Welcome Engineers
Find everything you need to easily specify Intellihot Products
Built by engineers, for engineers.
Natural Gas/Propane Products:
- Indoor / Outdoor
- TE 94%
- 751,000 BTUs/hr.
- Turndown ratio 25:1
- 3-Part Specifications
- Submittal
- Revit Model
- Auto CAD File
- Master Schedule XLS
- Indoor / Outdoor
- TE 94%
- 1,001,000 BTUs/hr.
- Turndown ratio 33:1
- 3-Part Specifications
- Submittal
- Revit Model
- Auto CAD File
- Master Schedule XLS
- Indoor / Outdoor
- TE 96%
- 1,500,000 BTUs/hr.
- Turndown ratio 50:1
- 3-Part Specifications
- Submittal
- Revit Model
- Auto CAD File
- Master Schedule XLS
- Indoor / Outdoor
- TE 96%
- 2,000,000 BTUs/hr.
- Turndown ratio 66:1
- 3-Part Specifications
- Submittal
- Revit Model
- Auto CAD File
- Master Schedule XLS
- Indoor / Outdoor
- TE 94%
- 3,000,000 BTUs/hr.
- Turndown ratio 100:1
- 3-Part Specifications
- Submittal
- Revit Model
- Auto CAD File
- Master Schedule XLS
- Indoor
- Thermal efficiency 98%
- 199,000 BTUs/hr.
- Turndown ratio 6.7:1
- ASME or non ASME option
- 3-Part Specifications
- Submittal
- Revit Model
- Auto CAD File
- Master Schedule XLS
- Indoor
- Thermal efficiency 96%
- 251,000 BTUs/hr.
- Turndown ratio 8.4:1
- Submittal
- Revit Model
- Auto CAD File
- Master Schedule XLS
- Indoor
- Thermal efficiency 96%
- 399,000 BTUs/hr.
- Turndown ratio 13.3:1
- 3-Part Specifications
- Submittal
- Revit Model
- Auto CAD File
- Master Schedule XLS
- Indoor
- Thermal efficiency 96%
- 499,000 BTUs/hr.
- Turndown ratio 16.7:1
- 3-Part Specifications
- Submittal
- Revit Model
- Auto CAD File
- Master Schedule XLS
- Indoor
- 199,950 BTUs/hr.
- Thermal efficiency 96%
- Non ASME
- 3-Part Specifications
- Submittal
- Revit File
- Auto CAD File
- Master Schedule XLS
- Indoor
- 250,000 BTUs/hr.
- Thermal efficiency 96%
- Non ASME
- 3-Part Specifications
- Submittal
- Revit Model
- Auto CAD File
- Master Schedule XLS
- Indoor/Outdoor
- 251,000 BTUs/hr.
- Thermal efficiency 96%
- 3-Part Specifications
- Submittal
- Revit Model
- Auto CAD File
- Master Schedule XLS
- Indoor/Outdoor
- Deionized
- 251,000 BTUs/hr.
- Thermal efficiency 96%
- 3-Part Specifications
- Submittal
- Revit Model
- Auto CAD File
- Master Schedule XLS
Electric Products:
Indoor/Outdoor
Co2 Refrigerant
COP up to 4.9
Engineers Learning Center
Systems With Storage
The general approach to systems with storage from Intellihot is that we try to avoid them. We believe that there is very few applications out on the market that require some amount of storage in the commercial application. But of course, we know existing systems utilize storage and our systems can incorporate with those systems. In this course, we review how best to configure that scenario.
Temp Priority vs Flow Priority
If this sounds like something you’ve never heard of before, you wouldn’t be alone. We will review a hypothetical 200,000 BTU per hour tankless water heater. We’re going to put 50 degree water to it on the cold side, and we’re going to try to heat that water up to 120 degrees at 7 gpm. What happens if we exceed capacity?
Low Loss Header Design
Pressure drop is the tankless kryptonite. One of the problems with pressure drop in commercial applications is that when you increase the pressure drop on a system, you have to worry about rebalancing all of the other components in that distribution system. Intellihot has a very interesting approach to handling very large pressure drop.
Minimum Flow Rate For Activation
This is often asked when we talk about how much flow rate do I put across a heat exchanger in order to see it fire. That’s because just about every manufacturer has a spec that says at 1 GPM the unit will activate or at 0.5 GPM the unit will activate. And so this begs the question on the IntelliHot product, what is that number, and do you calculate it?
Sizing – Session 1
The most important part of any hot water heating design project. Whether you’re putting in Intellihot units or not, it’s important to know how to size the system.
Sizing – Session 2
ASHREA current standards and the Modified Hunters Curve. Let’s talk a bit about how ASHRAE currently sizes tankless water heaters. And in order to do that, we have to talk about a concept known as fixture diversity.
Sizing – Session 3
Using real world data as a sizing model. All of our units have flow meters inside of them, or rather flow sensors that tell our system when it’s time to turn on. And as a result, we can actually collect live data from our units, things like flow rate, temperature data, inlet outlet temperature, fluid temperature, component level information, and all of that data is fed back to a database or a cloud-based server to create the data used in our sizing calculator.
Sizing – Session 4
Sizing Calculator demonstration. Take a walk through a typical sizing and learn the tips and trick for the most accurate sizing output.
Versatile
Ideal for hotels, schools, hospitals, restaurants, laundromats, car washes, multi-family and other industrial applications.
Economical
Eliminates the need to oversize an installation with redundant equipment. elimates mixing valves & storage tanks.
Better ROI
Lower capital and operating costs compared to boilers and tank-style water heaters.
Robust
Commercial-grade, expandable, weldless 316L stainless steel heat exchanger coil with proven durability.
Masterless Cascading Ensures Zero Downtime
All of our commercial hybrid water heaters can be cascaded for increased capacity. And yet, each one operates autonomously. This means cascaded units do not require a master controller (the kind that causes a single-point failure).
Revolutionary Heat Exchanger
316L stainless steel heat exchanger that can withstand all thermal shocks and stresses, and provides superior corrosion and erosion resistance.