X	X	number	subhourly	Vent exterior air drybulb temp for anext, anextfan, anextflow, and anextherv, f
wEx	X	X	number	subhourly	Vent exterior air humidity ratio, lb/lb
windSpeed	X	X	number	subhourly	Windspeed seen by this vent, mph
linkedFlowMult	X	X	number	input time	Multiplier for flow to/from linked zone or doas or …
ASEF	X	X	number	subhourly	Apparent sensible effectiveness (for _anherv)
LEF	X	X	number	subhourly	Latent effectiveness (for _anherv)
SRE	X	X	number	subhourly	Hvi sensible recovery efficiency (for _anherv)
ASRE	X	X	number	subhourly	Hvi adjusted sensible recovery efficiency (for _anherv)
RVFanHeatF	X	X	number	subhourly	Fraction of herv fan power that heats supply air (experimental)
vfExhRat	X	X	number	subhourly	Exhaust ratio (for _anherv) = (vfgross exhaust)/(vfgross supply)
EATR	X	X	number	subhourly	Exhaust air transfer ratio (for _anherv)
fan.fanTy	X	X	unrecognized	autosize and simulate phase start time	–
fan.vfDs	X	X	number	end of each subhour	–
fan.vfDs_As	X	X	number	autosize and simulate phase start time	–
fan.vfDs_AsNov	X	X	number	autosize and simulate phase start time	–
fan.vfMxF	X	X	number	autosize and simulate phase start time	–
fan.press	X	X	number	run start time (of each phase, autoSize or simulate)	–
fan.eff	X	X	number	run start time (of each phase, autoSize or simulate)	–
fan.shaftPwr	X	X	number	run start time (of each phase, autoSize or simulate)	–
fan.elecPwr	X	X	number	run start time (of each phase, autoSize or simulate)	–
fan.motTy	X	X	unrecognized	run start time (of each phase, autoSize or simulate)	–
fan.motEff	X	X	number	autosize and simulate phase start time	–
fan.motPos	X	X	unrecognized	autosize and simulate phase start time	–
fan.curvePy.k[0]	X	X	number	autosize and simulate phase start time	–
fan.curvePy.k[1]	X	X	number	autosize and simulate phase start time	–
fan.curvePy.k[2]	X	X	number	autosize and simulate phase start time	–
fan.curvePy.k[3]	X	X	number	autosize and simulate phase start time	–
fan.curvePy.k[4]	X	X	number	autosize and simulate phase start time	–
fan.curvePy.k[5]	X	X	number	autosize and simulate phase start time	–
fan.mtri	X	X	integer number	input time	–
fan.endUse	X	X	integer number	autosize and simulate phase start time	–
fan.ausz	X	X	integer number	run start time (of each phase, autoSize or simulate)	–
fan.outPower	X	X	number	subhourly	–
fan.airPower	X	X	number	subhourly	–
fan.cMx	X	X	number	end of each subhour	–
fan.c	X	X	number	end of each subhour	–
fan.t	X	X	number	end of each subhour	–
fan.frOn	X	X	number	end of each subhour	–
fan.p	X	X	number	end of each subhour	–
fan.q	X	X	number	end of each subhour	–
fan.dT	X	X	number	end of each subhour	–
fan.qAround	X	X	number	end of each subhour	–
nvcoeff	X	X	number	run start time (of each phase, autoSize or simulate)	Nat vent overall coeff btuh/(dt^.5). set by izxsetup().
air1.tdb	X	X	number	end of each subhour	–
air1.w	X	X	number	end of each subhour	–
air2.tdb	X	X	number	end of each subhour	–
air2.w	X	X	number	end of each subhour	–
rho1	X	X	number	subhourly	Z1 moist air density, lb/cf
rho2	X	X	number	subhourly	Z2 moist air density, lb/cf (may be ambient or from doas)
ad[0].Ae	X	X	number	end of each subhour	–
ad[0].AeLin	X	X	number	end of each subhour	–
ad[0].pres1	X	X	number	end of each subhour	–
ad[0].pres2	X	X	number	end of each subhour	–
ad[0].delP	X	X	number	end of each subhour	–
ad[0].mdotP	X	X	number	end of each subhour	–
ad[0].dmdp	X	X	number	end of each subhour	–
ad[0].mdotB	X	X	number	end of each subhour	–
ad[0].mdotX	X	X	number	end of each subhour	–
ad[0].xDelpF	X	X	number	end of each subhour	–
ad[0].xMbm	X	X	number	end of each subhour	–
ad[0].tdFan	X	X	number	end of each subhour	–
ad[0].pFan	X	X	number	end of each subhour	–
ad[1].Ae	X	X	number	end of each subhour	–
ad[1].AeLin	X	X	number	end of each subhour	–
ad[1].pres1	X	X	number	end of each subhour	–
ad[1].pres2	X	X	number	end of each subhour	–
ad[1].delP	X	X	number	end of each subhour	–
ad[1].mdotP	X	X	number	end of each subhour	–
ad[1].dmdp	X	X	number	end of each subhour	–
ad[1].mdotB	X	X	number	end of each subhour	–
ad[1].mdotX	X	X	number	end of each subhour	–
ad[1].xDelpF	X	X	number	end of each subhour	–
ad[1].xMbm	X	X	number	end of each subhour	–
ad[1].tdFan	X	X	number	end of each subhour	–
ad[1].pFan	X	X	number	end of each subhour	–
amfNom	X	X	number	end of each subhour	Nominal air mass flow, lbm/sec

CSE User's Manual

California Simulation Engine

6.42 izXfer