Product Name: Olaer LOC2-007-4-D-B-0-00-T25-0-0-0 Air Oil Cooler
Brand: Olaer
Product Code: LOC2-007-4-D-B-0-00-T25-0-0-0 Air Oil Cooler
Tags: Olaer
Air Cooler
LOC2-007-4-D-B-0-00-T25-0-0-0 Air Cooler
LOC2-007-4-D-B-0-00-T25-0-0-0
Olaer Air Oil Cooler
Olaer Cooler
Olaer LOC2-007-4-D-B-0-00-T25-0-0-0 Air Oil
Olaer LOC2-007-4-D-B-0-00-T25-0-0-0 Air Oil Cooler
Olaer Air Cooler
Olaer LOC2-007-4-D-B-0-00-T25-0-0-0
LOC2-007-4-D-B-0-00-T25-0-0-0 Air Oil
Olaer Oil Cooler
Olaer Air Oil
Air Oil
LOC2-007-4-D-B-0-00-T25-0-0-0 Oil
Cooler
LOC2-007-4-D-B-0-00-T25-0-0-0 Air
Olaer LOC2-007-4-D-B-0-00-T25-0-0-0 Air Cooler
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The LOC cooling system with three-phase AC motor is optimized for use in the industrial sector. The system is supplied ready for installation. An integrated circulation pump makes it possible to cool and treat the oil in a separate circuit – offline cooling. The cooling system can also be equiped with Parker filter unit. Together with a wide range of accessories, the LOC cooling system is suitable for installation in most applications and environments. The maximum cooling capacity is 45 kW at ETD 40 °C. Choosing the right cooler requires precise system sizing. The most reliable way to size is with the aid of our calculation program. This program, together with precise evaluations from our experienced, skilled engineers, gives you the opportunity for more cooling per € invested. Overheating - an expensive problem An under-sized cooling capacity produces a temperature balance that is too high. The consequences are poor lubricating properties, internal leakage, a higher risk of cavitation, damaged components, etc. Overheating leads to a significant drop in cost-efficiency and environmental consideration. Temperature optimisation - a basic prerequisite for cost-efficient operation Temperature balance in a hydraulic system occurs when the cooler can cool down the energy input that the system does not consume - the system’s lost energy: (Ploss = Pcool = Pin – Pused). Temperature optimisation means that temperature balance occurs at the system’s ideal working temperature – the temperature at which the oil’s viscosity and the air content comply with recommended values. The correct working temperature produces a number of economic and environmental benefits: • Extended hydraulic system life. • Extended oil life. • Increased hydraulic system availability - more operating time and fewer shutdowns. • Reduced service and repair costs. • Maintained high efficiency in continuous operation – the system efficiency falls if the temperature exceeds the ideal working temperature.