Integrated modular prefabricated refrigeration plant room divides plant room components into several modules:
• Integrated cold water unit module
• Integrated ice storage
• Integrated water pump module
• Integrated cooling tower module
• Integrated manifold module
• Integrated control module
• Water treatment module
Characteristic:
• All-function-in-one
• Turn projects into product series
• Minimized floor space
• Turn on-site engineering labor into factory prefabrication
• High-efficiency operation
• Energy saving
• Optimized equipment and system
• Less initial investment
• Intelligent control system
BIM(Building information modeling) is a new tool for architecture and civil engineering. Based on the data of building construction project, we establish the model of architecture and AC to simulate the operation condition of AC system. The benefits of BIM-based integrated refrigeration plant room are:
• Establish BIM database for future use
• Accurate model for equipment and accessory(i.e. pipes)
• Establish tubing model. Divide the project into pieces. Prefabricate and assemble on site
• Collision check. Remesurement. Correction
• QR code applied
• Annually power consumption analysis
• Plant room cost analysis
unit | GM/C PORT CH | |||||||
57 | 89 | 113 | 150 | 170 | 196 | 224 | ||
Refrigerant | R22 | |||||||
Secondary refrigerant | Aqueous based thermal fluid | |||||||
Ice-making condition refrigerating capacity | RT | 44 | 68.6 | 86.7 | 115.2 | 130.9 | 150.5 | 172.2 |
AC condition refrigerating capacity | RT | 57.1 | 88.9 | 112.6 | 149.6 | 169.8 | 195.6 | 223.5 |
unit | GM/C PORT DH | |||||||
246 | 272 | 300 | 334 | 381 | 429 | 502 | ||
Refrigerant | R22 | |||||||
Secondary refrigerant | Aqueous based thermal fluid | |||||||
Ice-making condition refrigerating capacity | RT | 190.2 | 209.4 | 230.9 | 256.8 | 293.1 | 330.7 | 386.7 |
AC condition refrigerating capacity | RT | 245.7 | 272.2 | 300.3 | 333.5 | 381.3 | 429.3 | 502.4 |
unit | GM/C PORT CH | |||||||
600 | 667 | 763 | 859 | 1005 | ||||
Refrigerant | R22 | |||||||
Secondary refrigerant | Aqueous based thermal fluid | |||||||
Ice-making condition refrigerating capacity | RT | 461.8 | 513.6 | 586.3 | 661.4 | 773.4 | ||
AC condition refrigerating capacity | RT | 600.5 | 667 | 762.6 | 858.7 | 1004.8 | ||
unit | GM/C PORT CY | |||||||
332 | 444 | 567 | 686 | |||||
Refrigerant | R22 | |||||||
Secondary refrigerant | Aqueous based thermal fluid | |||||||
Ice-making condition refrigerating capacity | RT | 254.9 | 335 | 428.6 | 517.8 | |||
AC condition refrigerating capacity | RT | 331.5 | 443.5 | 567 | 685.5 | |||
unit | GM/C PORT CHS | |||||||
59 | 82 | 115 | 157 | 170 | 199 | 220 | ||
Refrigerant | R134a | |||||||
Secondary refrigerant | Aqueous based thermal fluid | |||||||
Ice-making condition refrigerating capacity | RT | 44.4 | 61.9 | 87.2 | 118.3 | 128.3 | 150.1 | 166.1 |
AC condition refrigerating capacity | RT | 58.8 | 82 | 115.5 | 156.9 | 169.8 | 199.3 | 220 |
unit | GM/C PORT DSH | |||||||
247 | 291 | 316 | ||||||
Refrigerant | R134a | |||||||
Secondary refrigerant | Aqueous based thermal fluid | |||||||
Ice-making condition refrigerating capacity | RT | 186.4 | 218.8 | 238.3 | ||||
AC condition refrigerating capacity | RT | 246.9 | 290.6 | 316.2 | ||||
unit | GM/C PORT CHS | |||||||
314 | 340 | 399 | 440 | 494 | 581 | 632 | ||
Refrigerant | R134a | |||||||
Secondary refrigerant | Aqueous based thermal fluid | |||||||
Ice-making condition refrigerating capacity | RT | 236.6 | 256.5 | 300.3 | 332.1 | 372.8 | 437.6 | 476.5 |
AC condition refrigerating capacity | RT | 313.6 | 339.8 | 398.6 | 440.1 | 493.9 | 581.2 | 632.4 |