- Page 1 and 2: Lawrence BerkeleyL r tLos Alamos Sc
- Page 4 and 5: NOTICEThe explicit function of this
- Page 8: NOTE TO THE BEGINNING DOE-2 USERThe
- Page 11 and 12: 6. LIKE 7. Subcomman ds 8. Comments
- Page 13 and 14: CHAPTER IV.A. I NTRODUCTI ON1.2.3.4
- Page 15 and 16: D. SIMULATION METHODOLOGY . . . . .
- Page 17 and 18: Part 2CHAPTER VII. REPORTSA. INTROD
- Page 20: DOE-2 REFERENCE MANUAL PREFACETABLE
- Page 23 and 24: FOREWORDApproximately one-third of
- Page 25 and 26: ACKNOWLEDGMENTSThis Reference Manua
- Page 27 and 28: ParticipantsIn addition, the partic
- Page 29 and 30: Any individual in the private secto
- Page 32: I. INTRODUCTIONTABLE OF CONTENTSA.
- Page 35 and 36: weekly (8-day sequence, including h
- Page 37 and 38: ~BUILDING DESCRIPTION LANGUAGE PROG
- Page 39 and 40: off by the building occupants is ca
- Page 41 and 42: In summary, the DOE-2 library consi
- Page 44: II.A. LANGUAGE CONCEPTS • .BUILDI
- Page 47 and 48: BDL instructions take the formU-nam
- Page 49 and 50: 5. A keyword may not be misspelled
- Page 51 and 52: 7. SubcommandsUse of a subcommand i
- Page 53 and 54: INPUT F OR SYSTEI~S ...............
- Page 55 and 56: COMPUTE PLANTSTOPThe previous examp
- Page 57 and 58:
The COMPUTE instructions for SYSTEM
- Page 59 and 60:
ADVANCED SCHEDULING___ --;-;--::-::
- Page 61 and 62:
The instruction takes the formPARAM
- Page 63 and 64:
LIBRARY-CONTENTSThe contents of the
- Page 65 and 66:
where Line-N is one of five valid k
- Page 67 and 68:
3. A parametric keyword must be def
- Page 69 and 70:
---,.,-;;;c;-;;;"""---- = DAY-SCHED
- Page 71 and 72:
TIME-TO-HOURCONVERTERTime--Hour12:0
- Page 73 and 74:
Code-wordMONTUEWEDTHUFRISATSUNHOLWD
- Page 75 and 76:
3. Dates given must be in chronolog
- Page 77 and 78:
5. The maximum number of code-numbe
- Page 79 and 80:
14. COMPUTEThe COMPUTE instruction
- Page 82 and 83:
III. LOADS PROGRAMTABLE OF CONTENTS
- Page 84 and 85:
A. INTRODUCTIONIII. LOADS PROGRAMTh
- Page 86 and 87:
(3) Attach the LDL instructions, be
- Page 88 and 89:
WINDOWDOORinstructions. The WINDOW
- Page 90 and 91:
zBuilding Coordinate31ystemHorizont
- Page 92 and 93:
Building Z-AxisBuilding Y-AxisBuild
- Page 94:
BuildingZ-AxisSpaceZ-AxisOrigin Of.
- Page 99 and 100:
window or door that is recessed int
- Page 101 and 102:
~~~~00;:0roro0-Ol-- 00~SON= Surface
- Page 103 and 104:
SPACE (1)EXTERIOR-WALL (1)WINDOW (l
- Page 105 and 106:
Rules:The initial date is the first
- Page 107 and 108:
RUN-PERIOD(User Worksheet)User Inpu
- Page 109 and 110:
00-2 DESIGN-DAY $DATA FOR SECOND ZZ
- Page 111 and 112:
2.3.If the user desires any simulat
- Page 113 and 114:
4. BUILDING-LOCATIONU-nameThe BUILD
- Page 115 and 116:
The azimuth is expressed in degrees
- Page 117 and 118:
BUILDING-LOCATION or B-L*(User Work
- Page 119 and 120:
system. Often, it is difficult to e
- Page 121 and 122:
U-nameBUILDING-SHADE or B-S(User Wo
- Page 123 and 124:
ELEC-SCHEDULEELEC-KWVERT-TRANS-SCHV
- Page 125 and 126:
7. SPACE-CONDITIONSThe primary use
- Page 127 and 128:
is varied with respect to time and
- Page 129 and 130:
LIGHT-TO-SPACETASK-LIGHT-SCHTASK-LI
- Page 131 and 132:
SOURCE-BTU/HRSOURCE-SCHEDULEPROCESS
- Page 133 and 134:
KeywordAIR-CHANGESjHRINF-CFM/SQFTNE
- Page 135 and 136:
InsideNeulral++-PressureLevel.:;.,
- Page 137 and 138:
Rules:Example:1. Infiltration metho
- Page 139 and 140:
InputRan~eKeyword Abbrev. User Inpu
- Page 141 and 142:
I7MATERIAL/MATERIALTHICKNESS, CONDU
- Page 143 and 144:
4. Specify a list of DOE-2 code-wor
- Page 145 and 146:
User Input File~- name = MATERIALLi
- Page 147 and 148:
No.Description7 . I-in. wood with I
- Page 149 and 150:
!'io.3SDescriptionTable 27WalJ 4·i
- Page 151 and 152:
It is not necessary for the user to
- Page 153 and 154:
U-nome = CONSTRUCTIONU-VALUE = numb
- Page 155 and 156:
Table 29Transfer Function Coefficie
- Page 157 and 158:
RESISTANCEExamp les:As an alternati
- Page 159 and 160:
11. LAYERSThe LAYERS instruction is
- Page 161 and 162:
Example:One-ft-thick concrete block
- Page 163 and 164:
12. CONSTRUCTIONThis instruction is
- Page 165 and 166:
Slab doors are also defined as a U-
- Page 167 and 168:
ROUGHNESSis specified as a code-num
- Page 169 and 170:
U-name*CONSTRUCTION or CONS(User Wo
- Page 171 and 172:
To use Table IIL1 the user should f
- Page 173 and 174:
TABLE IIL1TRANSMITTANCE, REFLECTANC
- Page 175 and 176:
For glass doors treated as windows,
- Page 177 and 178:
14. SPACEThe SPACE instruction is u
- Page 179 and 180:
If---2-AUDITORIUM 3-4~--DRESS-ROOMF
- Page 181 and 182:
Ex amp les:1. Specify a SPACE that
- Page 183 and 184:
15. EXTERIOR-WALL (or ROOF)This ins
- Page 185 and 186:
SHADING-DIVISIONMULTIPLIERxYZHEIGHT
- Page 187 and 188:
Ru 1 es:Example:to the space. It al
- Page 189 and 190:
~ EXTERIOR-WALL0 nameor E-W (or ROO
- Page 191 and 192:
HEIGHTWIDTHNote:Rules:Ex amp le:is
- Page 193 and 194:
17. DOORThis instruction is used to
- Page 195 and 196:
U-name= DOOR (User Worksheet)InputR
- Page 197 and 198:
NEXT-TOMULTIPLIERSOLAR-FRACTIONof t
- Page 199 and 200:
Ex amp le:with no diagnostic messag
- Page 201 and 202:
19. UNDERGROUND-WALL (or UNDERGROUN
- Page 203 and 204:
amount of incoming solar radiation
- Page 205 and 206:
__-;-;--:-:--,-,-____ = UNDERGROUND
- Page 207 and 208:
Examp le:LS-CLS-DLS-ELS-Fconduction
- Page 209 and 210:
NOTE:The user should now seriously
- Page 211 and 212:
data to be plotted, resulting in a
- Page 213 and 214:
22. REPORT-BLOCKThe REPORT-BLOCK in
- Page 215 and 216:
VARIABLELISTNumberVariablein FORT
- Page 217 and 218:
VARIABLE-TYPE = BUILDINGFor each ho
- Page 219 and 220:
VARIABLE-TYPE = U-name of SPACEAll
- Page 221 and 222:
VARIABLE-LISTNumber1234567891011121
- Page 223 and 224:
VARIABLE-TYPE; U-name of DOORVARIAB
- Page 225 and 226:
Cooling Coil Load is the rate at wh
- Page 227 and 228:
slightly more computer time. In the
- Page 229 and 230:
Again, note that DOE-2 already cont
- Page 231 and 232:
the run plus the library created du
- Page 233 and 234:
the combination of OOE-2 and user-g
- Page 235 and 236:
-------------------------,JOO IIII~
- Page 237 and 238:
-------------------------~I JOB II
- Page 239 and 240:
LIBRARY-INPUT LOADSWOODSIDE = MATER
- Page 241 and 242:
categories will be used in a regula
- Page 243 and 244:
00E-2.1 USERS GUIDE EXAMPLE BUILDIN
- Page 245 and 246:
4. WARNING and ERROR Messages for t
- Page 247 and 248:
described in the Custom Weighting F
- Page 249 and 250:
IV.SYSTEMS PROGRAMTABLE OF CONTENTS
- Page 251:
D. SIMULATION METHODOLOGY1. System
- Page 254 and 255:
2. Parametric RunsThe SYSTEMS progr
- Page 256 and 257:
5. Systems Description Language (SO
- Page 258 and 259:
c. If parametric study is planned,
- Page 260 and 261:
1. Enter program control instructio
- Page 262 and 263:
B. AVAILABLE HVAC DISTRIBUTION SYST
- Page 264 and 265:
Table IV.2 Cont.SYSTEM-TYPECode-wor
- Page 266 and 267:
Table IV.2 Cont.SYSTEM-TYPECode-wor
- Page 268 and 269:
9) Cold Deck Temperature Control Op
- Page 270 and 271:
TABLE IV.3APPLICABILITY OF COMMANDS
- Page 272 and 273:
CommandZONE-CONTROLZONE-AIRZONESYST
- Page 274 and 275:
TABLE IV.4 - ContinuedCommand Keywo
- Page 276 and 277:
Table IV.5 shows the commands and k
- Page 278 and 279:
TABLE IV.5 -CommandSYSTEM-AIRContin
- Page 280 and 281:
d. Dual-Duct Fan System (DDS)iHEAT-
- Page 282 and 283:
CommandZONE-CONTROLZONE-AIRZONESYST
- Page 284 and 285:
TABLE IV.6 -ContinuedCommand Keywor
- Page 286 and 287:
Table IV.7 shows the commands and k
- Page 288 and 289:
TABLE IV.7 -ContinuedCommandSYSTEM-
- Page 290 and 291:
f. Un it H ea ter (UHT)SUPPLYFANHEA
- Page 292 and 293:
g. Unit Ventilator (UVT)SUPPLYFANHE
- Page 294 and 295:
TABLE IV.9 -ContinuedSYSTEMCommandK
- Page 296 and 297:
Comman dZONE-CONTROLZONESYSTEM-CONT
- Page 298 and 299:
A number of optional features and c
- Page 300 and 301:
TABLE IV.ll - ContinuedCommand Keyw
- Page 302 and 303:
CommandZONE-CONTROLZONE-AIRZONESYST
- Page 304 and 305:
k. Two-Pipe Induction Unit System (
- Page 306 and 307:
CommandZONE-CONTROLZONE-AIRZONESYST
- Page 308 and 309:
TABLE IV.13 - ContinuedSYSTEMComman
- Page 310 and 311:
Table IV.14 shows the commands and
- Page 312 and 313:
TABLE IV.14 - ContinuedCommandSYSTE
- Page 314 and 315:
m. Variable-Volume Fan System w/Opt
- Page 316 and 317:
CommandZONE-CONTROLZONE-AIRZONESYST
- Page 318 and 319:
TABLE IV.15 - ContinuedCommand Keyw
- Page 320 and 321:
CommandZONE-CONTROLZONE-AIRZONESYST
- Page 322 and 323:
TABLE IV.16 -ContinuedCommand Keywo
- Page 324 and 325:
MIN-FLUIO-T in the SYSTEM-FLUID ins
- Page 326 and 327:
TABLE IV.17 - ContinuedCommandKeywo
- Page 328 and 329:
TABLE IV.18APPLICABILITY OF COMMAND
- Page 330 and 331:
q. Ceiling Bypass Variable-Volume S
- Page 332 and 333:
TABLE IV.19 - ContinuedCommandSYSTE
- Page 334 and 335:
. Residential System (RESYS)The Res
- Page 336 and 337:
Optionally, solar heating may be sp
- Page 338 and 339:
TABLE IV.20 - ContinuedCommandKeywo
- Page 340 and 341:
CommandZONE-CONTROLZONE-AIRZONESYST
- Page 342 and 343:
TABLE IV.21 - ContinuedCommandKeywo
- Page 344 and 345:
A number of optional features and c
- Page 346 and 347:
TABLE IV.22 - ContinuedCommandSYSTE
- Page 348 and 349:
u. Packaged Variable-Air-Volume Sys
- Page 350 and 351:
TABLE IV.23 - ContinuedCommandSYSTE
- Page 352 and 353:
v. Packaged Terminal Air Conditione
- Page 354 and 355:
CorrmandZONE-CONTROLZONE-AIRZONESYS
- Page 356 and 357:
TABLE IV.24 - ContinuedSYSTEMComman
- Page 358 and 359:
COOLING-SCHEDULE, HEATING-SCHEDULE,
- Page 360 and 361:
TABLE IV.25ACTIONS SIMULATED BY SPE
- Page 362 and 363:
separated, as explained earlier. Se
- Page 364 and 365:
Similarly, for central systems, the
- Page 366 and 367:
This is true for all the SYSTEM-TYP
- Page 368 and 369:
Also, when the user specifies COOL-
- Page 370 and 371:
TABLE IV.26MAJOR CONTROL STRATEGIES
- Page 372 and 373:
this system can operate from one th
- Page 374 and 375:
Example:Variable Volume Cooling I C
- Page 376 and 377:
Hot Deck Air Flow and Temperature f
- Page 378 and 379:
Graphically, this example strategy
- Page 380 and 381:
ii. Example Control Strategies for
- Page 382 and 383:
Example:Variable Volume Cooling / C
- Page 384 and 385:
Graphically, this example strategy
- Page 386 and 387:
success ive hour. Th is temperature
- Page 388 and 389:
Graphically, this example strategy
- Page 390 and 391:
The heat from the supply air fan is
- Page 392 and 393:
This SYSTEM-TYPE utilizes a two set
- Page 394 and 395:
The central cooling source for RESY
- Page 396 and 397:
(5) Specify BASEBOARD-SOURCE in the
- Page 398 and 399:
This SYSTEM-TYPE utilizes a thermos
- Page 400 and 401:
The heat from the supply air fan is
- Page 402 and 403:
vi. Control Strategy for SYSTEM-TYP
- Page 404 and 405:
At the ZONE level, the air stream t
- Page 406 and 407:
TABLE IV.28MAJOR CONTROL STRATEGIES
- Page 408 and 409:
common strategy is to specify COOL-
- Page 410 and 411:
ZONE Cooling Mode for TPIU and FPIU
- Page 412 and 413:
ix.Example Control Strategies for S
- Page 414 and 415:
The heat from the supply air fan is
- Page 416 and 417:
6. Thermostat SimulationThe discuss
- Page 418 and 419:
turned off during the cooling seaso
- Page 420 and 421:
Input data required for the simulat
- Page 422 and 423:
___ ~O~KING PERIOD_____ OFF-HRCOOL-
- Page 424 and 425:
H-SCH7 = SCHEDULE THRU JUN 15 (ALL)
- Page 426 and 427:
C-SCHB ~SP-3 ~ ZONESCHEDULETHRU MAY
- Page 428 and 429:
C. SDL INPUT INSTRUCTIONSCaution:Al
- Page 430 and 431:
.,u::~... ., 65 SUPPLY-HI'" ...- -0
- Page 432 and 433:
2. CURVE-FITThe CURVE-FIT instructi
- Page 434 and 435:
DATAQUADRATIC means that if the dat
- Page 436 and 437:
COEFFICIENTSAll curves will be fit
- Page 438 and 439:
~COEFFICIENT(--'2 COOL-~AP-CURVE =
- Page 440 and 441:
3. ZONE-AIRThe function of the ZONE
- Page 442 and 443:
OA-CHANGESOA-CFM/PEREXHAUST-CFMEXHA
- Page 444 and 445:
U-name= ZONE-AIR or Z-A (User Works
- Page 446 and 447:
HEAT-SCHED = SCHEDULE THRU DEC 31(M
- Page 448 and 449:
REVERSE-ACTIONTABLE IV.31 (Cont.)In
- Page 450 and 451:
5. ZONEThe ZONE instruction is used
- Page 452 and 453:
MAX-COOL-RATEBASEBOARD-RATINGPANEL-
- Page 454 and 455:
'.Warning: The following keyword is
- Page 456 and 457:
U-name= ZONE or Z (User Worksheet)I
- Page 458 and 459:
Thermostat set pOint for space heat
- Page 460 and 461:
Information on the RESET-SCHEDULE i
- Page 462 and 463:
MAX-HUMIDITYis the highest allowabl
- Page 464 and 465:
ECONO-LIMIT -TPREHEAT-Ton weekends
- Page 466 and 467:
4) A data entry for this keyword is
- Page 468 and 469:
RATED-CFMRETURN-CFMthen the program
- Page 470 and 471:
air, the program will use the small
- Page 472 and 473:
the COOL-TEMP-SCH THROTTLING-RANGE.
- Page 474 and 475:
U-name; SYSTEM-AIR or S-A (User Wor
- Page 476 and 477:
part-load horsepower consumption fo
- Page 478 and 479:
set SUPPLY-DELTA-T = 0 and omit val
- Page 480 and 481:
FAN-PLACEMENTCode-WordIN-AIRFLOWspe
- Page 482 and 483:
4)COOLING-CAPACITY at low speedCOOL
- Page 484 and 485:
3) Use either SUPPLY-DELTA-T and SU
- Page 486 and 487:
Warniny: When simulating a variable
- Page 488 and 489:
10. SYSTEM-FLUIDThe function of the
- Page 490 and 491:
U-name= SYSTEM-FLUID or S-FLU (User
- Page 492 and 493:
To calculate the energy input to pr
- Page 494 and 495:
Example 1:HEAT-EIR-FTot Operating -
- Page 496 and 497:
TABLE IV.39SYSTEM-EQUIPMENT DEFAULT
- Page 498 and 499:
COOLING-E IRfor other temperature v
- Page 500 and 501:
RATED-CCAP-FCFM *RATED-CEIR-FCFM *R
- Page 502 and 503:
COOL-CTRL-RANGEMIN-UNLOAD-RATIOMIN-
- Page 504 and 505:
HEATING-EIRcapacity for other tempe
- Page 506 and 507:
heating the air. Input for this key
- Page 508 and 509:
InputRan~eKeyword Abbrev. User Inpu
- Page 510 and 511:
Keyword Abbrev. User InputInputDesc
- Page 512 and 513:
PLANT Program. Built-up system simu
- Page 514 and 515:
Code-WordHOT-WATERELECTRICGAS-FURNA
- Page 516 and 517:
ZONE-HEAT-SOURCEPREHEAT-SOURCEBASEB
- Page 518 and 519:
PLENUM-NAMESZONE-NAMESis a listing
- Page 520 and 521:
InputRangeKeyword Abbrev. User Inpu
- Page 522 and 523:
-------;-;--::-:::::::0------- ~ PL
- Page 524 and 525:
TABLE IV.45Code-WordSS-ASS-BSS-CSS-
- Page 526 and 527:
SYSTEMS-REPORT or S-R(User Workshee
- Page 528 and 529:
U-name**= HOURLY-REPORT or H-R (Use
- Page 530 and 531:
-----..... __ c-:>:----- = REPORT-B
- Page 532 and 533:
TABLE IV.47VARIABLE-TYPE; U-name of
- Page 534 and 535:
VARIABLE-TYPE: U-name of ZONE(cont)
- Page 536 and 537:
VARIABLES BY SYSTEM-TYPE FOR VARIAB
- Page 538 and 539:
VARIABLES BY SYSTEM-TYPE FOR VARIAB
- Page 540 and 541:
VARIABLE-LISTNumber2324252627Variab
- Page 542 and 543:
VARIABLE-TYPE = U-name of SYSTEM (c
- Page 544 and 545:
VARIABLES BY SYSTEM-TYPE FOR VARIAB
- Page 546 and 547:
VARIABLES BYSYSTEM-TYPE FOR VARIABL
- Page 548 and 549:
VARIABLES BY SYSTEM-TYPE FOR VARIAB
- Page 550 and 551:
en"- 00VARIABLES BY SYSTEM-TYPE FOR
- Page 552 and 553:
D. SIMULATION METHODOLOGY1. System
- Page 554 and 555:
Much of the discussion that follows
- Page 556 and 557:
. Outside Air Flow RateIf OUTSIDE-A
- Page 558:
A. INTRODUCTION .•..•.I.2.3.4.5
- Page 561 and 562:
for heating pumps, for cooling pump
- Page 563 and 564:
f. Define the strategy for equipmen
- Page 565 and 566:
i1.,1I , "1'I"',l ______ _Ii + t:--
- Page 567 and 568:
5. POL and CBS Input Instruction Li
- Page 569 and 570:
TABLE V.lEquipment Cost Reference D
- Page 571 and 572:
Heat Gain:Gain p = (Design-Load x X
- Page 573 and 574:
Heating[qui pmentTABLE V.2Equipment
- Page 575 and 576:
NAINTENANCEEQUIPMENT-LIFEMINOR-OVHL
- Page 577 and 578:
7. Only one size of cooling tower c
- Page 579 and 580:
2. PART-LOAD-RATIOThe equipment PAR
- Page 581 and 582:
ELEC-INPUT-RATIOThe electric input
- Page 583 and 584:
3. PLANT-PARAMETERSThe PLANT-PARAME
- Page 585 and 586:
TABLE V.5 (cant)Tower fan: one-spee
- Page 587 and 588:
ABSOR-TO-TWR-WTRHERM-CENT-COND-PWRH
- Page 589 and 590:
DBUN-UNL-RAT-DESDBUN-UNL-RAT-RECis
- Page 591 and 592:
BoilersBOILER-BLOW-RATBOILER-CONTRO
- Page 593 and 594:
STURB-PRESSTURB-SPEEDSTURB-TSTURB-W
- Page 595 and 596:
PLANT-PARAMETERS or P-PInputKeyword
- Page 597 and 598:
InputRangeKe,!'word Abbrev. User In
- Page 599 and 600:
4. EQUIPMENT-QUADThe EQUIPMENT-QUAD
- Page 601 and 602:
The relationship of this function t
- Page 603 and 604:
(-STACK-FU)(-TEX-FPLR)(-FPLR)For a
- Page 605:
OPEN-CENT-EIR-FPLR is the same as H
- Page 608 and 609:
Heating EquipmentDHW-HIR-FPLRFURNAC
- Page 610 and 611:
Gas Turbine (cont.)GTURB-STACK-FUGT
- Page 612 and 613:
InputRangeKeyword Abbrev. User Inpu
- Page 614 and 615:
InputKeyword Abbrev. User InputDefa
- Page 616 and 617:
Code-WordHEATI NGCOOLINGELECTRICALP
- Page 618 and 619:
BOILERS = LOAD-ASSIGNMENTTYPE = HEA
- Page 620 and 621:
CHILLER 1 = LOAD-ASSIGNMENTTYPE = C
- Page 622 and 623:
6. LOAD-MANAGEMENTThe LOAD-MANAGEME
- Page 624 and 625:
First, define two LOAD-ASSIGNMENT i
- Page 626 and 627:
If, however, the heating, cooling,
- Page 628 and 629:
LOAD-MANAGEMENT or L-MKeyword Abbre
- Page 630 and 631:
EquipmentTABLE V.9HEAT-RECOVERY Sup
- Page 632 and 633:
TABLE V.11Default HEAT-RECOVERY Tem
- Page 634 and 635:
c. A piece of equipment or a proces
- Page 636 and 637:
8. ENERGY-STORAGEThe ENERGY-STORAGE
- Page 638 and 639:
0-o~o-CJ)0- '"~Q)c:WHTANK-T-RANGETa
- Page 640 and 641:
If the user enters (1), only waste
- Page 642 and 643:
Example 2:~ut to do so would preclu
- Page 644 and 645:
To implement the precharging of the
- Page 646 and 647:
9. ENERGY-COSTThe ENERGY-COST instr
- Page 648 and 649:
UNITUNIFORM-COSTESCALATIONspecifies
- Page 650 and 651:
TABLE V. 13DOE-Recommended Annual E
- Page 652 and 653:
COST specifies unit costs for up to
- Page 654 and 655:
10. PLANT-COSTSThe PLANT-COSTS inst
- Page 656 and 657:
PLANT-COSTS or P-C(User Worksheet)K
- Page 658 and 659:
MAJ-OVHL-INT-REF specifies a new re
- Page 660 and 661:
12. DAY-ASSIGN-SCHThe DAY-ASSIGN-SC
- Page 662 and 663:
PAl; PLANT-ASSIGNMENTEND ..COMPUTE
- Page 664 and 665:
PLANT-REPORT or P-R(User Worksheet)
- Page 666 and 667:
15. HOURLY-REPORTThe HOURLY-REPORT
- Page 668 and 669:
16. REPORT-BLOCKThe REPORT-BLOCK in
- Page 670 and 671:
TABLE V.15VARIABLE-TYPE; GLOBALVARI
- Page 672 and 673:
TABLE V.19VARIABLE-TYPE: ELEC-STM-B
- Page 674 and 675:
TABLE V.23VARIABLE-TYPE = COOLING-T
- Page 676 and 677:
TABLE V.26VARIABLE-LIST12345678FORT
- Page 678:
VI.ECONOMICS PROGRAMA.B.C.I NTRODUC
- Page 681 and 682:
• Energy use savings• Ratio of
- Page 683 and 684:
ENCOP investment(first cost) + (rep
- Page 685 and 686:
B. EDL INPUT INSTRUCTIONS1. COMPONE
- Page 687 and 688:
ANNUAL-COSTMIN-OVHL-INTMIN-OVHL-COS
- Page 689 and 690:
U-name; BASELI NEInputRanseKe,:twor
- Page 691 and 692:
Baseline data have been specified c
- Page 693 and 694:
2. Run DOE-2 for each building desi
- Page 695 and 696:
In ECONOMICS SimulatorINPUT ECONOMI
- Page 697:
LA-7689-M Ver. 2.1ALBL-8706 Rev. 2D
- Page 700 and 701:
B. MANUAL AND TAPE NOTATIONS1. Form
- Page 703 and 704:
VI1.REPORTSA. INTRODUCTIONTwo types
- Page 705 and 706:
o '";.-.~N,Wo"~,,-Z~~_,"W0%0_N ~--~
- Page 707 and 708:
EXAMPLE DUllOI~G34, CHICAGOOOE-2.1
- 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
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HOURL Y-REPORTThese optional report
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EXAMPLE BUILDING lA, CHICAGO 00£-2
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LOADS HOURLY REPORT PLOTThe followi
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C. SYSTEMS OUTPUT REPORT DESCRIPTIO
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REPORT SV-A - SYSTEMS DESIGN PARAME
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15. COOLING CAPACITY (KBTU/HR), at
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REPORT SS-A - SYSTEM MONTHLY LOADS
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REPORT SS-B - SYSTEM MONTHLY lOA,D,
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REPORT SS-C - SYSTEM MONTHLY LOAD H
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REPORT SS-D - PLANT MONTHLY LOADS S
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REPORT SS-E - PLANT MONTHLY LOAD HO
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REPORT SS-F - ZONE MONTHLY DEMAND S
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EXAHPLf BUILDING 3A, CHICAGO OOE-2.
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EXAMPLE BUILOING 3A, CHICAGO OOE-l.
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EXAMPLE BUILDING :sA, CHICAGO OOE-2
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EXAMPLE BUILDiNG 3At CHICAGO OOE-2.
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EXAMPLE BUILDING 3A, CHICAGO00E-2.1
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EXAI4PLE BUILDING 3A, CHICAGOOOE-2.
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REPORT SS-H - SYSTEM MONTHLY LOADS
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REPORT 55-1 - SYSTEM MONTHLY COOLIN
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REPORT SS-J - SYSTEM PEAK HEATING A
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HOURLY REPORTSThese optional report
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D. PLANT OUTPUT REPORT DESCRIPTIONS
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"l9 •• 420. RPPLIl '" fHlURLY-f
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EXA.MPLE IWIlOINli lA, CHICAGO 00£
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EXAMPLE aUllDING lA, CHICAGOREPORT-
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eXAMPLE BUILDING 3A, CHICAGOOOE-2.1
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,,z 0 ~ ~ ,.. ,.. , .;..; , = ..
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11. FUEL INPUT ELEC. This column re
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REPORT PS-B - MONTHLY PEAKS AND TOT
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EXAMPLE BUllOING ]A, CHICAGO 00E-2.
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EXAMPLE BUILDING 3A, CHICAGOREPORT-
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EXAMPLE BUILDING 3A, CHICAGODOE-2.1
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REPORT PS-G - ELECTRICAL LOADS SCAT
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REPORT PS-H - EQUIPMENT USE STATIST
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REPORT PS~I- EQUIPMENT LIFE CYCLE C
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REPORT PS-J - PLANT LIFE-CYCLE COST
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REPORT BEPS - ESTIMATED BUILDING EN
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HOURLY REPORTSThese optional report
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E. ECONOMICS OUTPUT REPORT DESCRIPT
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EV-A: LIFE-CYCLE COSTING PARAMETERS
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EXAI1PLE BUIlIHNG JA, [.HICAGOOOE-2
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EXAMPLE 8VIlDIN~ )A, CHICAGO 00E-2.
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EJl:AI1PlE BUltDINC; H, CHfCAC;OREP
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Overall Life-Cycle CostsThis sectio
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DOE-2.1E Documentation Update: Weat
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DOE-2.1E Documentation Update: Weat
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DOE-2.1E Documentation Update: Weat
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DOE-2.1E Documentation Update: Weat
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DOE-2.1E Documentation Update: Weat
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Revised April, 1999 VIII.11DOE-2.1E
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Revised April, 1999 VIII.13DOE-2.1E
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Revised April, 1999 VIII.15DOE-2.1E
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DOE-2.1E Documentation Update: Weat
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DOE-2.1E Documentation Update: Weat
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DOE-2.1E Documentation Update: Weat
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VIII.WEATHER DATAPageA. INTRODUCTIO
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C. WEATHER FILESThree groups of wea
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DOE-2 LATITUDE LONGITUDE TIME ZONE
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DOE-2 LATITUDE LONGITUDE TIME ZONE
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This page has been deleted intentio
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TABLE VIII.2CALIFORNIA CLIMATE ZONE
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Zone Representative Cities DOE-2 Fi
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F. WEATHER OATA PROCESSING PROGRAMS
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•OR!Ar 'ALL., lIfTBISMARCk, NO•
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A. INTRODUCTIONEfficient heating an
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and other factors combine to keep t
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C. SPECIAL NOTESpace has been desig
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WBAN NUMBER STATION SELECTED TRY(Ta
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TAPE FIELDNUMBER0010020030040050060
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TAPETAPEFIELD NUMBER POSITIONS ELEM
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APPENDIX VII I.BTMY WEATHER DATAVII
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The record length of the TMY format
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APPENDIX V III.CWEATHER DATA PROCES
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In the previous discussion it is as
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Card 2: Columns Format1-6 L7-12 R13
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5. Multiple OptionsTo exercise seve
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7. General CommentsOne of the major
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A. AIRWAYS SURFACE OBSERVATIONS, T0
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~.lClCLOUD COVERBY LAYERWEATH ER I.
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APPENDIX VIlLEWEATHER DATA SUMMARIE
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IX. INDEX OF BDL COMMANDS, KEYWORDS
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UNDERGROUND-WALLWEEK-SCHE DULEWINDO
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KeywordsHOUR-LOHW-SCHEDULEI NF-CFM/
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Keywords Abbrev i at i on Associate
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Code-WordsLV-DLV-ELV-FLV-GLV-HLV-IL
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Keyword Abbreviation Associated Com
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Keyword Abbreviation Associated Com
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Keyword Abbreviation Associated Com
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Code-WordHPHVSYSINLETINTERMITTENTIN
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C. PDLCommand Word Abbreviation Pag
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Keyword Abbreviation Associated Com
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Keyword Abbreviation Associated Com
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Keyword Abbreviation Associated Com
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Code-WordsCHILLED-WATERCOALCOOLI NG
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Code-WordsSTEAMSTANDBYSTM-BOILERSTR
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D. CBSDLCormand Word Abbreviation P
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KeywordAssociatedCommand Word Assoc
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KeywordT-I NITT-OUT-MAXT-SUP-MINVAR
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Input or Output Input to Output fro
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Input or OutputNameInput toComponen
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I nput or OutputNameInput toCompone
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X. LIBRARY DATATABLE OF CONTENTSA.
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BANKSWEEKDAYS100 I I I rI... z:
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SHALL OFFICE BUILDING100~z:....u so
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RESTAURANT....z:....MONDAY THRU THU
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LARGE RETAIL STORE....z:....a:u....
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SUPERMARKETI-MONDAY THRU WEDNESDAYl
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B. MATERIALS LIBRARYThis section co
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The",.l Properties of Blind;n; Mate
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Thermal Properties of Buildin, Mote
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Thermal Properties ofSulldlng Mater
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2. Thermal Properties of Insulatina
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3. Thermal Properties of Air Films
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XI.REFERENCES1. "Procedure for Dete