XV. Typical Cooling Performance Data

Outdoor

 

Indoor

 

PGC

24

 

 

 

PGC

30

 

 

PGC

36

 

Air Temp.

Air

Indoor

Pressure

@ Unit

Am ps

Indoor

 

Pressure

@ Unit

Am ps

Indoor

Pressure

@ Unit

Am ps

at

 

Tem p.

Air Temp.

Gauge

Fittings

Air Temp.

 

Gauge

Fittings

Air Temp.

Gauge

Fittings

 

 

 

 

 

Condenser

at Evap.

Difference

 

 

 

Difference

 

 

 

 

Difference

 

 

 

Inlet

 

Inlet

 

 

 

 

 

 

 

 

 

 

 

Betw een

Low

High

Total to

Betw een

 

Low

High

Total to

Betw een

Low

High

Total to

(Dry Bulb)

(Wet Bulb)

 

Coil Inlet

Side

Side

Unit

Coil Inlet

 

Side

Side

Unit

Coil Inlet

Side

Side

Unit

 

 

 

 

 

 

 

and Outlet

 

 

 

and Outlet

 

 

 

 

and Outlet

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

A

B

C

D

E

B

 

C

D

E

B

C

D

E

° F.

 

° F.

° F.

PSIG

PSIG

Am ps

° F.

 

PSIG

PSIG

Am ps

° F.

PSIG

PSIG

Am ps

 

 

77

7

92

325

12.8

7

 

89

320

15.8

7

88

351

19.3

115

 

72

12

91

324

12.7

12

 

89

322

15.9

12

87

352

19.4

 

 

67

17

91

324

12.7

17

 

88

322

15.8

17

87

352

19.3

 

 

62

23

90

326

12.8

23

 

87

322

15.8

23

86

352

19.3

 

 

77

7

91

308

12.2

7

 

89

304

15.2

7

87

332

18.5

110

 

72

12

90

304

12.1

12

 

88

303

15.1

12

87

332

18.5

 

 

67

17

80

304

12.1

17

 

88

303

15.1

17

86

331

18.4

 

 

62

23

89

304

12.1

23

 

87

302

15.1

23

85

329

18.4

 

 

77

7

90

288

11.7

7

 

88

285

14.5

7

86

311

17.6

105

 

72

12

90

286

11.6

12

 

88

285

14.5

12

86

310

17.6

 

 

67

18

89

286

11.6

18

 

87

283

14.5

18

85

312

17.6

 

 

62

23

88

286

11.6

23

 

86

282

14.4

23

84

311

17.6

 

 

77

8

89

269

11.1

8

 

87

267

13.9

8

86

293

16.9

100

 

72

12

89

269

11.1

12

 

87

267

13.9

12

85

293

16.9

 

 

67

18

89

271

11.2

18

 

86

267

13.9

18

85

292

16.8

 

 

62

23

88

271

11.2

23

 

85

267

13.9

23

84

290

16.7

 

 

77

8

89

255

10.7

8

 

87

251

13.4

8

85

275

16.2

95

 

72

13

88

251

10.6

13

 

86

249

13.3

13

85

274

16.1

 

 

67

18

88

252

10.7

18

 

86

249

13.3

18

84

274

16.1

 

 

62

23

87

254

10.7

23

 

85

249

13.3

23

83

274

16.1

 

 

77

8

88

237

10.2

8

 

86

234

12.9

8

84

255

15.4

90

 

72

13

88

236

10.2

13

 

86

232

12.8

13

84

255

15.4

 

 

67

18

87

234

10.2

18

 

86

231

12.8

18

83

256

15.4

 

 

62

24

86

235

10.2

24

 

84

231

12.8

24

83

254

15.4

 

 

77

8

87

222

9.8

8

 

86

217

12.3

8

84

240

14.8

85

 

72

13

87

221

9.8

13

 

85

217

12.4

13

83

238

14.8

 

 

67

18

86

221

9.8

18

 

84

216

12.3

18

83

238

14.7

 

 

62

24

86

220

9.8

24

 

83

216

12.3

24

82

239

14.8

 

 

77

8

87

203

9.3

8

 

85

202

11.9

8

83

224

14.3

80

 

72

13

86

203

9.3

13

 

84

203

12.0

13

83

223

14.2

 

 

67

18

86

205

9.4

18

 

84

202

11.9

18

82

221

14.2

 

 

62

24

85

206

9.4

24

 

83

202

11.9

24

81

221

14.2

 

 

77

8

86

189

9.0

8

 

84

189

11.6

8

83

208

13.7

75

 

72

13

86

189

9.0

13

 

84

189

11.6

13

82

207

13.7

 

 

67

19

85

191

9.0

19

 

83

189

11.6

19

82

207

13.7

 

 

62

24

85

190

9.0

24

 

82

187

11.6

24

81

206

13.6

A Columns -

All data based on indoor dry bulb of 80° F and rated air flow. As indoor dry bulb temperature increases, a slight increase will occur in indoor air temperature differential

B Columns -

between inlet and outlet. Low and high side pressures and power will not change.

 

 

 

 

 

 

 

A properly operating unit should be within ±3° F of the typical (dry bulb) value shown.

 

 

 

 

 

 

 

C Columns -

A properly operating unit should be within ±3 PSIG of the typical value shown.

 

 

 

 

 

 

 

D Columns -

A properly operating unit should be within ±7 PSIG of the typical value shown.

 

 

 

 

 

 

 

E Columns -

A properly operating unit should be within ±2 amps of the typical value shown.

 

 

 

 

 

 

 

Table 8A

27

Page 27
Image 27
Amana PGB58B, PGC(24-60)B installation instructions XV. Typical Cooling Performance Data, Pgc

PGB58B, PGC(24-60)B specifications

Amana, a trusted name in heating and cooling, offers several high-efficiency gas furnace models, including the PGC(24-60)B and PGB58B. These furnaces combine innovation, reliability, and advanced technology to provide an optimal heating solution for any home.

One of the standout features of the Amana PGC(24-60)B is its modulating heating capability. This technology allows the furnace to operate at different heating levels based on the home’s demands. Instead of simply turning on and off, the PGC adjusts its output to maintain a consistent temperature, promoting energy efficiency and comfort. This not only reduces energy consumption but also minimizes temperature fluctuations, providing a more comfortable indoor environment.

The PGB58B model is designed with a focus on efficiency, boasting an Annual Fuel Utilization Efficiency (AFUE) rating of up to 96%. This means that a higher percentage of the fuel used is converted into heat, making it one of the most efficient choices available. The combination of high-efficiency design and advanced components makes the PGB58B an excellent option for homeowners looking to reduce their energy bills while enjoying reliable heating performance.

Both models come equipped with a durable casing, ensuring longevity and performance. The rust-resistant and heavy-gauge steel construction protects against harsh weather conditions, making them suitable for various climates. Additionally, they feature a multi-speed blower motor, which optimizes airflow and enhances comfort by evenly distributing warm air throughout the home.

Advanced diagnostics and self-monitoring capabilities are integral to these models. The built-in diagnostic system enables quick identification of performance issues, allowing for timely maintenance and reducing repair costs. Furthermore, these furnaces are designed to be compatible with smart home technology, allowing homeowners to control their heating systems remotely and maximize energy efficiency.

In summary, the Amana PGC(24-60)B and PGB58B gas furnaces stand out for their innovative features and commitment to energy efficiency. With modulating heating, high AFUE ratings, durable construction, and smart technology compatibility, they offer reliable heating solutions that ensure comfort while keeping energy costs low. Homeowners can feel confident in their investment, knowing they have chosen a furnace that prioritizes both performance and sustainability.