Why Hot Water?
Hot water packs a powerful energetic punch when released into the cleaning equation. This energy also causes a reduction in the water's surface tension allowing it to easily and more effectively penetrate the molecules of grease and grime. Actually, there are three key elements to a hot water pressure washer -heat, agitation and soap-that successfully remove grease and grime. Here's how they work:
- Heat, as described above, creates a high-speed molecular action that causes the cleaning agent to be more active and reduces water's surface tension so it can effectively penetrate grime at the molecular level.
- Agitation is the impact that comes from the water volume and water pressure hitting the surface-similar to the action of hand scrubbing the dinner plate in your kitchen sink.
- Soap (often referred to by pressure washer users as "detergent") chemically breaks the bond between dirt and the surface. It starts when the molecules of oil and grease attach themselves to dirt and keep them trapped or bound to the surface. Detergents use softening agents, technically referred to as "surfactants" (an abbreviation for "surface active reagents") to emulsify the oil and grease-this is the process in which two or more immiscible liquids, like oil and water, no longer repel each other but actually mix. Once the oil and water are able to mix forming an emulsion, the dirt-still clinging to the oil and grease-is carried away in the wash water.
So what does all of this have to do with a hot water pressure washer? Hot water pressure washers bring together a perfect balance of all three of these key elements - heat, agitation and soap - that delivers a pressure cleaning knockout punch.
How do you know when to use hot water?
If you're cleaning engines, automotive parts, or anything with oil or grease, you'll need hot water. Like the dishes in your sink, hot water "melts" grease and grime; cold water only pushes it around. On the other hand, if you're simply blasting away sand, caked-on mud, or even stripping paint, a cold water pressure washer will work just fine. Combined with detergent, a cold water pressure washer can be very effective in many applications.
The rule of thumb is simple: whatever cold water cleans, hot water will clean better and faster.
Does a hot water pressure washer cost more?
Yes, sometimes as much as two times more, due to the complexity of heating hot water while under pressure. Hot water pressure washers also require more preventive maintenance, such as the burner assembly, coil and redundant excess-pressure protection, all of which need annual tune-ups. Still, hot water pressure washers easily pay for themselves in labor cost savings by providing a faster, more effective pressure cleaning method. And because the water is pushed through the machine at such a powerful rate, less detergent is needed, which saves you even more money.
How is water heated in a pressure washer?
Water enters a pressure washer from a spigot or tank via a garden hose. It first passes through a high-pressure pump, which speeds the water on its way through a heating coil, consisting of up to 200 ft. of half-inch, schedule 80, steel pipe or tubing. The helical or circular winding configuration allows the water to get maximum exposure to the flame (fueled by diesel oil or natural gas/propane) as it roars through the center of the coil. [For all-electric models, the coil is immersed in a tank of hot water heated by electricity.] By the time the water rushes out of the coil and through the wand and nozzle, it will have reached temperatures of up to 200°F.
Is a steam cleaner the same as a hot water pressure washer?
It's not unusual to hear hot water pressure washers referred to as steam cleaners. While there are a few applications such as deicing or disinfecting that require steam, it has been proven over the years that hot water under high pressure is a much more effective method of cleaning than steam. That's because hot water washing has the additional benefit of agitation-water volume under high pressure pounding the surface. However, some pressure cleaning systems offer a "steam combination" option where the water is super-heated to 280°F in order to create a "saturated steam" effect for those rare applications where a surface requires higher temperature cleaning.