The performance of the Robinair RG6 Portable Refrigerant Recovery Machine in agricultural refrigerant applications stands out for its efficiency and reliability. This robust device serves as an essential tool for professionals managing agricultural refrigeration systems, ensuring optimal temperature control for perishable goods.
What is the Efficiency of the Robinair RG6 in Agricultural Refrigeration?
The efficiency of the Robinair RG6 in agricultural refrigeration is remarkable due to its multi-refrigerant capability and rapid recovery time. Key features include a dual stage vacuum pump and a user-friendly digital display; these elements enhance the RG6s ability to compare favorably against competitor refrigerant recovery devices like the Yellow Jacket 95767 or the Appion G4NT.
The RG6 can efficiently handle various refrigerant types such as R134a, R404A, and R410A, making it versatile for farmers who require flexible solutions. On average, the machine takes just 30-45 minutes to service agricultural systems, depending on the scale of the operation and the specific refrigerant characteristics involved.
How does temperature affect the performance of this refrigerant machine?
The Robinair RG6 operates best within an optimal temperature range of 40 to 95 degrees Fahrenheit, ensuring efficient refrigerant recovery. Performance efficiency can significantly decrease if temperatures fall outside this range by as little as 10 degrees, primarily affecting the recovery speed and cooling capacity.
The maximum evaporating temperature suitable for effective operation with the RG6 is approximately 104 degrees Fahrenheit, beyond which system strain may result. Typically, the machine reaches a stable refrigeration temperature within 5-10 minutes, providing a quick response in time-sensitive agricultural environments.
Analyzing Maintenance and User Experience with Robinair RG6 in Agriculture
Maintenance for the Robinair RG6 in farming applications is recommended every six months, especially for high-use operations. Common issues reported by users often relate to minor seal leaks and pump wear, typically resolvable through routine inspections and part replacements.
User experience significantly impacts the efficiency of the RG6, as improper use can lead to decreased performance and increased downtime. The typical lifespan of the Robinair RG6 Recovery Machine when used in agricultural applications is between 5 to 7 years, depending on maintenance practices and usage frequency.
What are the user-friendly features of this refrigeration machine?
The average weight of the Robinair RG6 Portable Refrigerant Recovery Machine is approximately 50 pounds, which allows for relatively easy handling by technicians. The unit includes six user-interface elements designed for simplicity, fostering an intuitive operation even for less experienced users.
A new user generally requires about one hour to learn efficient operation of the RG6, which includes familiarizing with its features. Notably, complaints regarding user interface challenges are minimal, with only about 5 of users reporting difficulties managing its settings and controls.
Understanding Energy Consumption of Robinair RG6 in Agricultural Use Cases
The average energy consumption of the Robinair RG6 is roughly 5 kilowatts, which positions it favorably compared to competitors such as the Bacharach TruTrack. Energy costs heavily influence agricultural refrigerant choices; lower energy usage often guides decision-making for farmers looking to optimize operational budgets.
How does energy efficiency impact agricultural refrigeration systems?
The typical energy efficiency ratio for similar refrigeration systems in agriculture ranges from 3.0 to 4.0; the RG6 consistently performs at the higher end of this scale. On average, it consumes about 1.3 kilowatts per hour, making it both reliable and efficient in diverse applications.
The minimum energy required for effective operation of the Robinair RG6 is approximately 1.0 kilowatt per hour, showcasing its admirable energy management. With proper care and optimal usage, the system can sustain effective energy efficiency for over seven years before significant declines become apparent.