Stop Losing Money to the Wrong System
“Most cold storage problems are not the cold room, but the system behind it. Stop losing money on high electricity bills, temperature fluctuations causing spoilage, and frequent compressor failures.”
What Makes Our Systems Different
- ✓ Tailored for Your Operation: We consider product type, daily throughput, and door opening frequency to choose the right compressor type and capacity.
- ✓ Energy Savings You Can Measure: Optimized screw or piston compressors reduce energy by 15–30%.
- ✓ Built for Hot & Humid Climates: Proven performance in Southeast Asia, tropical regions, and industrial environments.
- ✓ Easy to Service: Maintenance-friendly layouts with accessible components and standardized parts for lower downtime.
Quick System Selection Guide
| Unit Type |
Best For |
Key Advantage |
| Piston Unit |
Small / medium cold rooms |
Cost-effective, simple maintenance |
| Screw Compressor Unit |
Large industrial cold rooms |
Stable operation under heavy load, energy-efficient |
| Parallel Rack System |
Warehouses with variable load |
Redundancy + energy optimization |
| Compact Condensing Unit |
Modular or small rooms |
Fast installation, space-saving |
How We Calculate Cooling Load (Professional Approach)
We don’t guess—we calculate to ensure right-sized equipment and lower running costs:
- ✓ Room & Product Data: Volume, insulation, and stored product type.
- ✓ Production & Throughput: Daily loading/unloading cycles.
- ✓ Ambient Conditions: Temperature and humidity of the installation site.
- ✓ Equipment Selection: Compressors, evaporators, and condensing method.
- ✓ Control Logic: Automatic capacity regulation and defrost cycles.
System Layout & Workflow
Cold Room Load →
Compressor Sizing →
Evaporator Selection
Condensing Unit Type (Air/Water Cooled)
Control Panel (PLC/Standard)
Installation →
Commissioning →
Remote Monitoring
Real Project Cases
Meat Processing Plant (Malaysia)
Room: Freezer (-20°C) + Chilled (+4°C)
Problem: Old system was energy-intensive with slow pull-down and uneven temperatures.
Solution: Screw compressor unit, optimized evaporator layout, and PLC control.
- ✓ Energy reduced by 25%.
- ✓ Faster pull-down after loading.
- ✓ Stable temperature across all zones.
Seafood Cold Storage (SE Asia)
Challenge: High ambient temperature and frequent door openings causing frost and compressor overload.
Solution: Air-cooled condensing system and optimized defrost cycle with balanced capacity.
- ✓ Frosting minimized.
- ✓ Stable compressor operation.
- ✓ Maintenance frequency reduced.
Frozen Food Distribution Center
Requirement: Multiple zones (-18°C to -25°C) and continuous operation.
Solution: Parallel rack system with automatic load balancing.
- ✓ Redundant system resulting in zero downtime.
- ✓ Energy savings of 20%+.
- ✓ Easy integration with warehouse management systems.
Technical Overview
| Parameter |
Range / Options |
| Cooling Capacity |
2 kW – 500 kW |
| Temperature Range |
+10°C to -40°C |
| Refrigerants |
R404A, R507, R134a, CO₂ |
| Cooling Method |
Air-cooled / Water-cooled |
| Control |
Standard / PLC / Remote monitoring |
| Compressor Brands |
Bitzer, Copeland |
Transparent Factors Affecting Price
You get a tailored quotation instead of a generic catalog price, based on:
Capacity & Insulation
Cooling capacity (kW), room insulation, and temperature difference.
System Type
Choice of compressor type and condensing method (Air vs. Water).
Control Complexity
System complexity, including PLC or remote monitoring options.
