GSW 73992 warranty III Recovery Rates

Page 4

III)RECOVERYRATES

 

 

RECOVERY RATE IN LITRES PER HOUR

 

 

 

 

Standard

BTU/Hr

 

 

 

 

Temperature rise in °C

 

 

 

 

KW Input

17°

22°

28°

33°

39°

44°

50°

56°

 

61°

67°

72°

78°

 

 

6

20,478

310

235

185

155

132

117

102

95

 

83

79

72

68

9

30,717

466

348

280

235

201

174

155

140

 

129

117

106

98

12

40,956

621

466

371

310

265

231

208

185

 

170

155

144

132

13.5

46,075

697

522

420

348

299

261

235

208

 

189

174

163

1518

15

51,195

776

583

466

386

333

291

257

231

 

212

193

178

167

18

61,434

931

697

560

466

397

348

310

280

 

254

231

216

201

24

81,912

1242

931

746

621

530

466

413

371

 

337

310

288

265

27

92,151

1397

1045

837

697

598

522

466

420

 

382

348

322

299

30

102,390

1552

1162

931

776

666

583

519

466

 

424

386

360

333

36

122,868

1862

1397

1117

931

799

697

621

560

 

507

466

428

397

40.5

138,226

2097

1582

1257

1049

897

787

700

628

 

572

522

485

450

45

153,585

2328

1745

1397

1162

996

871

776

697

 

636

583

538

500

54

184,302

2794

2093

1677

1397

1196

1049

931

837

 

761

697

644

598

 

 

RECOVERY RATE IN GALLONS PER HOUR

 

 

 

 

Standard

BTU/Hr

 

 

 

 

Temperature rise in °F

 

 

 

 

KW Input

30°

40°

50°

60°

70°

80°

90°

100°

110°

120°

130°

140°

 

6

20,478

82

62

49

41

35

31

27

25

22

21

19

18

9

30,717

123

92

74

62

53

46

41

37

34

31

28

26

12

40,956

164

123

98

82

70

61

55

49

45

41

38

35

13.5

46,075

184

138

111

92

79

69

62

55

50

46

43

401

15

51,195

205

154

123

102

88

77

68

61

56

51

47

44

18

61,434

246

184

148

123

105

92

82

74

67

61

57

53

24

81,912

328

246

197

164

140

123

109

98

89

82

76

70

27

92,151

369

276

221

184

158

138

123

111

101

92

85

79

30

102,390

410

307

246

205

176

154

137

123

112

102

95

88

36

122,868

492

369

295

246

211

184

164

148

134

123

113

105

40.5

138,226

554

418

332

277

237

208

185

166

151

138

128

119

45

153,585

615

461

369

307

263

230

205

184

168

154

142

132

54

184,302

738

553

443

369

316

277

246

221

201

184

170

158

TABLE 1: Recovery Rates

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Image 4
Contents Commercial Electric Water Heater Installation Code Requirements Important Consumer NoticeII Component Identification III Recovery Rates Recovery RatesState of California Temperature and Pressure T&P Relief ValveLocation Requirements Piping Installation Closed System/Thermal ExpansionPiping Installation Electrical ConnectionsInstallation Check List Phase Conversion USA onlyTo Single Phase To Three PhaseTemperature Control Water Heater SoundsElectrical Wiring RequirementsLoad Currents Control Circuit Canada Element, 1 Phase Power Circuit Canada RED Input Terminal Block Element Control Circuit USA only INPUTL1 Terminal Block Phase Black Fuse Holder With Fuses 3A Fuse Primary Secondary Transformer PT75MLI USA only Filling the Water Heater High Temperature Limiting DeviceStartup Cathodic Protection Hot Water OdourAnode Maintenance Troubleshooting ChecklistDiscoloured Water Lime ScaleWater heater is noisy Water leakage is suspected or apparentViii Leakage Checkpoints Installation Procedure IX Floor Sealing Installation InstructionsGeneral ~ Certificate of Warranty ~

73992 specifications

GSW 73992, an innovative model in the world of advanced non-metallic materials, has garnered attention for its exceptional performance and unique characteristics. Engineered to meet the demanding needs of various industries such as aerospace, automotive, and construction, GSW 73992 stands out due to its remarkable properties and cutting-edge technologies.

One of the main features of GSW 73992 is its lightweight nature. Weighing significantly less than traditional metal counterparts, this material enables designers and engineers to reduce overall weight without compromising structural integrity. This attribute is particularly advantageous in the aerospace sector, where weight savings translate into improved fuel efficiency and enhanced performance.

The technology behind GSW 73992 is grounded in advanced composite engineering. Utilizing a combination of high-strength fibers and resins, GSW 73992 exhibits exceptional tensile strength and impact resistance. Its ability to withstand harsh environmental conditions, including extreme temperatures and moisture, makes it a preferred choice for applications requiring durability and reliability.

Another standout characteristic of GSW 73992 is its corrosion resistance. Unlike metals, which can succumb to rust and degradation over time, GSW 73992 maintains its integrity even in challenging environments. This property not only contributes to the longevity of products made from GSW 73992 but also reduces maintenance costs, making it an economical option for manufacturers.

GSW 73992 also boasts excellent thermal insulation properties. Its low thermal conductivity ensures minimal heat transfer, making it ideal for applications in building materials and automotive components where temperature regulation is crucial. This feature enhances energy efficiency and contributes to sustainability efforts by reducing the need for additional insulation materials.

Additionally, GSW 73992 offers design flexibility, allowing manufacturers to create complex shapes and forms that would be difficult to achieve with traditional metals. This adaptability opens up new possibilities in product design, enabling creative solutions that can cater to specific industry needs.

Overall, GSW 73992 represents a significant advancement in material science, combining lightweight construction, high strength, resistance to environmental stressors, and design versatility. Its array of features positions it as a game-changer for industries seeking to improve performance while adhering to modern sustainability standards. As the demand for innovative materials continues to grow, GSW 73992 is poised to play a pivotal role in shaping the future of engineering and manufacturing.