filter oil machine, also known as oil filter machine or oil purifier, its main purpose is to remove impurities and pollutants in various types of oil, such as lubricating oil, hydraulic oil, transformer oil, edible oil, etc. The process involves passing the oil through various stages of filtration and purification to improve its quality, extend its life and improve the performance of the machinery or systems that depend on it. The general application function of the oil filter is to achieve the purpose of regeneration of waste oil, purification of new oil products, and reuse. Generally, pure physical filtration does not involve chemical changes. Vacuum, heating, interception, strong magnetic adsorption, precipitation, centrifugal force and other processes are used. To enhance and restore the cleanliness of the oil, filter water, impurities, degassing, demulsification, acid value reduction, etc., generally will not change the additive composition.
The following is a detailed breakdown of the main uses and benefits of oil purifiers:
Contaminant Removal:
Over time, oils used in various applications tend to accumulate contaminants such as dirt, dust, metal particles, water, sludge and other solid or liquid impurities. These contaminants can reduce the performance of the oil and cause wear and tear on machinery or equipment. Oil filters are designed to effectively capture and remove these contaminants, thereby maintaining the quality of the oil.
Extended Oil Life:
By removing contaminants, oil filters help extend the life of your oil. Cleaner oils perform better with less thermal breakdown, oxidation and viscosity changes. Not only does this reduce oil change frequency, it also lowers overall operating costs associated with maintaining machinery or systems.
Improved Equipment Performance:
Clean and properly filtered oil ensures optimal performance of machinery and equipment. Contaminants in the oil can lead to increased friction, reduced lubrication efficiency, and higher operating temperatures, all of which lead to lower efficiency, more frequent breakdowns, and ultimately costly repairs or replacements.
Reduced downtime:
Clean oil helps prevent unexpected breakdowns and reduces maintenance needs, reducing equipment downtime. Machines can run more reliably, resulting in increased productivity and smoother operating processes.
Energy Efficiency:
Well-filtered oil reduces friction and wear within machinery. The reduction in friction results in less energy being wasted in the form of heat, increasing energy efficiency and reducing energy consumption in the long run.
Environmental Impact:
Properly maintained oil that is filtered produces less waste because it requires fewer oil changes and creates fewer discarded waste oil containers. This has a positive impact on the environment by reducing the amount of petroleum waste that needs to be managed.
Cost Savings:
Filtered oil maintains its quality and performance, resulting in significant cost savings in reduced oil consumption, lower maintenance costs, less downtime and longer equipment life.
A typical oil filter unit consists of several components, including a pump, filter (often with multiple stages of filtration), heater (to remove moisture and improve oil flow), and monitoring sensors (to measure oil quality). Some advanced oil filter machines also have functions such as automatic operation, real-time monitoring, and alarm signals when the filter needs to be replaced or maintained.
