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The Hanbell AC-1200R represents a high-capacity, industrial-grade chiller solution. Its core strengths lie in its efficient and reliable dual-circuit design, advanced intelligent controls, and robust construction, making it a suitable choice for projects where cooling capacity, system resilience, and lifetime operating costs are primary decision factors.
Technical Parameters
| Model | Power (kW) | Rotating speed (rpm) | Air Delivety (m3/min) | Shaft power (kW) | Specific power (kW/m3/min) | Dimension(mm) | Weight(kg) |
| AC-1200R | 110 | 3000 | 19.54 | 119 | 6.09 | 810*575*412 | 378 |
High-Efficiency Twin-Screw Compressor Unit:
Utilizes Hanbell's proprietary large-capacity, semi-hermetic twin-screw compressor.
Designed for high pressure ratio applications and continuous heavy-duty operation.
Features optimized rotor profiles and advanced bearing technology for high volumetric efficiency and low vibration.
Dual-Circuit or Independent Compressor Design (Typical for this capacity):
The AC-1200R typically incorporates two independent refrigerant circuits or compressor units within a single chiller package.
This design provides inherent redundancy and exceptional part-load efficiency, allowing one circuit to operate while the other is off or serviced.
Enhanced Shell-and-Tube Heat Exchangers:
Large-capacity, high-efficiency evaporator and condenser with enhanced surface tubes.
Designed for low pressure drop and stable performance under full and varying loads.
Advanced Intelligent Control System:
Features a centralized PLC or high-level microprocessor control system with a large touch-screen HMI (Human-Machine Interface).
Provides comprehensive system monitoring, adaptive capacity control, sophisticated diagnostics, and detailed energy consumption logging.
Supports advanced BMS integration and remote connectivity for fleet management.
High-Efficiency Components & Modulating Control:
Equipped with variable frequency drives (VFD) on screw compressors and/or condenser fans for stepless capacity modulation from approximately 20% to 100%.
Uses high-efficiency EC motors for fans and pumps where applicable.
Robust Construction for Industrial Use:
Heavy-gauge structural framework and industrial-grade components.
Comprehensive protection and safety devices (high/low pressure, oil pressure, motor overload, freeze protection, phase monitoring).
Modern Refrigerant Options:
Compatible with environmentally responsible refrigerants such as R-134a or R-513A.
Unmatched Energy Efficiency & ROI: The synergistic effect of the two-stage compression and the high-efficiency PMSM motor results in best-in-class energy efficiency. This drastically reduces electricity consumption, which is the primary cost driver, leading to a very rapid Return on Investment (ROI) and the lowest possible operating cost.
Maximum Uptime and Superior Reliability: The two-stage design inherently distributes the load and thermal stress, drastically reducing wear on bearings and rotors. This engineering, combined with premium components, is built for continuous duty and provides unparalleled reliability, minimizing costly production downtime.
Exceptional Performance and Stability: Delivers extremely stable discharge pressure and consistent air flow, even with significant demand fluctuations. This ensures process stability and high air quality for sensitive and critical industrial tools.
Lowest Total Cost of Ownership (TCO): The AC-1030R is an investment in lowering the total cost of ownership. This is achieved through radical energy savings, extended service intervals, superior reliability that prevents downtime, and an extended operational lifespan.
Smart Connectivity for Industry 4.0: The advanced controller transforms the compressor into a connected data source. It enables centralized management, data-driven decision-making, predictive maintenance scheduling, and optimization of the entire compressed air system
Central Plant Cooling for Large Facilities:
Major airport terminals, large hospital complexes, university campuses, and big-box shopping malls.
Heavy-Duty Industrial Process Cooling:
Automotive manufacturing plants, large plastic injection molding facilities, chemical processing plants, pharmaceutical bulk manufacturing, and metal fabrication plants.
District Cooling Energy Plants:
As a core chiller module within a district cooling system that serves multiple buildings.
Mission-Critical Infrastructure:
Large data center complexes (indirect cooling via water loops), semiconductor fabrication facilities (support cooling).
Large Hospitality and Mixed-Use Developments:
High-rise hotels, convention centers, and sports arenas.
The Hanbell AC-1200R represents a high-capacity, industrial-grade chiller solution. Its core strengths lie in its efficient and reliable dual-circuit design, advanced intelligent controls, and robust construction, making it a suitable choice for projects where cooling capacity, system resilience, and lifetime operating costs are primary decision factors.
Technical Parameters
| Model | Power (kW) | Rotating speed (rpm) | Air Delivety (m3/min) | Shaft power (kW) | Specific power (kW/m3/min) | Dimension(mm) | Weight(kg) |
| AC-1200R | 110 | 3000 | 19.54 | 119 | 6.09 | 810*575*412 | 378 |
High-Efficiency Twin-Screw Compressor Unit:
Utilizes Hanbell's proprietary large-capacity, semi-hermetic twin-screw compressor.
Designed for high pressure ratio applications and continuous heavy-duty operation.
Features optimized rotor profiles and advanced bearing technology for high volumetric efficiency and low vibration.
Dual-Circuit or Independent Compressor Design (Typical for this capacity):
The AC-1200R typically incorporates two independent refrigerant circuits or compressor units within a single chiller package.
This design provides inherent redundancy and exceptional part-load efficiency, allowing one circuit to operate while the other is off or serviced.
Enhanced Shell-and-Tube Heat Exchangers:
Large-capacity, high-efficiency evaporator and condenser with enhanced surface tubes.
Designed for low pressure drop and stable performance under full and varying loads.
Advanced Intelligent Control System:
Features a centralized PLC or high-level microprocessor control system with a large touch-screen HMI (Human-Machine Interface).
Provides comprehensive system monitoring, adaptive capacity control, sophisticated diagnostics, and detailed energy consumption logging.
Supports advanced BMS integration and remote connectivity for fleet management.
High-Efficiency Components & Modulating Control:
Equipped with variable frequency drives (VFD) on screw compressors and/or condenser fans for stepless capacity modulation from approximately 20% to 100%.
Uses high-efficiency EC motors for fans and pumps where applicable.
Robust Construction for Industrial Use:
Heavy-gauge structural framework and industrial-grade components.
Comprehensive protection and safety devices (high/low pressure, oil pressure, motor overload, freeze protection, phase monitoring).
Modern Refrigerant Options:
Compatible with environmentally responsible refrigerants such as R-134a or R-513A.
Unmatched Energy Efficiency & ROI: The synergistic effect of the two-stage compression and the high-efficiency PMSM motor results in best-in-class energy efficiency. This drastically reduces electricity consumption, which is the primary cost driver, leading to a very rapid Return on Investment (ROI) and the lowest possible operating cost.
Maximum Uptime and Superior Reliability: The two-stage design inherently distributes the load and thermal stress, drastically reducing wear on bearings and rotors. This engineering, combined with premium components, is built for continuous duty and provides unparalleled reliability, minimizing costly production downtime.
Exceptional Performance and Stability: Delivers extremely stable discharge pressure and consistent air flow, even with significant demand fluctuations. This ensures process stability and high air quality for sensitive and critical industrial tools.
Lowest Total Cost of Ownership (TCO): The AC-1030R is an investment in lowering the total cost of ownership. This is achieved through radical energy savings, extended service intervals, superior reliability that prevents downtime, and an extended operational lifespan.
Smart Connectivity for Industry 4.0: The advanced controller transforms the compressor into a connected data source. It enables centralized management, data-driven decision-making, predictive maintenance scheduling, and optimization of the entire compressed air system
Central Plant Cooling for Large Facilities:
Major airport terminals, large hospital complexes, university campuses, and big-box shopping malls.
Heavy-Duty Industrial Process Cooling:
Automotive manufacturing plants, large plastic injection molding facilities, chemical processing plants, pharmaceutical bulk manufacturing, and metal fabrication plants.
District Cooling Energy Plants:
As a core chiller module within a district cooling system that serves multiple buildings.
Mission-Critical Infrastructure:
Large data center complexes (indirect cooling via water loops), semiconductor fabrication facilities (support cooling).
Large Hospitality and Mixed-Use Developments:
High-rise hotels, convention centers, and sports arenas.
