QuikWater's Flagship model is the ideal direct-contact water heating system for concrete production, commercial laundries, and the glass, textiles, car washing, food processing, government and aviation industries, producing 9 to 2,300 gallons per minute of pure, potable, hot water. All QuikWater systems are engineered with our innovative clean-burn combustion technology – a dry fire process that is not only safer than conventional boilers but operates with 99% energy efficiency. We also manufacture our systems using the highest quality materials for extra long life and extra low maintenance.
QuikWater systems are the first direct-contact water heating systems to be certified by the NSF/ANSI Standard 3A and 5 for food processing applications.
The QuikWater Flagship is ideal for concrete production, commercial laundries, and the glass, textiles, car washing, food processing, government and aviation industries.
When we say clean, we mean it.
While competitive products are designed with burner flames positioned directly in the falling water, QuikWater's patented clean-burn technology provides an isolated dry atmosphere – eliminating the safety risks associated with standard pressurized systems, and producing the highest fuel efficiency without water contamination or wear and tear on the shell materials.
QuikWater Flagship Direct-Contact Water Heating Systems
- 99% energy efficient; up to 40% energy savings
- Environmentally safe
- 1-2 year ROI compared with boilers or indirect-contact water heating systems
- 9 GPM to 2300 GPM of pure, potable water
- 600,000 btu/hr to 35 mmbtu/hr with temperatures up to 180°F
- Patented clean-burn technology
- Non-pressurized design eliminates safety risks
- Runs on natural gas, propane, or No. 2 fuel oil for non-potable water applications
- Linkageless controls
- Integral storage tank with manway
- Easy maintenance with integrated clean-in-place system
- Pre-piped, pre-wired, factory tested
- Low-NOx, ultra low-NOx and NSF systems available
- ETL/ETLC listed; UL compliant
QuikWater Heater Capacities
Temp Rise x GPM x 500 = BTU Required
Temp Rise = Hot Water Temp – Cold Water Temp
Heater capacities reduced for elevations above 1000 feet.
Reduction formula for maximum BTU outputs: Elevation – 1000 ÷ 1000 x 4% = BTU reduction precentage