530.26-TG3YI

COOLING CAPACITIES (CFM Air Flow) - 240 UNITS

 

Air On

Total

Power

 

 

Sensible Capacity1, MBH

 

Evaporator Coil

1

2

 

 

Entering Dry Bulb Temp.,

°

 

 

 

 

Cap.

Input

 

 

 

F

 

CFM

 

WB °F

MBH

kW

90

86

 

82

79

 

75

72

 

 

 

 

@80°F Air Temperature on Condenser Coil

 

 

 

 

 

 

73

274

19.0

252

221

 

189

158

 

127

-

 

 

70

265

18.8

265

240

 

208

177

 

146

114

9320

 

66

255

18.6

255

255

 

227

196

 

164

133

 

 

63

247

18.4

247

247

 

243

211

 

180

149

 

 

59

239

18.1

239

239

 

239

223

 

192

161

 

 

73

263

18.8

232

205

 

177

150

 

123

-

 

 

70

253

18.6

250

222

 

195

168

 

141

113

8050

 

66

244

18.4

244

240

 

213

186

 

158

131

 

 

63

236

18.2

236

236

 

228

200

 

173

146

 

 

59

229

17.9

229

229

 

229

215

 

188

160

 

 

73

243

18.5

191

170

 

149

128

 

107

-

 

 

70

234

18.3

206

185

 

164

143

 

122

101

5930

 

66

226

18.1

221

200

 

179

158

 

137

116

 

 

63

219

17.9

219

212

 

191

170

 

149

128

 

 

59

212

17.6

212

212

 

204

183

 

162

141

 

 

 

 

@95°F Air Temperature on Condenser Coil

 

 

 

 

 

 

73

256

21.0

241

209

 

178

147

 

115

-

 

 

70

247

20.7

247

230

 

199

168

 

136

105

9320

 

66

238

20.4

238

238

 

220

189

 

157

126

 

 

63

230

20.1

230

230

 

230

199

 

168

136

 

 

59

222

19.9

222

222

 

222

206

 

175

143

 

 

73

243

20.7

221

193

 

166

139

 

111

-

 

 

70

235

20.5

235

213

 

186

158

 

131

104

8050

 

66

227

20.2

227

227

 

206

178

 

151

124

 

 

63

219

19.9

219

219

 

215

188

 

161

133

 

 

59

211

19.7

211

211

 

211

197

 

170

143

 

 

73

223

20.4

179

158

 

137

116

 

95

-

 

 

70

215

20.1

195

174

 

153

133

 

112

91

5930

 

66

208

19.8

208

191

 

170

149

 

128

107

 

 

63

201

19.6

201

199

 

178

157

 

136

115

 

 

59

193

19.3

193

193

 

186

165

 

144

123

 

 

 

 

@115°F Air Temperature on Condenser Coil

 

 

 

 

 

 

73

226

23.4

223

191

 

160

129

 

97

-

 

 

70

216

22.9

216

213

 

182

151

 

119

88

9320

 

66

205

22.3

205

205

 

204

172

 

141

110

 

 

63

201

22.3

201

201

 

201

179

 

148

117

 

 

59

197

22.2

197

197

 

197

182

 

150

119

 

 

73

218

23.3

204

177

 

149

122

 

95

-

 

 

70

207

22.7

207

197

 

170

142

 

115

88

8050

 

66

197

22.2

197

197

 

190

163

 

136

108

 

 

63

193

22.1

193

193

 

193

169

 

142

115

 

 

59

189

22.1

189

189

 

189

176

 

148

121

 

 

73

203

23.1

166

145

 

124

103

 

82

-

 

 

70

193

22.5

183

162

 

141

120

 

99

78

5930

 

66

184

22.0

184

179

 

158

137

 

116

95

 

 

63

180

21.9

180

180

 

164

143

 

122

101

 

 

59

176

21.9

176

176

 

169

148

 

127

106

1These capacities are gross ratings. For net capacity, deduct the heat of the supply air blower motor. Refer to the appropriate Blower Performance Table for the kW of the supply air blower motor.

2These ratings include the condenser fan motors (Total 2.3 kW) and the compressor motors but not the supply air blower motor.

Unitary Products Group

7

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York D3CG, D3CE manual Cooling Capacities CFM Air Flow 240 Units

D3CG, D3CE specifications

York D3CE and D3CG are innovative air-cooled chillers developed to address the growing demands for energy-efficient cooling solutions in commercial and industrial settings. These models are part of York's comprehensive range of HVAC products, showcasing advanced engineering and cutting-edge technologies designed to optimize performance while reducing operational costs.

One of the standout features of the York D3CE and D3CG series is their high efficiency. These chillers utilize a variable speed drive (VSD) technology that allows the compressor to adjust its speed according to the cooling load. This capability enhances energy efficiency, particularly in varying load conditions, and can lead to substantial energy savings compared to traditional fixed-speed chillers.

In terms of environmentally friendly refrigerants, both the D3CE and D3CG models are designed to operate with refrigerants that have low global warming potential (GWP). This aspect not only supports sustainability initiatives but also aligns with international regulations aimed at reducing greenhouse gas emissions. This makes them an appealing choice for organizations committed to minimizing their environmental impact.

The York D3CE and D3CG chillers are engineered to ensure quiet operation, making them suitable for noise-sensitive applications such as urban environments, hospitals, and educational institutions. Sound-dampening technologies are integrated into the design to minimize operational noise, thus preserving the quality of the surrounding environment.

Another significant characteristic is the advanced control system tailored for these chillers. The intuitive controls interface allows for easy monitoring and adjustment of operating parameters, enabling facilities managers to optimize performance and maintain effective cooling without extensive training.

Durability and reliability are also hallmarks of the D3CE and D3CG series. Constructed with high-quality materials and robust components, these models are engineered to withstand harsh operating conditions and deliver consistent performance over time. Regular maintenance can be managed efficiently thanks to accessible service points, ensuring that these chillers can serve their intended lifespan and beyond.

In summary, the York D3CE and D3CG series stands out in the crowded HVAC market due to their high efficiency, environmentally friendly design, quiet operation, advanced control capabilities, and rugged reliability. These features make them a prudent choice for organizations looking to enhance their cooling systems while adhering to environmental and economic sustainability goals.