Advantages Of Industrial High-Pressure Washing Systems

Advantages Of Industrial High-Pressure Washing Systems

When it comes to effective cleaning and cleanliness, high-pressure cleaners are a must-have. They are distinguished by low water usage and high cleaning power as compared to non-pressure methods. Heated high-pressure washers provide even additional advantages because they create hot water up to 80 °C and can remove tough filth faster and more effectively. For commercial customers, the combination of hot water and high pressure provides increased cost-effectiveness, as well as obvious benefits such as faster drying times and a decreased – or even no – need for cleaning products.


How do high-pressure hot water cleaners work?

In the steam stage, hot water high-pressure cleaners may raise the water temperature from around 12 °C to up to 155 °C. The water is heated by high-pressure cleaners are heated in a burner boiler equipped with a double-helix heating coil that has a compact design and a high heating output. Regular biodiesel can be used to power the low-emission burner. There are other machines with an electric boiler as an option. These are utilized in areas where exhaust emissions must be totally eliminated, such as big kitchens, swimming pools, and other enclosed rooms. The pressured water is heated to 85 °C at full capacity and maximum working pressure.

Hot steam can be generated in the heating coil at temperatures up to 155 °C by reducing the water volume; this triggers the steam stage, which is very intensive and gentle on surfaces.


High-pressure hot water cleaners for cleaning and sanitizing big areas

High hygiene standards can be achieved through intensive and precise cleaning with high-pressure cleaners. They are not only useful for reaching areas that are tough to reach manually, such as fissures and gaps. They are also powerful at combating germs, bacteria, and viruses and are particularly useful for cleaning and disinfecting big areas such as ceilings, walls, and floors.


Cleaning chemicals and disinfectants are used extensively in cleaning operations. However, many individuals are unaware that hot water can also help battle disease-carrying microorganisms. When utilizing high-pressure cleaners, the temperature of the water has a major impact on the decrease of germs, viruses, and bacterial colonies. A significant reduction in pollution is accomplished by combining high pressure with hot water at temperatures of up to 85 °C. This germ reduction is frequently sufficient to meet hygiene needs without the use of disinfectants. The addition of disinfection by the high-pressure cleaner is recommended to support the impact of hot water.


Heat speeds up the cleaning procedure.

The use of hot water high-pressure cleaners speeds up cleaning by up to 35% as compared to cold water machines due to the faster drying of clean surfaces. Heat energy is a key component that influences and speeds up cleaning operations. Temperature, together with mechanics, cleaning agents, and time, is one of four elements that mutually influence each other and influence the success of a cleaning operation.


Savings on labor costs

Several actual applications, ranging from workshops and handicraft businesses to big industrial operations, show that using hot water can cut overall cleaning time by up to 35%. This results in lower labor expenses.


Outstanding cost-effectiveness

The most notable advantage of hot water high-pressure cleaners is their lower cost. This is especially true for regular commercial use: the longer and more frequently the machine is operated, the greater the cost advantage. Although the cost of a heated high-pressure cleaner is significantly higher than that of a cold water machine of comparable pressure and capacity, the machine quickly pays for itself in decreased labor and running costs.


The increased purchasing price is due to its more complicated technology, particularly the burner. Higher energy usage due to the heating system must also be factored into the maintenance costs. These two costs, however, are immediately countered by the significant potential savings provided by hot water machines. The savings in water and cleaning agents quickly offset the cost of heating electricity. Cleaning times can be reduced by up to 35% when utilising hot water, which is an important component in profitability calculations. This is reflected in labor expenses, which are higher than purchase and operation costs during the life of a commercially utilized high-pressure cleaner.