DOE-2 Reference Manual Version 2.1 - DOE2.com

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Code-WordALL-SUMMARYALL-VERIFICATIONES-AES-BES-CEV-AAssociated KeywordSUMMARYVERIFICATIONSUMMARYSUMMARYSUMMARYVERI FICt,TI ONIX.40
X. LIBRARY DATATABLE OF CONTENTSA. SCHEDULES LIBRARY .. .. . .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. ..B. MATERIALS LIBRARY .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. ..X .A.1X.B.l1. Thermal Properties of Building Materials2. Thermal Properties of Insulating Materials3. Thermal Properties of Air Films and Air Spaces4. Notes •X.B.2X.B.9X.B.llX.B.12
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Lawrence BerkeleyL r tLos Alamos Sc
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NOTICEThe explicit function of this
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USER EVALUATIONDOE-2.1 REFERENCE MA
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DOE-2 REFERENCE MANUALTABLE OF CONT
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PageB. LDL INPUT INSTRUCTIONS. . .
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Page5.6.SYSTEM Control Strategy . .
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C. SOLAR SIMULATOR ..1. Introductio
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B. MANUAL AND TAPE NOTATIONS1. Form
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ABSTRACTThis document describes the
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algorithms, as modified by Consulta
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DOE-2 Staff PersonnelPrincipal Inve
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STATUS AND AVAIL.ABILITYMay 1981Thi
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SERVICE BUREAUMISSOURIMcDonnell-Dou
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I. INTRODUCTIONThis Reference Manua
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B. PROGRAM PACKAGEThe DOE-2 program
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2. BDL ProcessorThe ~DL Processor s
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thermal energy consumption of the b
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LLNLNBSLDNECAPNOAAORNLPDLSDLSOLMETT
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II.BUILDING DESCRIPTION LANGUAGEA.
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Rules: 1. Although a U-name may be
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The LIKE command will duplicate onl
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9. Typical Run Instruction Sequence
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The second approach involves the us
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Ex amp le3. It is not possible, in
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The individual instructions are des
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B. INSTRUCTION DESCRIPTIONSIn the p
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2. The DIAGNOSTIC instruction may b
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not the user will find a comment th
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Whenever the U-name of a parametric
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Examp le:SET-DEFAULT FOR WINDOwWIDT
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----rr--cco-==----- = WEEK-SCHEDULE
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5. A comma and/or one or more blank
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Ex amp le 2WEEK-2 = WEEK-SCHEDULE D
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------TIO~-n~a~m~e*~-------;SCHEDUL
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Note: A DOE-2 weather year contains
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The control processor examines all
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TABLE OF CONTENTS (Cont.)Page20.2l.
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1. Preparation of Inputa. Prepare B
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It is strongly recommended that the
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3. L imitati onsFor DOE-2, the maxi
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of the space coordinate system is d
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. Space Coordinate SystemThe locati
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. Locating and Orienting Building S
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BUild:
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Surface Y-Axis X=12Y= 2I~ 1----12--
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B. LDL Input InstructionsThis secti
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2. To run the LOADS program for Dec
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3. DESIGN-DAYNote: If the user wish
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DEWPT-HIDEWPT-LODHOUR-HIDHOUR-LOWIN
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U-name: DESIGN-DAY or 0-0 (User Wor
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This can produce very strange resul
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Example:The data entry below descri
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5. BUILDING-SHADEThe BUILDING-SHADE
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Building...... ---/ ....... ./1/ ..
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6. BUILDING-RESOURCEThe BUILDING-RE
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BUILDING-RESOURCE or B-R(User Works
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COND ITIONS or SPACE ins truction.
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Return Air PlenumSupply Air."':0-·
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EQUIP-SENSIBLE). If both EQUIPMENT-
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SOURCE-SENSIBLESOURCE-LATENTINF-SCH
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NEUTRAL-ZONE-HTshould be assigned a
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The user may speci fy both types of
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0 name"; SPACE-CONDITIONS or S-C (U
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8. SPECIFYING EXTERIOR WALLS, EXTER
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U - name = CONSTRUCTIONU-VALUE = nu
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.~o~D'.:::itf)IrUJ>
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Outside surface resistanceTable 8De
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~o.CODs/weoO"'lffscliption4·in fac
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Table 27 Transfer Function Coeffici
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9. SPECIFYING INTERIOR WALLS, INTER
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Table 29Transfer Function Coefficie
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10. MATERIALThe MATERIAL instructio
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U-name*MATERIAL or MATInputKeyword
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THICKNESSRu 1 es:1.2.3.4.5.6.7.The
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____ :-;-_-,;:-_____ = LAYERS or LA
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EXAMPLE U-VALUES FOR SOME CONSTRUCT
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ABSORPTANCE for Various Exterior Su
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Rules:Examples:1. Either LAYERS or
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13. GLASS-TYPEThis instruction is u
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The conductance given in glass manu
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TABLE IIL1 (cont)DefaultU-Va 1 ue c
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U-name*GLASS-TYPE or G-T(User Works
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TOP-FLOOR = SPACEFLOOR INTERIOR-WAL
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xYZAZl~IUTHAREAVOLUNEare the coordi
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__ -;;--::-::=;:;--______ = SPACE o
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INF-COEFspecifies an infiltration f
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SOLAR-FRACTIONFRONTBACKLEFTRIGHTTOP
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NWALL = EXTERIOR-WALLCONSTRUCTIONGN
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16. WINDOWThis instruction is used
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U-name= WINDOW or WI (User Workshee
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ConstructionINF-COEFl. Door-Residen
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18. INTERIOR-WALLThe INTERIOR-WALL
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TILTRules:solar radiation is absorb
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0 name= INTERIOR-WALL or I-W (User
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WIDTHLOCATIONCONSTRUCTIONMULTIPLIER
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Rules:Example:this subject in Ref.
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20. LOADS-REPORTThis instruction de
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LOADS-REPORT or L-R(User Worksheet)
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21. HOURLY-REPORT.The HOURLY-REPORT
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* Mandatory entry, if HOURLY-REPORT
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___...,,-,:-:-:=:;:,----____ :U-nam
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VARIABLE-TYPE = GLOBAL(cont)VARIABL
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VARIABLELISTNumberVariablein FCRT
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VARIABLE-LI STNumberVARIABLE-TYPE =
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VARIABLE-LISTNumber12345678Variable
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C. ALTERNATIVE LOAD CALCULATION MET
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temperature. It should be noted tha
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Therefore, if the user is starting
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TABLE III.2 (Cont.)Custom (a) First
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NOTE:When specifying U-names in a l
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There is a hierarchy of libraries t
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walls defined in the LAYERS instruc
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II!USRLi8 ,n SAVLIBIIL ____________
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EXTERIOR-WALL, INTERIOR-WALL, UNDER
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L D L PRO C E S S 0 R I N PUT D A T
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BOlUB containsuser-specified dataan
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Warning Message (3)Meaning:User Act
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Meaning:User Action;All the walls i
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5.6.SYSTEM Control Strategy .......
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IV.SYSTEMS PROGRAMA. INTRODUCTION1.
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daily, and weekly operating schedul
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I TITLE IISET-DEFAULT IlpARAMETERII
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Prepare and enter a ZONE instructio
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TABLE IV.1SDL CommandDAY-RESET -SCH
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SYSTEM-TYPECode-wordSUMSZRHMZSDDSSZ
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Table IV.2 Cont.SYSTEM-TYPECode-wor
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3. Explanation of System Options1)2
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18)19)20)21 )trying to change the s
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. Single-Zone Fan System w/Optional
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TABLE IV.4 -ContinuedCommandSYSTEM-
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c. Mul tizone Fan System (MZS)OUTSI
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CommandZONE-CONTROLZONE-AIRZONESYST
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TABLE IV.5 -ContinuedCommandSYSTEM-
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Table IV.6 shows the commands and k
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TABLE IV.6 - ContinuedCommandSYSTEM
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e. Ceiling Induction System (SZCI)O
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TABLE IV.7CommandZONE-CONTROLZONE-A
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TABLE IV.7 -ContinuedCommand Keywor
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CommandZONE-CONTROLTABLE I V .BAPPL
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TABLE I V.9APPLICABILITY OF 'COMMAN
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h. Floor Panel Heating System (FPH)
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i. Two-Pipe Fan Coil System (TPFC)2
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j. Four-Pipe Fan Coil System (FPFC)
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TABLE IV.12 - ContinuedCommand Keyw
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Temperature control is achieved by
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1. Four-Pipe Induction Unit System
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Table IV.1S shows the commands and
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TABLE IV.I5 - ContinuedCommandSYSTE
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n. Constant-Volume Reheat Fan Syste
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TABLE IV.16 - ContinuedCommandSYSTE
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o. Unitary Hydronic Heat Pump Syste
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p. Heating and Ventilating System (
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TABLE IV.18 - ContinuedCorrunan dSY
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TABLE IV.19CorrnnandZONE-CONTROLZON
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TABLE IV.19 -SYSTEMCommandContinued
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A number of optional features and c
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CommandZONE-CONTROLTABLE IV.20APPLI
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s. Packaged Single Zone Air Conditi
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TABLE IV.21 - ContinuedCommandSYSTE
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t. Packaged Multizone Fan System (P
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TABLE IV.22 - ContinuedCommandKeywo
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TABLE IV.23 - ContinuedCommandKey.v
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PTAC with Air-to-Air Heat Pump:This
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TABLE IV.24 - Continued__ ~C~o~mm~a
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5. SYSTEM Control Strategya. Genera
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THROTTLING-RANGE. The cooling set p
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TABLE IV.25 ContinuedSYSTEM-TYPETPI
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COOL-CONTROL = WARMESTZONE AZONE BZ
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Economizer:For SYSTEM-TYPE equals S
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Cautionary Warnings:1. If the user
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. Examplesi. Example Control Strate
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TABLE IV.26 ContinuedMIN- Zone Cool
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Graphically" this example strategy
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For those ZONEs other than the WARM
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air ducts to the ZONE. If the user
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Note: The preceding diagram is vali
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TABLE IV.27MAJOR CONTROL STRATEGIES
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(4) Specify COOL-TEMP-SCH in the ZO
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iii. Example Control Strategy for S
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(7) The desired control strategy fo
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iv. Example Control Strategy for SY
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Graphically, the example strategy f
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Procedure:(1) Specify SYSTEM-TYPE =
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hourly values in the referenced DAY
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Graphically, the Cycling Forced Air
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v. Control Strategy for SYSTEM-TYPE
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Graphically, the strategy for UVT l
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vii. Example Control Strategies for
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temperatures will be used to modula
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viii. Example Control Strategies fo
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'""~'"~'" c.EJ-- '"~«110 0100 0Win
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This establishes the hourly tempera
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TABLE IV.29MAJOR CONTROL STRATEGIES
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(3) Specify COOL-TEMP-SCH in the ZO
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The following is an example of data
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SP-2ZONE DESIGN-HEAT-T = 68DESIGN-C
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COOl-MA.XiHeat'''''1'''00CoolingSet
Page 423 and 424:
DDE-2Coolingc;- SetpointThermo~tatS
Page 425 and 426:
For multi zone and dual-duct system
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S-3; SYSTEM Keyword ; ValueKeyword
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SUPPLY-LOOUTSIDE-HIOUTSIDE-LONotes:
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___ -;-;--_______ =U-nameDAY-RESET-
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108Z642Fig. IV.17.00 2 4 6 8 10XDef
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POOR PRACTICE GOOD PRACTICE GOOD PR
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INPUT SYSTEMSCOOL-CAP-CURVE = CURVE
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__ ---;-;---:;:-,=~-- ; CURVE-F IT
Page 441 and 442:
AIR-CHANGES/HRCFM/SQFTRATED-CFMtemp
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The exhaust fan is assumed to be co
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4. ZONE-CONTROLThe function of the
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Code WordTHERMOSTATICTABLE IV.30BAS
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U-name= ZONE-CONTROL or Z-C (User W
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TABLE IV.32Code-WordCONDITIONEDUNCO
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Warning: When simulating a variable
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Note: This keyword should normally
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6. SYSTEM-CONTROLThe function of th
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If the user has not done so already
Page 461 and 462:
COOL-CONTROLCOOL-SET-TCOOL-RESET-SC
Page 463 and 464:
that the ductwork condenses the hum
Page 465 and 466:
U-narne= SYSTEM-CONTROL or S-C (Use
Page 467 and 468:
7. SYSTEM-AIRThe function of the SY
Page 469 and 470:
If MIN--AIR-SCH is used, the value
Page 471 and 472:
DUCT-AIR-LOSSDUCT-DELTA-TMAX-OA-FRA
Page 473 and 474:
SCHEDULE hours(clock time)1,6(midni
Page 475 and 476:
8. SYSTEM-FANSThe function of the S
Page 477 and 478:
120.0 ,--,r----,-----r----.---,--."
Page 479 and 480:
Table IV.36SYSTEM-TYPEDefaultValue
Page 481 and 482:
RETURN-STATICRETURN-EFFMAX-FAN-RATI
Page 483 and 484:
U-name= SYSTEM-FANS or S-FANS (User
Page 485 and 486:
9. SYSTEM-TERMINALThe function of t
Page 487 and 488:
_____-------: SYSTEM-TERMINAL or S-
Page 489 and 490:
MAX-FLUID-TFLUID-HEAT-CAPWhen the u
Page 491 and 492:
11. SYSTEM-EQUIPMENTFor the simulat
Page 493 and 494:
HeatingCBF ~EIRT ~QE ~COIL-BF * COI
Page 495 and 496:
In both the preceeding examples bot
Page 497 and 498:
TABLE IV.39 (cont)DefaultDefault Cu
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COOL-SH-CAPis the sensible heat rem
Page 501 and 502:
A = coil entering condition,B = coi
Page 503 and 504:
MAX-COND-RCVRYCRANKCASE-HEATCRANKCA
Page 505 and 506:
RATED-HEIR-FCFM *ELEC-HEAT-CAPMIN-H
Page 507 and 508:
__ --,,-=-==-___ = SYSTEM-EQUIPMENT
Page 509 and 510:
InputRangeKeyword Abbrev. User Inpu
Page 511 and 512:
12. SYSTEMThe function of the SYSTE
Page 513 and 514:
Code-WordTABLE IV.40SYSTEM-TYPEGene
Page 515 and 516:
TABLE IV.42Default Heating Sources
Page 517 and 518:
Code-WordDIRECTDUCTPLENUM-ZONESTABL
Page 519 and 520:
U-name= SYSTEM or SYST (Us er Works
Page 521 and 522:
13. PLANT-ASSIGNMENTA special featu
Page 523 and 524:
14. SYSTEMS-REPORTThe function of t
Page 525 and 526:
TABLE IV.45 (contd)SS-GSS-HSS-ISS-J
Page 527 and 528:
15. HOURLY-REPORTThe HOURLY-REPORT
Page 529 and 530:
16. REPORT-BLOCKThe REPORT-BLOCK in
Page 531 and 532:
TABLE IV.46VARIABLE-TYPE = GLOBALV
Page 533 and 534:
VARIABLE-LISTNumberVARIABLE-TYPE =
Page 535 and 536:
VARIABLES BYSYSTEM-TYPE FOR VARIABL
Page 537 and 538:
VARIABLES BY SYSTEM-TYPE FOR VARIAB
Page 539 and 540:
TABLE IV.48VARIABLE-TYPE = U-name o
Page 541 and 542:
VARIABLE-TYPE = U-name of SYSTEM (c
Page 543 and 544:
Page 545 and 546:
Page 547 and 548:
Page 549 and 550:
TABLE IV.49VARIABLE-TYPE = U-name o
Page 551 and 552:
Page 553 and 554:
d. heating coil design capacitye. c
Page 555 and 556:
design routine will change MAX-SUPP
Page 557 and 558:
sensible cool ing capacities and th
Page 560 and 561:
V. PLANT EQUIPMENT SIMULATION PROGR
Page 562 and 563:
Only one configuration of building
Page 564 and 565:
The primary purpose of the plant is
Page 566 and 567:
PART-LOAD-RATIOPLANT-PARAMETERSCURV
Page 568 and 569:
B. PDL INPUT INSTRUCTIONS1. PLANT-E
Page 570 and 571:
U-namePLANT-EQUIPMENTTYPESIZEAny un
Page 572 and 573:
This page is blank intentionally.V.
Page 574 and 575:
As an example, if three 100-ton one
Page 576 and 577:
5. If a LOAD-ASSIGNMENT instruction
Page 578 and 579:
0 name; PLANT-EQUIPMENT+ or P-E (Us
Page 580 and 581:
TABLE V.4Equipment PART -LOAD-RATIO
Page 582 and 583:
PART-LOAD-RATIO or P-L-R(User Works
Page 584 and 585:
TABLE V.5PLANT-PARAMETERS KEYWORDSC
Page 586 and 587:
TABLE V.5 (cont)Entering stearn tem
Page 588 and 589:
OPEN-REC-COND-PWROPEN-REC-COND-TYPE
Page 590 and 591:
TWR-TEMP-CONTROLTWR-WTR-SET-POINTTW
Page 592 and 593:
DHW-HEATER-FUELELEC-DHW-LOSSaccepts
Page 594 and 595:
PumpsCCIRC-DESIGN-T-DROPCCIRC-HEADC
Page 596 and 597:
KeywordAbbrev.User InputInputDesc.D
Page 598 and 599:
InputRangeKeyword Abbrev. User Inpu
Page 600 and 601:
(-EIR-FT)(-EIR-FPLR)Elec inFor the
Page 602 and 603:
This page is blank intentionally.V.
Page 604 and 605:
ABSORS-CAP-FTABSORS-CAP-FTSABSORS-H
Page 607 and 608:
TABLE V.6 - CONTINUEDKe~ymrd Indeee
Page 609 and 610:
DieselDIESEL-EXH-FPLRDIESEL-I/O-FPL
Page 611 and 612:
EQUIPMENT-QUAD(E-Q)(User Worksheet)
Page 613 and 614:
InputRan~eKeyword Abbrev. User Inpu
Page 615 and 616:
5. LOAD-ASSIGNMENTThe LOAD-ASSIGNME
Page 617 and 618:
PLANT-EQUIPMENT; UTILITYNUMBER ; 10
Page 619 and 620:
In the example above, the electric
Page 621 and 622:
KeywordTYPEOPERATl ON-MODELOAD-RANG
Page 623 and 624:
PRED-LOAD-RANGEfor the equipment no
Page 625 and 626:
where QH, QC, and QE are, respectiv
Page 627 and 628:
PRED-LOAD-RANGE = 2LOAD-ASSIGNMENT
Page 629 and 630:
7. HEAT-RECOVERYThe function of the
Page 631 and 632:
Rules:1. Table V.11 illustrates the
Page 633 and 634:
The correct input for achieving thi
Page 635 and 636:
HEAT-RECOVERY or HEAT-R(User Worksh
Page 637 and 638:
HEAT-STORE-SCHCOOL-STORE-SCHHTANK-L
Page 639 and 640:
For example, a compression chiller
Page 641 and 642:
$DEFINE CHARGING SCHEDULES$TANK-OS
Page 643 and 644:
HOT-TA~= PLANT-EQUIPMENTTYPE HTAI'l
Page 645 and 646:
ENERGY-STORAGE or E-S(User Workshee
Page 647 and 648:
TABLE V.12ENERGY-COST Instruction R
Page 649 and 650:
MIN-MONTHLY-CHGMIN-PEAK-LOADby DOE
Page 651 and 652:
It is recognized that the program m
Page 653 and 654:
ENERGY-COST or E-C(User Worksheet)K
Page 655 and 656:
SITE-FACTORspecifies a number that
Page 657 and 658:
11. REFERENCE-COSTSIf the user wish
Page 659 and 660:
REFERENCE-COSTS or R-C(User Workshe
Page 661 and 662:
13. PLANT-ASSIGNMENTThe special fea
Page 663 and 664:
14. PLANT-REPORTThe PLANT-REPORT in
Page 665 and 666:
TABLE V.14PLANT Program ReportsCode
Page 667 and 668:
----.c;-;-------- ; HOURLY-REPORT o
Page 669 and 670:
------c-:-;------- = REPORT-BLOCK o
Page 671 and 672:
VARIABLELIST123456789101112131415
Page 673 and 674:
TABLE V. 21VARIABLE-TYPE = HERM-CEN
Page 675 and 676:
TABLE V.24VARIABLE-TYPE = DIESEL-GE
Page 677 and 678:
TABLE V.28VARIABLE-TYPE = CTANK-STO
Page 680 and 681:
VI.ECONOMICS PROGRAMA. INTRODUCTION
Page 682 and 683:
The present value of the energy cos
Page 684 and 685:
4. Instruction SequenceIn general,
Page 686 and 687:
U-name= COMPONENT-COST or C-CInputR
Page 688 and 689:
allowed to default to 1.0. The UNIT
Page 690 and 691:
ENER GY -COSTspecifies a list, up t
Page 692 and 693:
C. ECONOMIC EVALUATION METHODSDOE-2
Page 694 and 695:
3. The investment statistics that d
Page 696 and 697:
LA-7689-M Ver. 2.1LBL-S706 Rev. 1DO
Page 699 and 700:
Part 2CHAPTER VII.REPORTSPageVI1.1A
Page 701:
A. INTRODUCTION ....1. Standard Rep
Page 704 and 705:
B. LOADS OUTPUT REPORT DESCRIPTIONS
Page 706 and 707:
EXAMPLE BuILDING JA, CHICAGOOUE-2.t
Page 708:
EX4HPLE 8UILDING lA, CHICAGO DOE-2.
Page 712 and 713:
EXAMPLE BUILDING ~A, CHICAGO om:-2.
Page 714:
l:XAMPLE BJILQINt; lA, CHICAGO 00[-
Page 721 and 722:
EXAMPLE BUILOING ]A, CHICAGO 00[-2.
Page 723 and 724:
ExA~PLE BUILDING 3At CHICAGO OOE-2.
Page 725 and 726:
EXAMPLE au Il DING 3A, CHICAGO00E-2
Page 727 and 728:
EXAMPLE BUILDING 3A, CHICAGO DOE-2.
Page 729 and 730:
..NZ 0~ ~"N·~"~;; NW~ Z " 00~ ~~ Z
Page 731 and 732:
EXAMPLE BUILDING 3A, CHICAGOREPORT-
Page 733 and 734:
REPORT LV-K - WEIGHTING FACTOR SUMM
Page 735 and 736:
REPORT LS-A - SPACE PEAK LOADS SUMM
Page 737 and 738:
REPORT LS-B - SPACE PEAK LOAD COMPO
Page 739 and 740:
EXAMPLE BUILDING 3A, CHICAGO OOE-2.
Page 741 and 742:
EXAMPLE BUILDING 3A, CHICAGO DOE-2.
Page 743 and 744:
HAMPLE BUIlDING 3A, CHICAGO 00E-2.1
Page 745 and 746:
EXAMPLE BUILDI~~ lA, CHICA~O OOE-2.
Page 747 and 748:
EU"PLE lIuILOINt; lA, ('HOoGO OOf-2
Page 749 and 750:
To illustrate how the entries in th
Page 751 and 752:
SIMPLE StrUCTURE RUI'. 3A. (I·ICA~
Page 753 and 754:
SIMPLE ~TRUCTURE RUr.. ,A, nle"";~J
Page 755 and 756:
SIMPLE Srl
Page 757 and 758:
SIMPLF STRUCTURE RU~!A, C~ICAGJDOE-
Page 759 and 760:
12. BUILDINGLATENTCLG LOAD13. BUILD
Page 761 and 762:
.EXAMPLE BUILOING 3A, CHICAGO OOE-2
Page 763 and 764:
EXAMPLE BUILDING U, CHICAGOODE-l.t
Page 765:
, 0 l P R ~ C E S SOH N P U f OAr A
Page 768 and 769:
7. COOLING CAPACITY (KBTU/HR) is ei
Page 770 and 771:
EXAMPLE 8UILDING 3A, CHICAGO DOE-2a
Page 772 and 773:
EXA~plEBulLOING )A, CHICAGO00E-2.1U
Page 774 and 775:
EXAMPlE 8UllOIN~ 311., CHICAGO DOE-
Page 776 and 777:
EXAMPLE BU!LOING 3A, CHICAGO DOE-2a
Page 778 and 779:
eXANPle 8U(lDtN~ lAt CHICAGO OOE-2.
Page 780 and 781:
EXAMPLE BUiLDING 3A, CHICAGO OOE-2.
Page 782 and 783:
EXAMPLE U~ILDING lA, CHICAGO OOE-2.
Page 784 and 785:
EXAMPLE BUllOING 3A, CHICAGO OOE-2.
Page 786 and 787:
EXAMPLE BUlLOIN~ 340, CHICAGO DOE-2
Page 788 and 789:
REPORT SS-G - ZONE MONTHLY LOADS SU
Page 790 and 791:
EXAMPLE BuiLDING 3A, CHICAGO00E-2.1
Page 792 and 793:
EXAMPLE BUILDING 3A, CHICAGOODE-Z.l
Page 794 and 795:
EXAMPLE BUJLDING 3A, CHICAGO OOE-2.
Page 796 and 797:
EXAMPLE BUILDING 3A, CHICAGn 00E-2.
Page 798 and 799:
S{/-l"lE STIlUUUJ.l.[ RUN)A, CH(AGU
Page 800 and 801:
SI~PLE srpU(TUR[ PU~ ~A, CHICAGU DO
Page 802 and 803:
CC===C=>/'I>/'I>/'I>/'I"'>/'I.r~rr~
Page 804 and 805:
• 0 LPRO C E S 5 0 RN "u rD 0\ ,
Page 806 and 807:
EXAMPLE 8UILDING lA, CHICAGOOOE-2.1
Page 808 and 809:
EXAHPLE BUILOING )11"CHICAGODOE-2.1
Page 810 and 811:
EXAHPlE aUILDING lA, CHICAGO00E-2.1
Page 812 and 813:
EXAHPLE BUILDING 3A, CHICAGO 00[-2.
Page 814 and 815:
REPORT PS-A - PLANT ENERGY UTILIZAT
Page 816 and 817:
EXAMPLE 6ulLDI~~lA, CHICAGOKEPQRT-
Page 818 and 819:
EXAHPLE t3UILD!NG 3A, CHICAGO QOE-2
Page 820 and 821:
REPORT PS-C - EQUIPMENT PART LOAD O
Page 822 and 823:
REPORT PS-D --PLANT LOADS SATISFIED
Page 824 and 825:
EXAMPLE DUILDING 3A, CHICAGO 00E-2.
Page 826 and 827:
EXAMPLE BUILDING lA, CHICAGOREPORT-
Page 828 and 829:
EXAMPLE BUILDING JA, CHICAGOOOE-2.1
Page 830 and 831:
EXAMPLE 8UIlOING 3A, CHICAGO OOE-2.
Page 832 and 833:
EXAMPLE BuILOIN~3A, CHICAGOREPORT-
Page 834 and 835:
EXAMPLE BUILDING JA, CHICAGOREPURT-
Page 836 and 837:
EXAMPLE BUILOING- 3A, CHICAGO OOE-2
Page 838 and 839:
E D L PRO C E 5 S 0 R N pur D A T A
Page 840 and 841:
UNIT MINOROVERHAUL COSTMI NOR OVERH
Page 842 and 843:
. ES-A: ANNUAL ENERGY AND OPERATION
Page 844 and 845:
ES-B:LIFE-CYCLE BUILDING AND PLANT
Page 846 and 847:
ES-C:ENERGY SAVINGS, INVESTMENT STA
Page 848 and 849:
EXAHPlE BUILDING lA, CHICAGO onE-2.
Page 850 and 851:
DOE-2.1E Documentation Update: Weat
Page 852 and 853:
Page 854 and 855:
Page 856 and 857:
Page 858 and 859:
Page 860 and 861:
CRevised April, 1999 VIII.12DOE-2.1
Page 862 and 863:
Page 864 and 865:
Page 866 and 867:
Page 868 and 869:
Page 870 and 871:
Revised April, 1999 VIII.22DOE-2.1E
Page 873 and 874:
VIII.WEATHER DATAA. INTRODUCTIONThe
Page 875 and 876:
TABLE VIIL1WEATHER DATAData for add
Page 877 and 878:
DOE-2 LATITUDE LONGITUDE TIME ZONE
Page 879 and 880:
This page has been deleted intentio
Page 881 and 882:
Crescent CityI1 I. Yreka.OrleansI11
Page 883 and 884:
Zone Representative Cities DOE-2 Fi
Page 885 and 886:
D. SOLAR RADIATION DATANone of ther
Page 887 and 888:
SOLMET10 SOLARSOLA","AOIAtION VAlU
Page 889 and 890:
APPENDIX VI I LANOAA TEST REFERENCE
Page 891 and 892:
The first step in the selection pro
Page 893 and 894:
B. MANUAL AND TAPE NOTATIONS1. Form
Page 895 and 896:
D. INVENTORYWBAN NUMBER STATION SEL
Page 897 and 898:
XX XX X XXX. -oSLRRADXXXXVNoNoI
Page 899 and 900:
TAPETAPEFIELD NUMBER POSITIONS ELEM
Page 901 and 902:
TAPEFIELD NUMBERTAPEPOSiTIONSELEMEN
Page 903 and 904:
I NTkOlJUCTl ONSolar radiation and
Page 905:
Co 1 umn77-8182-8586-9394-98* 99-10
Page 908 and 909:
DOE-2 Weather ProcessorThe weather
Page 910 and 911:
Columns Format Description19-24 R T
Page 912 and 913:
7-12 L A code-word specifying the o
Page 914 and 915: Example 2:To EDIT for August 15 fro
Page 916 and 917: APPENDIX VIILDMISCELLANEOUS WEATHER
Page 918 and 919: -0",z",0Uz·0'" _if>lew",a. i'!'"~~
Page 920 and 921: C. CTI WEATHER TAPES1. GeneralThe C
Page 922 and 923: YEAR 19b9 TRY Al~AN'. NEW 'ORMONrHl
Page 925 and 926: A. LDLCommand Word Abbreviation Pag
Page 927 and 928: KeywordsDIV I DEDRYBULB-HIDRYBULB-L
Page 929 and 930: Keywords Abbreviation Associated Co
Page 931 and 932: Code-Words Associated KexwordsAIR-C
Page 933 and 934: B. SOLCommand Word Abbreviation ~AB
Page 935 and 936: KeywordDEFROST-DEGRADEDEFROST-TDESI
Page 937 and 938: Keyword Abbreviation Associated Com
Page 939 and 940: Code-WordALL-SUMMARYBI-LINEARBI-QUA
Page 941 and 942: Code-WordAssociated KeywordSS-DSUMM
Page 949 and 950: KeywordTWR-FAN-CONTROLTWR-FAN-ELEC-
Page 951 and 952: Code-WordsMETHANOLNATURAL-GASONE-SP
Page 953 and 954: KeywordAssociatedCommand Word Assoc
Page 955 and 956: KeywordOUT-I through OUT-12PARAS-KW
Page 957 and 958: Code-WordLIQ-SOURCEMONTHLYNON-SPARA
Page 959 and 960: Input or Output Input to OutDut fro
Page 961 and 962: Input or Output Input to Output fro
Page 963 and 964: E. EDLCorrrnand Word Abbreviation P
Page 969 and 970: X. LIBRARY DATAA. SCHEDULES LIBRARY
Page 971 and 972: 100r..., z: ~a: '-' 50&oJ"-l-o MI
Page 973 and 974: OFFICESWEEKDAYSWEEKENDS & HOLl D,L,
Page 975 and 976: SMALL RETAIL STOREWEEKDAYS & SATURD
Page 977 and 978: SCHOOL/CLASSROOMREGULAR SCHOOL...10
Page 979: 100 1~z...u so... '"c.~1o M 4100 ,~
Page 982 and 983: 1. Thermal Properties of Buildina M
Page 984 and 985: Thermal Properties of Buildin9 Mate
Page 986 and 987: Tho ... l Propertl., of 8ullding Mo
Page 988 and 989: Thermal Properties of Building Mate
Page 990 and 991: The ... , Properties of Insul.tlng
Page 992 and 993: 4. NotesNOTESTOTables of Materials
Page 994: 11. "TRNSYS - A Transient System Si
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