Product Overview
Bringing our the most advanced solutions for chilling applications, we are manufacturing and supplying a highly functional Water Chiller Plant. Available in both air and water cooled models, these plants are fully automatic in their operations. In accordance with the global standards, the plant is installed in core industries for varied chilling applications. We have all the facilities and tools to inspect the Water Chiller Plant on standard quality parameters. Features Available in 3TR to 300Tr range of capacity Safety measures installed Robust construction MAIN FEATURES Fully automatic Water/Air Cooled Open/Hermetic Compressor (Optional) Wide range of Capacity from 3 TR to 300 TR Main parts are designed and manufactured by Cool Command Compressor, Motor, Extension Valve, HP/LP switches, Temperature controller, Electrical Control, Dryer, etc. of interlocks for all major faults conditions. TECHNICAL SPECIFICATIONS Model No. Capacity (k cal/hr) Flow Rate (liter/mins) Minimum Temp.(C) Power (kw) CC-CH-3 9000 30 +6 4 CC-CH-4.5 13500 45 +6 6 CC-CH-6 18000 60 +4 8 CC-CH-8 24300 80 +4 10 CC-CH-10 30000 100 -3 13 CC-CH-12 36600 122 -3 15 CC-CH-15 45000 150 -3 19 CC-CH-16 48600 160 -3 20 CC-CH-18 54300 180 -3 23 CC-CH-20 60000 200 -3 26 CC-CH-24 73500 245 -3 32 CC-CH-30 90000 300 -3 39 CC-CH-40 120000 400 -5 52 CC-CH-60 180000 600 -5 75 CC-CH-90 270000 900 -5 110 CC-CH-120 360000 1200 -5 145 Capacities based on 7C evaporating temperature. Flow rate Calculated considering a of 5C. Power required 415 V 3 phase 50 Hz. 10% cooling capacity increase in water cooled system. Due to continuous R&D, the above information is subject to change without notice. CALCULATIONS FOR REQUIRED COOLING ENERGY First Step for proper selection of Chiller is done by knowing quantity of heat to be dissipated. To find out heat dissipated, use of following formula is made. Heat to be dissipated (KCal/hr) Flow of the liquid (Kg/hr) T(Temp. difference in inlet & outlet of fluid ) Specific heat of the liquid Heat = Kh/hr X Spec. Heat X ( t out - t in) For water and glycol the spec. heat is 1 and 1 Kg is equivalent to 1 liter. Calculation Example for water: Water flow in the circuit 2000 I/hr. Heat = 2000 x 1 x (25-20) = 10,000 Cal/hr. 1 TR = 3000 KCal/hr 1 TR = kw x 0.286
Bringing our the most advanced solutions for chilling applications, we are manufacturing and supplying a highly functional Water Chiller Plant. Available in both air and water cooled models, these plants are fully automatic in their operations. In accordance with the global standards, the plant is installed in core industries for varied chilling applications. We have all the facilities and tools to inspect the Water Chiller Plant on standard quality parameters. Features Available in 3TR to 300Tr range of capacity Safety measures installed Robust construction MAIN FEATURES Fully automatic Water/Air Cooled Open/Hermetic Compressor (Optional) Wide range of Capacity from 3 TR to 300 TR Main parts are designed and manufactured by Cool Command Compressor, Motor, Extension Valve, HP/LP switches, Temperature controller, Electrical Control, Dryer, etc. of interlocks for all major faults conditions. TECHNICAL SPECIFICATIONS Model No. Capacity (k cal/hr) Flow Rate (liter/mins) Minimum Temp.(C) Power (kw) CC-CH-3 9000 30 +6 4 CC-CH-4.5 13500 45 +6 6 CC-CH-6 18000 60 +4 8 CC-CH-8 24300 80 +4 10 CC-CH-10 30000 100 -3 13 CC-CH-12 36600 122 -3 15 CC-CH-15 45000 150 -3 19 CC-CH-16 48600 160 -3 20 CC-CH-18 54300 180 -3 23 CC-CH-20 60000 200 -3 26 CC-CH-24 73500 245 -3 32 CC-CH-30 90000 300 -3 39 CC-CH-40 120000 400 -5 52 CC-CH-60 180000 600 -5 75 CC-CH-90 270000 900 -5 110 CC-CH-120 360000 1200 -5 145 Capacities based on 7C evaporating temperature. Flow rate Calculated considering a of 5C. Power required 415 V 3 phase 50 Hz. 10% cooling capacity increase in water cooled system. Due to continuous R&D, the above information is subject to change without notice. CALCULATIONS FOR REQUIRED COOLING ENERGY First Step for proper selection of Chiller is done by knowing quantity of heat to be dissipated. To find out heat dissipated, use of following formula is made. Heat to be dissipated (KCal/hr) Flow of the liquid (Kg/hr) T(Temp. difference in inlet & outlet of fluid ) Specific heat of the liquid Heat = Kh/hr X Spec. Heat X ( t out - t in) For water and glycol the spec. heat is 1 and 1 Kg is equivalent to 1 liter. Calculation Example for water: Water flow in the circuit 2000 I/hr. Heat = 2000 x 1 x (25-20) = 10,000 Cal/hr. 1 TR = 3000 KCal/hr 1 TR = kw x 0.286
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