JB/T 5443-1991 Steam-type lithium bromide absorption chiller types and basic parameters

This standard replaces JB 1376-74 and JB 3772-84. This standard specifies the types and basic parameters of steam-type lithium bromide absorption chillers. This standard is applicable to single-effect and double-effect lithium bromide absorption chillers (hereinafter referred to as "units" or "single-effect units", "double-effect units") that use saturated water vapor as heat source, lithium bromide aqueous solution as absorbent, and water as refrigerant to produce cold water for air conditioning or production processes. JB/T 5443-1991 Types and basic parameters of steam-type lithium bromide absorption chillers JB/T5443-1991 Standard download decompression password: www.bzxz.net

Machinery Industry Standard of the People's Republic of China
JB/T5443—91
Steam-type lithium bromide absorption chiller
Types and basic parameters
Issued on July 22, 1991
Issued by the Ministry of Machinery and Electronics Industry of the People's Republic of China
Implementation on July 1, 1992
Mechanical Industry Standard of the People's Republic of China
Steam-type lithium bromide absorption chiller
Types and basic parameters
Subject content and scope of application
JB/T5443—91
Replaces JB137674
JB3772—84
This standard specifies the types and basic parameters of steam-type lithium bromide absorption chillers. This standard applies to single-effect and double-effect lithium bromide absorption chillers (hereinafter referred to as "units" or "single-effect units" and "double-effect units") that use saturated water vapor as a heat source, lithium bromide aqueous solution as an absorbent, and water as a refrigerant to produce cold water for air conditioning or production processes. 2 Reference standards
ZBJ73025
3 Type
Refrigerator model compilation method
The unit is divided into single-effect and double-effect types.
The single-effect unit uses 0.1MPa (gauge pressure, the same below) saturated water vapor as a heat source to produce 7C cold water. 3.1.1
The double-effect unit uses the following four different pressures of saturated water vapor as a heat source to produce cold water of different temperatures. That is: for a 0.8MPa unit, the cold water outlet temperature is 7°C; for a 0.6MPa unit, the cold water outlet temperature is 7 or 10°C; for a 0.4MPa unit, the cold water outlet temperature is 7 or 10°C; for a 0.25MPa unit, the cold water outlet temperature is 13°C. d.
3.2 The compilation method of the unit model shall comply with the following provisions in addition to the provisions of ZBJ73025: Port
Remodel number: indicated by Latin letters A, B... in sequence, the first design is omitted
Cold water outlet temperature: 7℃ is indicated by D, 10℃ is indicated by Z, 13℃ is indicated by G; single-effect type is not indicated
Nominal cooling capacity (×10kW)
Heating saturated water vapor pressure (×10-\MPa), single-effect type is not indicatedType: single-effect type is indicated by XZ; double-effect type is indicated by SXZApproved by the Ministry of Machinery and Electronics Industry on July 22, 1991 and implemented on July 1, 1992
3.3 Model example
JB/T5443-—91bzxz.net
Cooling capacity 1150W Steam single-effect lithium bromide absorption chiller: XZ-115
Cooling capacity 1750kW, the first modified steam single-effect lithium bromide absorption chiller: b.
XZ-175A
Cooling capacity 1150kW, heating saturated steam pressure 0.6MPa, cold water outlet temperature 10C steam double-effect lithium bromide absorption chiller c.
Chiller:
SXZ6-115Z
Cooling capacity 1750kW, heating saturated steam pressure 0.4MPa, cold water outlet temperature 7C, the second modified steam double-effect lithium bromide absorption chiller d.
SXZ4-175DB
Basic parameters
The basic parameters of the single-effect unit should comply with the provisions of Table! Table 1
Nominal cooling capacity
Cold water outlet
Inlet temperature
Cold water inlet and outlet
Inlet temperature difference
Cooling water
Inlet temperature
Unit cooling capacity
Cooling water consumption
Saturated steam
Gauge pressure
Unit cooling capacity
Steam consumption
JB/T5443-91
4.2 The basic parameters of the double-effect unit with 0.8MPa saturated steam as the heat source shall comply with the provisions of Table 2. Table 2
Nominal cooling capacity
Cold water outlet
Inlet temperature
Cold water inlet and outlet
Inlet temperature difference
Cold water
Inlet temperature
Unit cooling capacity
Cooling water consumption
4.3 The basic parameters of the double-effect unit with 0.6MPa saturated steam as heat source shall comply with the provisions of Table 3. 4.4 The basic parameters of the double-effect unit with 0.4MPa saturated steam as heat source shall comply with the provisions of Table 4. Saturated steam
Gauge pressure
Unit cooling capacity
Steam consumption
Nominal cooling capacity
Cold water outlet
Temperature difference between cold water inlet and outlet
Cooling water
Inlet temperature
Unit cooling capacity
Cooling water consumption
Saturated steam
Gauge pressure
Unit cooling capacity
Steam consumption
When the cold water outlet temperature is 7℃,
When the cold water outlet temperature is 10℃,
Nominal cooling capacity
Cold water outlet
Temperature difference between cold water inlet and outlet
JB/T 544391
Cold water inlet and outlet
Temperature difference
Cooling water
Inlet temperature
Unit cooling capacity
Cooling water consumption
Cold water outlet temperature
When 7℃,
Cold water outlet temperature
When 10℃,
Saturated steam
Gage pressure
Unit cooling capacity
Steam consumption
Cold water outlet temperature
When 7℃,
Cold water outlet temperature
When 10℃,
JB/T5443—91
5The basic parameters of the double-effect unit with 0.25MPa saturated steam as the heat source shall comply with the provisions of Table 5. 4.5
Nominal cooling capacity
Additional notes:
Cold water outlet
Temperature difference between cold water inlet and outlet
Cooling water
Inlet temperature
This standard is proposed and managed by the Hefei General Machinery Research Institute of the Ministry of Machinery and Electronics Industry. This standard was drafted by the Hefei General Machinery Research Institute of the Ministry of Machinery and Electronics Industry, and the main drafter of this standard is Wang Dekui.
Unit cooling capacity
Cooling water consumption
Saturated steam
Gauge pressure
Unit cooling capacity
Steam consumption
People's Republic of China
Mechanical industry standard
Steam type lithium bromide absorption chiller
Type and basic parameters
JB/T5443-91
Published and issued by the Mechanical Standardization Research Institute of the Ministry of Machinery and Electronics Industry (Beijing 8144 Xin Box
Postal code 100081)
Copyright reserved. No reproduction allowed
Printed by Hebei Qinghe Printing Factory
Format 880×1230
First edition in October 1991
Printing sheet 5/8
Word count 12000
First printing in October 1991
Print run 00.001-1000
Price 1.00 yuan
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