Alaska Refrigeration & Engineering
- Industrial Refrigeration Contractors
- Refrigeration Design Build Engineers
- Industrial & Commercial Refrigeration Supplies
ALASKA Refrigeration originated in 1993 servicing Singapore & Malaysia need for a reliable and knowledgeable industrial refrigeration contractor. Since 1993 we have grown to provide complete engineering, design, construction, and service of refrigeration systems for a wide range of industries & supermarket throughout NEW ZEALAND (Branch)
As refrigeration contractors and engineers, we work with our clients to provide them with the best possible solutions to their refrigeration needs and problems.
- Meat & Poultry Processing
- Vegetable Processing
- Cold Storage
- Breweries & Bottling Plants
- Mini Supermarket
- Industrial ammonia & Refrigerant refrigeration
- Mechanical contracting
- Design & Build
- Equipment & Part Supply
From your individual requirements we will work with you through the entire design, manufacture, and installation process to achieve every objective. We have a very experienced service staff capable of solving all your refrigeration problems. We want to be your refrigeration contractor of choice.
Our Branch : Alaska Refrigeration & Engineering
0800 1ALASKA Contact Consulting
From an environmental perspective, CO2 is a very attractive refrigerant with zero ODP and a GWP of 1. It is a naturally occurring substance and abundant in the atmosphere.
Pressure and temperature
CO2 is a high-pressure refrigerant where high operating pressures are required for efficient operation. During standstill, the ambient temperature can reach and exceed the critical temperature and the pressure can exceed the critical pressure. Hence systems are typically designed to withstand pressures up to 90 bar, or sometimes even equipped with a small standstill condensing unit to keep pressures low.
At the same time, CO2 has a low compression pressure ratio (20 to 50% less than HFCs and ammonia), which improves volumetric efficiency. With evaporation temperatures in the range of -55 ºC to 0 ºC, the volumetric performance of CO2 is for example four to twelve times better than that of ammonia, which allows compressors with smaller swept volumes to be used.
The triple point and critical point of CO2 are very close to the working range. The critical point may be reached during normal system operation. During system service, the triple point may be reached, as indicated by the formation of dry ice when liquid containing parts of the systems are exposed to atmospheric pressure. Special procedures are necessary to prevent the formation of dry ice during service venting.
CO2 does not react with common metals or with Teflon®, PEEK, or neoprene components. However, it diffuses into elastomers and can cause swelling with butyl rubber (IIR), nitrile rubber (NBR), and ethylene-propylene materials (EPDM).
The density of liquid CO2 is about 1.5 times that of ammonia, resulting in higher mass charge in evaporators, such as large plate chillers in large industrial systems. Higher density means higher oil circulation as well, which in turn requires effective oil separators for industrial systems.
CO2 is a by-product in a number of industries, so the price of CO2 is low. However, CO2 systems tend to be more expensive than traditional systems due to higher pressures (in transcritical systems) or increased complexity (in both transcritical and subcritical systems). Complexity of systems seems to be decreasing with the entrance of Booster systems and as the number of CO2 installations has increased, history has shown that the cost approaches the cost of the reference systems using HFCs.
Secondary, large CO2 systems, especially in industrial refrigeration, may be less expensive to build than their glycol counterparts and thus offer lower initial and life-cycle costs.
Unlike most other refrigerants, CO2 is used in practice in three different refrigeration cycles:
Subcritical (cascade systems)
Transcritical (CO2-only systems)
Secondary fluid (CO2 used as a volatile brine)
The technology used depends on the application and the intended location of the system. There are a several applications where CO2 is attractive and already widely used today:
Industrial refrigeration. CO2 is generally used in combination with ammonia, either in cascade systems or as a volatile brine
Danfoss believes that CO2 will be the main refrigerant in multipack commercial refrigeration systems. The F-gas regulation is a clear push in this direction.
CO2 systems can also be extended to cover heat recovery. In many cases the extra investment for gaining the waste heat is negligible and several cases have demonstrated that.