How High-Pressure Misting Pumps Work: Features & Expert Tips
While misting systems have been a growing feature throughout Arizona patios in recent years, high-pressure misting pumps are a more recent addition to the misting system market that improves the efficiency of your misting system. But how do they work, exactly? In this post, we will go over what a high-pressure misting pump is, how it works, and why it is different from the traditional misting pumps currently on the market.
What is a High-Pressure Misting Pump?
If you already have a misting system in your outdoor space, what makes a high-pressure pump different from the traditional one that you already have? Traditional pumps simply connect to the water supply in your home and use that water pressure to move water throughout the misting system. This creates a weak misting system that can drip more than it actually creates a mist.
In comparison, a high-pressure pump has a pressurization chamber inside the pump that adds more pressure to the water as it is sent through the system. This, in combination with the right type of misting nozzle, creates a more powerful and finer mist that is more effective in cooling your space.
Understanding the Basics: How High-Pressure Misting Pumps Operate
1. Connect to Water Supply
First and foremost, your misting system pump needs to be connected to a water source. It is typically connected to the main water line of your home or an outdoor hose bib. Your pump will be connected with the water supply in your home and be sealed to prevent any leaks.
2. Regulate Amount of Water Used
One of the key benefits of a high-pressure pump for your misting system is that it uses less water than other pumps, making it a more eco-friendly option for misting and cooling your outdoor space. But how does a high-pressure pump regulate how much water it uses to make sure it is not using too much? Inside the pump is a series of valves and chambers that control how much water gets into the pump system to be pressurized into mist. This is a continuous process that ensures controlled water usage and a more consistent mist.
3. Pressurization
Once the water enters the pressurization chamber in the pump, the creation of mist truly begins. This chamber works similarly to an air compressor, in that it manipulates the pressure in the chamber to pressurize the water inside to send through the misting system.
4. Valve Release
There are valves throughout your pump that contain the water in the pressurization chamber and then release it into the rest of the misting system. Think of them as similar to the valves in your heart that control the direction of blood flow and prevent backflow into the heart.
Why High-Pressure Misting Pumps Are Effective
Choosing to cool your outdoor space with a misting system is a long-term investment, and you want to make sure that investment is worth it. Misting systems provide a plethora of advantages that can make your outdoor space more enjoyable during the summer months. Some of the benefits of investing in a high-pressure misting pump include evaporative cooling and dust suppression.
Evaporative Cooling
The mist created by these systems utilizes evaporation to cool down the area in question. As the mist is dispersed in the air, the water absorbs heat from the air and evaporates, lowering the temperature in the surrounding area.. This can make outdoor hangouts more comfortable, even during the blazing heat of summer temperatures.
Choose the Best High-Pressure Misting Pumps with MistAmerica
Thinking about investing in a high-pressure misting system but not sure where to begin? With over 25 years of experience, MistAmerica offers a wide range of misting systems and high-pressure pumps to match your specific needs and budget. Our team will work with you every step of the way to match you with the perfect system for your outdoor space.
Contact our team of experts online or over the phone at (602) 255-0500. We are ready to answer any questions you may have or schedule an appointment with one of our technicians in the greater Phoenix area.