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DOE-2 Reference Manual Version 2.1 - DOE2.com
DOE-2 Reference Manual Version 2.1 - DOE2.com
DOE-2 Reference Manual Version 2.1 - DOE2.com
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EX4HPLE 8UILDING lA, CHICAGO <strong>DOE</strong>-<strong>2.1</strong> 13 MAR 60 10.19.09 lDL RUN 1REPURT- lV-C DETAILS OF SPACE PlENU,"1-1-----------------------------------------------------------------------------------------------~--------------(CONTINUEOI--------EXTERIOR SURFACESSUAFACEMULTl PUERAREAiSQ Ff)wrOTH1FT IHEIGHT( F IIU-VAlUE(BTU/SQ FT- SURFACECONS TRUCTION HR-DEG FI T'f PEWALL-1PLTOP-11.01.0100.5000.50.00 2.00100.00 50.00WAlL-l .07 DElAVEOROOF-l .05 LlElAVEDSURFACEW4LL-IPFIIIALL-lPRIIIALL-IP6101 All-I PlTOP-1AZIMUTH(OEG,180.090.0O.270.0lao.oTIllIOEG)90.090.090.090.0o.LOCATION OF ORIGIN INBUILUING COORDINATESX8 (Frl YB IFfI La IFHo. o. o.o. o. o.o. o. o.o. o. o.o. O. 10.00LOCATION OF ORIGIN INSPACE COORDINATESX CFTI Y 1FT. l CFf)o. o. o.o. o. o.o. o. o.o. o. o.o. O. 10.00
EX4HPLE 8UILDING lA, CHICAGO <strong>DOE</strong>-<strong>2.1</strong> 13 MAR 60 10.19.09 lDL RUN 1REPURT- lV-C DETAILS OF SPACE PlENU,"1-1-----------------------------------------------------------------------------------------------~--------------(CONTINUEOI--------EXTERIOR SURFACESSUAFACEMULTl PUERAREAiSQ Ff)wrOTH1FT IHEIGHT( F IIU-VAlUE(BTU/SQ FT- SURFACECONS TRUCTION HR-DEG FI T'f PEWALL-1PLTOP-11.01.0100.5000.50.00 2.00100.00 50.00WAlL-l .07 DElAVEOROOF-l .05 LlElAVEDSURFACEW4LL-IPFIIIALL-lPRIIIALL-IP6101 All-I PlTOP-1AZIMUTH(OEG,180.090.0O.270.0lao.oTIllIOEG)90.090.090.090.0o.LOCATION OF ORIGIN INBUILUING COORDINATESX8 (Frl YB IFfI La IFHo. o. o.o. o. o.o. o. o.o. o. o.o. O. 10.00LOCATION OF ORIGIN INSPACE COORDINATESX CFTI Y 1FT. l CFf)o. o. o.o. o. o.o. o. o.o. o. o.o. O. 10.00
- Page 1 and 2:
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
- Page 10 and 11:
DOE-2 REFERENCE MANUALTABLE OF CONT
- Page 12 and 13:
PageB. LDL INPUT INSTRUCTIONS. . .
- Page 14 and 15:
Page5.6.SYSTEM Control Strategy . .
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C. SOLAR SIMULATOR ..1. Introductio
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B. MANUAL AND TAPE NOTATIONS1. Form
- Page 22 and 23:
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
- Page 30:
SERVICE BUREAUMISSOURIMcDonnell-Dou
- Page 34 and 35:
I. INTRODUCTIONThis Reference Manua
- Page 36 and 37:
B. PROGRAM PACKAGEThe DOE-2 program
- Page 38 and 39:
2. BDL ProcessorThe ~DL Processor s
- Page 40 and 41:
thermal energy consumption of the b
- Page 42:
LLNLNBSLDNECAPNOAAORNLPDLSDLSOLMETT
- Page 46 and 47:
II.BUILDING DESCRIPTION LANGUAGEA.
- Page 48 and 49:
Rules: 1. Although a U-name may be
- Page 50 and 51:
The LIKE command will duplicate onl
- Page 52 and 53:
9. Typical Run Instruction Sequence
- Page 54 and 55:
The second approach involves the us
- Page 56 and 57:
Ex amp le3. It is not possible, in
- Page 58 and 59:
The individual instructions are des
- Page 60 and 61:
B. INSTRUCTION DESCRIPTIONSIn the p
- Page 62 and 63:
2. The DIAGNOSTIC instruction may b
- Page 64 and 65:
not the user will find a comment th
- Page 66 and 67:
Whenever the U-name of a parametric
- Page 68 and 69:
Examp le:SET-DEFAULT FOR WINDOwWIDT
- Page 70 and 71:
----rr--cco-==----- = WEEK-SCHEDULE
- Page 72 and 73:
5. A comma and/or one or more blank
- Page 74 and 75:
Ex amp le 2WEEK-2 = WEEK-SCHEDULE D
- Page 76 and 77:
------TIO~-n~a~m~e*~-------;SCHEDUL
- Page 78 and 79:
Note: A DOE-2 weather year contains
- Page 80:
The control processor examines all
- Page 83 and 84:
TABLE OF CONTENTS (Cont.)Page20.2l.
- Page 85 and 86:
1. Preparation of Inputa. Prepare B
- Page 87 and 88:
It is strongly recommended that the
- Page 89 and 90:
3. L imitati onsFor DOE-2, the maxi
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of the space coordinate system is d
- Page 93 and 94:
. Space Coordinate SystemThe locati
- Page 98 and 99:
. Locating and Orienting Building S
- Page 100 and 101:
BUild:
- Page 102 and 103:
Surface Y-Axis X=12Y= 2I~ 1----12--
- Page 104 and 105:
B. LDL Input InstructionsThis secti
- Page 106 and 107:
2. To run the LOADS program for Dec
- Page 108 and 109:
3. DESIGN-DAYNote: If the user wish
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DEWPT-HIDEWPT-LODHOUR-HIDHOUR-LOWIN
- Page 112 and 113:
U-name: DESIGN-DAY or 0-0 (User Wor
- Page 114 and 115:
This can produce very strange resul
- Page 116 and 117:
Example:The data entry below descri
- Page 118 and 119:
5. BUILDING-SHADEThe BUILDING-SHADE
- Page 120 and 121:
Building...... ---/ ....... ./1/ ..
- Page 122 and 123:
6. BUILDING-RESOURCEThe BUILDING-RE
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BUILDING-RESOURCE or B-R(User Works
- Page 126 and 127:
COND ITIONS or SPACE ins truction.
- Page 128 and 129:
Return Air PlenumSupply Air."':0-·
- Page 130 and 131:
EQUIP-SENSIBLE). If both EQUIPMENT-
- Page 132 and 133:
SOURCE-SENSIBLESOURCE-LATENTINF-SCH
- Page 134 and 135:
NEUTRAL-ZONE-HTshould be assigned a
- Page 136 and 137:
The user may speci fy both types of
- Page 138 and 139:
0 name"; SPACE-CONDITIONS or S-C (U
- Page 140 and 141:
8. SPECIFYING EXTERIOR WALLS, EXTER
- Page 142 and 143:
U - name = CONSTRUCTIONU-VALUE = nu
- Page 144 and 145:
.~o~D'.:::itf)IrUJ>
- Page 146 and 147:
Outside surface resistanceTable 8De
- Page 148 and 149:
~o.CODs/weoO"'lffscliption4·in fac
- Page 150 and 151:
Table 27 Transfer Function Coeffici
- Page 152 and 153:
9. SPECIFYING INTERIOR WALLS, INTER
- Page 154 and 155:
Table 29Transfer Function Coefficie
- Page 156 and 157:
10. MATERIALThe MATERIAL instructio
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U-name*MATERIAL or MATInputKeyword
- Page 160 and 161:
THICKNESSRu 1 es:1.2.3.4.5.6.7.The
- Page 162 and 163:
____ :-;-_-,;:-_____ = LAYERS or LA
- Page 164 and 165:
EXAMPLE U-VALUES FOR SOME CONSTRUCT
- Page 166 and 167:
ABSORPTANCE for Various Exterior Su
- Page 168 and 169:
Rules:Examples:1. Either LAYERS or
- Page 170 and 171:
13. GLASS-TYPEThis instruction is u
- Page 172 and 173:
The conductance given in glass manu
- Page 174 and 175:
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
- Page 180 and 181:
xYZAZl~IUTHAREAVOLUNEare the coordi
- Page 182 and 183:
__ -;;--::-::=;:;--______ = SPACE o
- Page 184 and 185:
INF-COEFspecifies an infiltration f
- Page 186 and 187:
SOLAR-FRACTIONFRONTBACKLEFTRIGHTTOP
- Page 188 and 189:
NWALL = EXTERIOR-WALLCONSTRUCTIONGN
- Page 190 and 191:
16. WINDOWThis instruction is used
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U-name= WINDOW or WI (User Workshee
- Page 194 and 195:
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.
- Page 206 and 207:
20. LOADS-REPORTThis instruction de
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LOADS-REPORT or L-R(User Worksheet)
- Page 210 and 211:
21. HOURLY-REPORT.The HOURLY-REPORT
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* Mandatory entry, if HOURLY-REPORT
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___...,,-,:-:-:=:;:,----____ :U-nam
- Page 216 and 217:
VARIABLE-TYPE = GLOBAL(cont)VARIABL
- Page 218 and 219:
VARIABLELISTNumberVariablein FCRT
- Page 220 and 221:
VARIABLE-LI STNumberVARIABLE-TYPE =
- Page 222 and 223:
VARIABLE-LISTNumber12345678Variable
- Page 224 and 225:
C. ALTERNATIVE LOAD CALCULATION MET
- Page 226 and 227:
temperature. It should be noted tha
- Page 228 and 229:
Therefore, if the user is starting
- Page 230 and 231:
TABLE III.2 (Cont.)Custom (a) First
- Page 232 and 233:
NOTE:When specifying U-names in a l
- Page 234 and 235:
There is a hierarchy of libraries t
- Page 236 and 237:
walls defined in the LAYERS instruc
- Page 238 and 239:
II!USRLi8 ,n SAVLIBIIL ____________
- Page 240 and 241:
EXTERIOR-WALL, INTERIOR-WALL, UNDER
- Page 242 and 243:
L D L PRO C E S S 0 R I N PUT D A T
- Page 244 and 245:
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.
- Page 255 and 256:
daily, and weekly operating schedul
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I TITLE IISET-DEFAULT IlpARAMETERII
- Page 259 and 260:
Prepare and enter a ZONE instructio
- Page 261 and 262:
TABLE IV.1SDL CommandDAY-RESET -SCH
- Page 263 and 264:
SYSTEM-TYPECode-wordSUMSZRHMZSDDSSZ
- Page 265 and 266:
Table IV.2 Cont.SYSTEM-TYPECode-wor
- Page 267 and 268:
3. Explanation of System Options1)2
- Page 269 and 270:
18)19)20)21 )trying to change the s
- Page 271 and 272:
. Single-Zone Fan System w/Optional
- Page 273 and 274:
TABLE IV.4 -ContinuedCommandSYSTEM-
- Page 275 and 276:
c. Mul tizone Fan System (MZS)OUTSI
- Page 277 and 278:
CommandZONE-CONTROLZONE-AIRZONESYST
- Page 279 and 280:
TABLE IV.5 -ContinuedCommandSYSTEM-
- Page 281 and 282:
Table IV.6 shows the commands and k
- Page 283 and 284:
TABLE IV.6 - ContinuedCommandSYSTEM
- Page 285 and 286:
e. Ceiling Induction System (SZCI)O
- Page 287 and 288:
TABLE IV.7CommandZONE-CONTROLZONE-A
- Page 289 and 290:
TABLE IV.7 -ContinuedCommand Keywor
- Page 291 and 292:
CommandZONE-CONTROLTABLE I V .BAPPL
- Page 293 and 294:
TABLE I V.9APPLICABILITY OF 'COMMAN
- Page 295 and 296:
h. Floor Panel Heating System (FPH)
- Page 297 and 298:
i. Two-Pipe Fan Coil System (TPFC)2
- Page 299 and 300:
CommandZONE-CONTROLZONE-AIRZONESYST
- Page 301 and 302:
j. Four-Pipe Fan Coil System (FPFC)
- Page 303 and 304:
TABLE IV.12 - ContinuedCommand Keyw
- Page 305 and 306:
Temperature control is achieved by
- Page 307 and 308:
TABLE IV.13 - ContinuedCommand Keyw
- Page 309 and 310:
1. Four-Pipe Induction Unit System
- Page 311 and 312:
CommandZONE-CONTROLZONE-AIRZONESYST
- Page 313 and 314:
TABLE IV.14 - ContinuedCommand Keyw
- Page 315 and 316:
Table IV.1S shows the commands and
- Page 317 and 318:
TABLE IV.I5 - ContinuedCommandSYSTE
- Page 319 and 320:
n. Constant-Volume Reheat Fan Syste
- Page 321 and 322:
TABLE IV.16 - ContinuedCommandSYSTE
- Page 323 and 324:
o. Unitary Hydronic Heat Pump Syste
- Page 325 and 326:
CommandZONE-CONTROLZONE-AIRZONESYST
- Page 327 and 328:
p. Heating and Ventilating System (
- Page 329 and 330:
TABLE IV.18 - ContinuedCorrunan dSY
- Page 331 and 332:
TABLE IV.19CorrnnandZONE-CONTROLZON
- Page 333 and 334:
TABLE IV.19 -SYSTEMCommandContinued
- Page 335 and 336:
A number of optional features and c
- Page 337 and 338:
CommandZONE-CONTROLTABLE IV.20APPLI
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s. Packaged Single Zone Air Conditi
- Page 341 and 342:
TABLE IV.21 - ContinuedCommandSYSTE
- Page 343 and 344:
t. Packaged Multizone Fan System (P
- Page 345 and 346:
CommandZONE-CONTROLZONE-AIRZONESYST
- Page 347 and 348:
TABLE IV.22 - ContinuedCommandKeywo
- Page 349 and 350:
CommandZONE-CONTROLZONE-AIRZONESYST
- Page 351 and 352:
TABLE IV.23 - ContinuedCommandKey.v
- Page 353 and 354:
PTAC with Air-to-Air Heat Pump:This
- Page 355 and 356:
TABLE IV.24 - Continued__ ~C~o~mm~a
- Page 357 and 358:
5. SYSTEM Control Strategya. Genera
- Page 359 and 360:
THROTTLING-RANGE. The cooling set p
- Page 361 and 362:
TABLE IV.25 ContinuedSYSTEM-TYPETPI
- Page 363 and 364:
COOL-CONTROL = WARMESTZONE AZONE BZ
- Page 365 and 366:
Economizer:For SYSTEM-TYPE equals S
- Page 367 and 368:
Cautionary Warnings:1. If the user
- Page 369 and 370:
. Examplesi. Example Control Strate
- Page 371 and 372:
TABLE IV.26 ContinuedMIN- Zone Cool
- Page 373 and 374:
Graphically" this example strategy
- Page 375 and 376:
For those ZONEs other than the WARM
- Page 377 and 378:
air ducts to the ZONE. If the user
- Page 379 and 380:
Note: The preceding diagram is vali
- Page 381 and 382:
TABLE IV.27MAJOR CONTROL STRATEGIES
- Page 383 and 384:
(4) Specify COOL-TEMP-SCH in the ZO
- Page 385 and 386:
iii. Example Control Strategy for S
- Page 387 and 388:
(7) The desired control strategy fo
- Page 389 and 390:
iv. Example Control Strategy for SY
- Page 391 and 392:
Graphically, the example strategy f
- Page 393 and 394:
Procedure:(1) Specify SYSTEM-TYPE =
- Page 395 and 396:
hourly values in the referenced DAY
- Page 397 and 398:
Graphically, the Cycling Forced Air
- Page 399 and 400:
v. Control Strategy for SYSTEM-TYPE
- Page 401 and 402:
Graphically, the strategy for UVT l
- Page 403 and 404:
vii. Example Control Strategies for
- Page 405 and 406:
temperatures will be used to modula
- Page 407 and 408:
viii. Example Control Strategies fo
- Page 409 and 410:
'""~'"~'" c.EJ-- '"~«110 0100 0Win
- Page 411 and 412:
This establishes the hourly tempera
- Page 413 and 414:
TABLE IV.29MAJOR CONTROL STRATEGIES
- Page 415 and 416:
(3) Specify COOL-TEMP-SCH in the ZO
- Page 417 and 418:
The following is an example of data
- Page 419 and 420:
SP-2ZONE DESIGN-HEAT-T = 68DESIGN-C
- Page 421 and 422:
COOl-MA.XiHeat'''''1'''00CoolingSet
- Page 423 and 424:
DDE-2Coolingc;- SetpointThermo~tatS
- Page 425 and 426:
For multi zone and dual-duct system
- Page 427 and 428:
S-3; SYSTEM Keyword ; ValueKeyword
- Page 429 and 430:
SUPPLY-LOOUTSIDE-HIOUTSIDE-LONotes:
- Page 431 and 432:
___ -;-;--_______ =U-nameDAY-RESET-
- Page 433 and 434:
108Z642Fig. IV.17.00 2 4 6 8 10XDef
- Page 435 and 436:
POOR PRACTICE GOOD PRACTICE GOOD PR
- Page 437 and 438:
INPUT SYSTEMSCOOL-CAP-CURVE = CURVE
- Page 439 and 440:
__ ---;-;---:;:-,=~-- ; CURVE-F IT
- Page 441 and 442:
AIR-CHANGES/HRCFM/SQFTRATED-CFMtemp
- Page 443 and 444:
The exhaust fan is assumed to be co
- Page 445 and 446:
4. ZONE-CONTROLThe function of the
- Page 447 and 448:
Code WordTHERMOSTATICTABLE IV.30BAS
- Page 449 and 450:
U-name= ZONE-CONTROL or Z-C (User W
- Page 451 and 452:
TABLE IV.32Code-WordCONDITIONEDUNCO
- Page 453 and 454:
Warning: When simulating a variable
- Page 455 and 456:
Note: This keyword should normally
- Page 457 and 458:
6. SYSTEM-CONTROLThe function of th
- Page 459 and 460:
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
- Page 499 and 500:
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:
VARIABLES BY SYSTEM-TYPE FOR VARIAB
- Page 545 and 546:
VARIABLES BY SYSTEM-TYPE FOR VARIAB
- Page 547 and 548:
VARIABLES BY SYSTEM-TYPE FOR VARIAB
- Page 549 and 550:
TABLE IV.49VARIABLE-TYPE = U-name o
- Page 551 and 552:
VARIABLES BY SYSTEM-TYPE FOR VARIAB
- 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 711 and 712: eXAMPLE BUilDING lA, CHICAGO DOE-l.
- Page 713 and 714: EXA'1PLE 8UILOlriG )A, CtUCAGD DOE-
- Page 718: EXAMPLE lliJllOING lA, CHICAGO DOf-
- Page 722 and 723: EXAMPLE BUILDING lA, CtliCAGOoOE-2.
- Page 724 and 725: E~A~PLE B~lLOI~G lA, CHICAGO00£-2.
- Page 726 and 727: EXAM~LE BUILDING 3A, CHICAGO OOE-2.
- Page 728 and 729: EXAMPLE aUILDING 3A, CHICAGO DDE-2.
- Page 730 and 731: EXAMPLE BU ILDING JA, CHICAGO DOE-2
- Page 732 and 733: EXAMPLE UiJllC[NG lA, CHICAGO00E-2.
- Page 734 and 735: DO[-2.1A rl~l OUllUlh~ AUT~M'TIC Cw
- Page 736 and 737: EXAMPLE BUllOING 3., CHICAGO00E-l.1
- Page 738 and 739: EXAHPlE BUILDING 3A, CHiCAGOREPORT-
- Page 740 and 741: EXAMPLE BUILDING 3A, CHICAGO OOE-2.
- Page 742 and 743: EXAMPLE BUiLDING 3A, CHICAGO DOE-2.
- Page 744 and 745: REPORT LS-C - BUILDING PEAK LOAD CO
- Page 746 and 747: REPORT LS-D - BUILDING MONTHLY LOAD
- Page 748 and 749: REPORT LS-E - SPACE MONTHLY LOAD CO
- Page 750 and 751: SI~Pl[ STPU(TUKE RU~ !A, ChICAGO0[E
- Page 752 and 753: S!'''!PLE ::>TRUCTlIR( fWIll ~A, o-
- Page 754 and 755: SI~PLE STRUCTU~E RU~ 34, ChiCAGOLOE
- Page 756 and 757: REPORT LS-F - BUILDING MONTHLY LOAD
- Page 758 and 759:
HOURL Y-REPORTThese optional report
- Page 760 and 761:
EXAMPLE BUILDING lA, CHICAGO 00£-2
- Page 762 and 763:
LOADS HOURLY REPORT PLOTThe followi
- Page 764 and 765:
C. SYSTEMS OUTPUT REPORT DESCRIPTIO
- Page 767 and 768:
REPORT SV-A - SYSTEMS DESIGN PARAME
- Page 769 and 770:
15. COOLING CAPACITY (KBTU/HR), at
- Page 771 and 772:
REPORT SS-A - SYSTEM MONTHLY LOADS
- Page 773 and 774:
REPORT SS-B - SYSTEM MONTHLY lOA,D,
- Page 775 and 776:
REPORT SS-C - SYSTEM MONTHLY LOAD H
- Page 777 and 778:
REPORT SS-D - PLANT MONTHLY LOADS S
- Page 779 and 780:
REPORT SS-E - PLANT MONTHLY LOAD HO
- Page 781 and 782:
REPORT SS-F - ZONE MONTHLY DEMAND S
- Page 783 and 784:
EXAHPLf BUILDING 3A, CHICAGO OOE-2.
- Page 785 and 786:
EXAMPLE BUILOING 3A, CHICAGO OOE-l.
- Page 787 and 788:
EXAMPLE BUILDING :sA, CHICAGO OOE-2
- Page 789 and 790:
EXAMPLE BUILDiNG 3At CHICAGO OOE-2.
- Page 791 and 792:
EXAMPLE BUILDING 3A, CHICAGO00E-2.1
- Page 793 and 794:
EXAI4PLE BUILDING 3A, CHICAGOOOE-2.
- Page 795 and 796:
REPORT SS-H - SYSTEM MONTHLY LOADS
- Page 797 and 798:
REPORT 55-1 - SYSTEM MONTHLY COOLIN
- Page 799 and 800:
REPORT SS-J - SYSTEM PEAK HEATING A
- Page 801 and 802:
HOURLY REPORTSThese optional report
- Page 803 and 804:
D. PLANT OUTPUT REPORT DESCRIPTIONS
- Page 805 and 806:
"l9 •• 420. RPPLIl '" fHlURLY-f
- Page 807 and 808:
EXA.MPLE IWIlOINli lA, CHICAGO 00£
- Page 809 and 810:
EXAMPLE aUllDING lA, CHICAGOREPORT-
- Page 811 and 812:
eXAMPLE BUILDING 3A, CHICAGOOOE-2.1
- Page 813 and 814:
,,z 0 ~ ~ ,.. ,.. , .;..; , = ..
- Page 815 and 816:
11. FUEL INPUT ELEC. This column re
- Page 817 and 818:
REPORT PS-B - MONTHLY PEAKS AND TOT
- Page 819 and 820:
EXAMPLE BUllOING ]A, CHICAGO 00E-2.
- Page 821 and 822:
EXAMPLE BUILDING 3A, CHICAGOREPORT-
- Page 823 and 824:
EXAMPLE BUILDING 3A, CHICAGODOE-2.1
- Page 825 and 826:
REPORT PS-G - ELECTRICAL LOADS SCAT
- Page 827 and 828:
REPORT PS-H - EQUIPMENT USE STATIST
- Page 829 and 830:
REPORT PS~I- EQUIPMENT LIFE CYCLE C
- Page 831 and 832:
REPORT PS-J - PLANT LIFE-CYCLE COST
- Page 833 and 834:
REPORT BEPS - ESTIMATED BUILDING EN
- Page 835 and 836:
HOURLY REPORTSThese optional report
- Page 837 and 838:
E. ECONOMICS OUTPUT REPORT DESCRIPT
- Page 839 and 840:
EV-A: LIFE-CYCLE COSTING PARAMETERS
- Page 841 and 842:
EXAI1PLE BUIlIHNG JA, [.HICAGOOOE-2
- Page 843 and 844:
EXAMPLE 8VIlDIN~ )A, CHICAGO 00E-2.
- Page 845 and 846:
EJl:AI1PlE BUltDINC; H, CHfCAC;OREP
- Page 847 and 848:
Overall Life-Cycle CostsThis sectio
- Page 849 and 850:
DOE-2.1E Documentation Update: Weat
- Page 851 and 852:
DOE-2.1E Documentation Update: Weat
- Page 853 and 854:
DOE-2.1E Documentation Update: Weat
- Page 855 and 856:
DOE-2.1E Documentation Update: Weat
- Page 857 and 858:
DOE-2.1E Documentation Update: Weat
- Page 859 and 860:
Revised April, 1999 VIII.11DOE-2.1E
- Page 861 and 862:
Revised April, 1999 VIII.13DOE-2.1E
- Page 863 and 864:
Revised April, 1999 VIII.15DOE-2.1E
- Page 865 and 866:
DOE-2.1E Documentation Update: Weat
- Page 867 and 868:
DOE-2.1E Documentation Update: Weat
- Page 869 and 870:
DOE-2.1E Documentation Update: Weat
- Page 871:
VIII.WEATHER DATAPageA. INTRODUCTIO
- Page 874 and 875:
C. WEATHER FILESThree groups of wea
- Page 876 and 877:
DOE-2 LATITUDE LONGITUDE TIME ZONE
- Page 878 and 879:
DOE-2 LATITUDE LONGITUDE TIME ZONE
- Page 880 and 881:
This page has been deleted intentio
- Page 882 and 883:
TABLE VIII.2CALIFORNIA CLIMATE ZONE
- Page 884 and 885:
Zone Representative Cities DOE-2 Fi
- Page 886 and 887:
F. WEATHER OATA PROCESSING PROGRAMS
- Page 888 and 889:
•OR!Ar 'ALL., lIfTBISMARCk, NO•
- Page 890 and 891:
A. INTRODUCTIONEfficient heating an
- Page 892 and 893:
and other factors combine to keep t
- Page 894 and 895:
C. SPECIAL NOTESpace has been desig
- Page 896 and 897:
WBAN NUMBER STATION SELECTED TRY(Ta
- Page 898 and 899:
TAPE FIELDNUMBER0010020030040050060
- Page 900 and 901:
TAPETAPEFIELD NUMBER POSITIONS ELEM
- Page 902 and 903:
APPENDIX VII I.BTMY WEATHER DATAVII
- Page 904 and 905:
The record length of the TMY format
- Page 907 and 908:
APPENDIX V III.CWEATHER DATA PROCES
- Page 909 and 910:
In the previous discussion it is as
- Page 911 and 912:
Card 2: Columns Format1-6 L7-12 R13
- Page 913 and 914:
5. Multiple OptionsTo exercise seve
- Page 915 and 916:
7. General CommentsOne of the major
- Page 917 and 918:
A. AIRWAYS SURFACE OBSERVATIONS, T0
- Page 919 and 920:
~.lClCLOUD COVERBY LAYERWEATH ER I.
- Page 921 and 922:
APPENDIX VIlLEWEATHER DATA SUMMARIE
- Page 923:
IX. INDEX OF BDL COMMANDS, KEYWORDS
- Page 926 and 927:
UNDERGROUND-WALLWEEK-SCHE DULEWINDO
- Page 928 and 929:
KeywordsHOUR-LOHW-SCHEDULEI NF-CFM/
- Page 930 and 931:
Keywords Abbrev i at i on Associate
- Page 932 and 933:
Code-WordsLV-DLV-ELV-FLV-GLV-HLV-IL
- Page 934 and 935:
Keyword Abbreviation Associated Com
- Page 936 and 937:
Keyword Abbreviation Associated Com
- Page 938 and 939:
Keyword Abbreviation Associated Com
- Page 940 and 941:
Code-WordHPHVSYSINLETINTERMITTENTIN
- Page 942 and 943:
C. PDLCommand Word Abbreviation Pag
- Page 944 and 945:
Keyword Abbreviation Associated Com
- Page 946 and 947:
Keyword Abbreviation Associated Com
- Page 948 and 949:
Keyword Abbreviation Associated Com
- Page 950 and 951:
Code-WordsCHILLED-WATERCOALCOOLI NG
- Page 952 and 953:
Code-WordsSTEAMSTANDBYSTM-BOILERSTR
- Page 954 and 955:
D. CBSDLCormand Word Abbreviation P
- Page 956 and 957:
KeywordAssociatedCommand Word Assoc
- Page 958 and 959:
KeywordT-I NITT-OUT-MAXT-SUP-MINVAR
- Page 960 and 961:
Input or Output Input to Output fro
- Page 962 and 963:
Input or OutputNameInput toComponen
- Page 964:
I nput or OutputNameInput toCompone
- Page 967:
X. LIBRARY DATATABLE OF CONTENTSA.
- Page 970 and 971:
BANKSWEEKDAYS100 I I I rI... z:
- Page 972 and 973:
SHALL OFFICE BUILDING100~z:....u so
- Page 974 and 975:
RESTAURANT....z:....MONDAY THRU THU
- Page 976 and 977:
LARGE RETAIL STORE....z:....a:u....
- Page 978 and 979:
SUPERMARKETI-MONDAY THRU WEDNESDAYl
- Page 981 and 982:
B. MATERIALS LIBRARYThis section co
- Page 983 and 984:
The",.l Properties of Blind;n; Mate
- Page 985 and 986:
Thermal Properties of Buildin, Mote
- Page 987 and 988:
Thermal Properties ofSulldlng Mater
- Page 989 and 990:
2. Thermal Properties of Insulatina
- Page 991 and 992:
3. Thermal Properties of Air Films
- Page 993 and 994:
XI.REFERENCES1. "Procedure for Dete
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