50df044 - vav, 50df054 — vav, 50df064 — vav – Carrier MODU-PAC 50DF User Manual
Page 30: Performcince data, Cont), 50df modu-pac, Iwb *^lwb ^ewb
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I
50DF Modu-Pac® |
Performcince data
(cont)
COOLING CAPACITIES
50DF044 - VAV
Temp (F)
Air Ent
8000/.016
: 10.000/.034 i
14.000/.051
16.000/.062
Evap Air — Ewb (F)
Evap Air — Cfm/BF
72
67
62l
72
67
62
72
67
62
72 ! 67 1 62
TC
484
445
407
518 U79
439
538
499
457
549 i S07 i 468
85
SHC
231
276
320
257
318
380
281
357
436
295 ; 383 ; 468
KW
40.8
38 7
34 8
43-5 S40.8
38.3
43 7
41 8
39.5
45.1 : 425 i 39.8
TLDB
53.5
48.3
43,3
56.4 150,8
45.1
61.6
56.6
51.4
63.1 : 58.0 i 53.2
TC
454
415
380
487 Ì447
^'08
506
465
427 ■“516 T 4751-436
95
SHC
217
263
306
245
306
366
269
345
419
285 1 369 436
KW
43 7
41.4
38.3
46,0 43.3
40.4
46 8
43.7
41.0
47.1 : 44.5 ¡418
TLDB
55.1
49.8
44,9
573! 51.9
46.4
62.4
57.4
52.5
63.7 1 58.8 55.0
TC
440
403
368
471 !431 ;
394
491
450
411
499'460 1 420
100
SHC
212
256
301
239 i 299 ;
360
263
339
411
280 ; 364 j 420
KW
46 4
42 2
39 9
47.5 (45.1 i
4Z0
47 9
45 0
42.5
483 : 4S.6 43.1
TLDB
55.7
50.6
45.5
58.1 ! 52.6 :
47.0^ 62 8
57.8
53.1
63.9 ; 59.1 1 55.9
TC
427
389
352
456 417 !
380
475
436
397
”4831
444T4Ò5
105
SHC
206
251
295 i 233
293 i
354
258
333
397 . 275 ; 358 1 405
KW
47 5
44,6
41 8
483! 46.2
43.1
49 2
46.6
43 6
43.8 i 47.1
443
TLDB
56 4
51 2
46 2
58.6 ! 53.1
47.5
63 1
58.2
54 0
643 ; 59.5 56.8
TC
413
376
344
440 i 402
Г366"
458
419
380
"4toT«7i3to~
110
SHC
200
243
290
228 S287
i 347
252
326
380
269 : 353 388
KW
48 5
46.0
42 9
50.2 1483
44.6
50 8
47.9
45 2
51.3- 48.5 ¡46.0
TLDB
57.1
52,1
46,7
59.1 i 53.7
48.2
63 5
58.6
55 1
64.6 - 593 157.8
TC
400
364
332
426 ! 388
354
442
396
366
448 : 410 ! 371
115
SHC
195
239
282
223 283
341
246
314
366
263 i 346 j 371
KW
49 8
47.1
441
— !49.8
46.0
52 5
51.0
48 5
— i ______ ; ___ __
TLDB
57 6
52.6
47 7
59.5 ( 54.0
4a7
63 9
59.4
56 0
643 1 60.2 i 58.7
50DF054 — VAV
Temp (F)
Air Ent
Evap Air — Cfm/BF
10.000/.027 ;
14.000/.043
18.000/.058
20,000/.065
Evap Air — Ewb (F)
72
67
62
...
72'! 67 1 62
72
67
62
■
72T ■ 67“Т'б2"
TC
619
575
533
659!'б16 i 533
686
639
596
i
ОУО 5 648 ; 604
85
SHC
291
353
415
326 408 ; 431
361
462
565
376
485 1 600
KW
51 7
48 9
45 9
54.8 52.0: 47.9
56 3
53 2
50.4
57.6 ; 54.2 ! 50.7
TLDB
53.3
47 6
41 9
58.6 ! 53.3 ! 47.8
61 6
56.5
51 2
62.8!
57.8 :52.5
TC
58.5
541
499
624 ] S79 : 538
650
602
558
659 i 610 i 566
95
SHC
278
338
398
313 i 394 1 474
347
446
546
363 i 472 ; 566
KW
56 0
52 1
49 3
59.0! 55.4; 51.6
61 1
57.6
53 8
61.5!
57.8 ; 537
TLDB
54,5
49.0
43 5
59.5 i 54.2 ! 48.9
62 3
57 3
52 2
63.31 58.3 ! 54.0
TC
566
524
481 " eòe 555 ; si 7
629
581
538 "бзУ|
589 • 545
100
SHC
271
331
389
307 385 ; 467
340
438
538
354
465 ; 545
KW
57 8
54 5
51 1
60.7 1 57.6 : 54.2
63 1
59.0
562
63.7
59.8 1 56.6
TLDB
55.1
49.6
443
59.9 ! 54.8 i 49.4
62 7
57.7
52 6
63.8!
58.7 ; 55.0
TC
548
505
463
"586TS40't 498
301 380 ! 458
608
563
518
616 [
570 ; 525
105
SHC
264
322
380
333
432
518
348
457 ! 525
KW
60 2
56 6
53 1
63.4 59.6 ! 56.0
51 0
61 4
58 1
— !
61.6! 58.4
TLDB
55.8
50.5
45.1
60.3 ! 55.1 ! 50.0
63 0
58 0
53 6
64.0 j
59.0! 55.9
TC
529
485
446
566 i 519 1 476
589
540
496
597 i
546 ■: 502
110
SHC
256
314
371
294 372 I 448
325
423
496
344 Ì
448 1 502
KW
62 6
59 0
55 0
— 61.8 i 58.5
—
63 8
60 3
— !
64.2 60.5
TLDB
56,5
51.2
46.0
60.7 ! 55.6 ; 50.6
63 4
58 4
54 7
64.2
59.4:57.0
TC
510
465
424
546 t 500 ; 456
570
520
476 "■
577I 527 1 482
115
SHC
249
306
360
287 ! 363 ; 439
320
414
476
336
442 482
KW
—
61 6
57 7
— 1 — : —
—
—
—
— Ì
J
TLDB
57 2
51 9
47 0
61J2|S6.2Ì512
63.7
58 9
55 7
64.6
59.7 j 57 9
50DF064 — VAV
Evap Air — Cfm/BF
BF
— Bypass Factor
Edb
— Entering Dry-Biilb
Ewb
— Entering Wet-Bulb
KW
— Compressor Motor Power Input
SHC — Sensible Heat Capacity
(1000 Btuh)
TC — Total Capacity (1000 Btuh) Gross
TLDB —Temperature Leaving Dry-Bulb
NOTES:
1 Direct interpolation is permissible Do not extrapolate
2 The following formulas may be used:
sensible capacity (Btuh)
*ldb " *edb ”
^iwb
*^lwb ^ewb
Where:
1 09
X cfm
Wet-bulb temperature corresponding to enthalpy of
air leaving evaporatorcoil(h|y^^)
total capacity (Btuh)
4.5
X
cfm
hewb^^'^^^^^PV air entering evaporator coil
3. SHC is based on 80 F edb temperature of air entering evap
orator coil.
Below 80 F edb, subtract (corr factor x cfm) from SHC
BF
ENTERING AIR DRY-BULB TEMP (F)
79 i 78 I 77 I 76^ 75 f under 75
Correction Factor
.01
1 07
2.16
3 24
4 32
5 40
.05
1.04
2 07
3 11
4 14
5 18
.10
98
1 96
2 94
3 92
4 91
use formula
shown below
Interpolation is permissible
Correction Factor = 1 09 x (1 - BF) x (edb - 80)
4 Cooling capacities are gross and do not include deduction for
indoor fan motor heat
Temp
Air Ent
Cond
12.000/.035
15,000/.047
18,000/.058
21.000/.070
24,0007.081
Evap Air — Ewb (F)
72
67
62
; 72 j
67
62
72
67
62
72
67 i
62
72
67
62
TC
713
650
592
; 750 !
686
625
776
711
796
731 ! 669
807
744
684
SHC
341
407
471
: 368 i
448
526
391
486
576
413
521 ! 620
432
553
658
KW
57 9
54 9
52 1
i 59.7 !
56.7
53.7
60 9
57 9
54 9
61.9
68.8 ! 55.9
62 4
59 4
56 6
TLDB
53,6
48.5
43,7
! 57.3 i
52.4
47.5
59 9
55 0
50 4
61.8
57.0 ! 52.7
63 3
58 7
54.6
TC
679
619
562
i 713 i
651
593
732
674
615
751
693 i 634
766
703
649
SHC
327
393
456
! 353 !
433
510
375
470
558
397
60S ! 600
418
536
635
KW
62 0
58 8
55 7
i 63.9 i
60.6
57.4
65 0
61 8
58 6
66.0
62.8 ! 596
66 8
63 4
60 4
TLDB
54.8
49.7
44 8
i 58.2
53.3
48.5
60 7
55 8
51 3
62.5
57.7 ; 53 5
63 9
59 3
55 5
TC
643
586
532
! 671 1
616
560
692
633
581
709
650 : S68
718
663
612
SHC
313
378
441
i 337 i
417
493
360
453
540
387
487 ! 579
400
521
609
KW
66 1
62 6
59 1
i 67.9
64.5
60.9
69 2
65 6
62 2
70.3
66,6 i 63.4
70 9
67 4
64 3
TLDB
55,8
50,8
46.0
! 59-2 I
54.3
49.6
61 5
56 7
52 2
62.9
58.5 ; 54,5
64 6
59 9
56.5
TC
604
552
501
1 631 !
579
526
650
594
546
66S
609 i 562
672
617
576
SHC
297
363
425
! 322 1
402
476
344
437
520
365
471 1 556
384
502
576
KW
70 0
66 2
62 5
72.0 :
68.2
84.4
73 3
69 4
65 8
74.3
70.5 i 67.0
74 9
71 1
68 1
TLDB
57 1
52 0
47 2
! 60.1 ;
55.2
50.6
62 3
57 5
53 3
63.9
S9.2 ■
!
55.5
65 2
60 6
57 8
30