Kevin Sommerville – President/Sales

Kevin Sommerville – President/Sales

Kevin earned a B.S. in Finance from the State University of New York.  Kevin began his career with Thermal Products, Inc while studying for his undergraduate degree.  Now in his 21st year, Kevin handles the Direct accounts and the NY, NJ, PA trade areas for Thermal Products, Inc.  In addition, Kevin brings focus to the sales and operational side of the business.  Kevin’s role is to achieve  yearly company goals through high levels of customer service, engineering design, and marketing through varying media outlets.

Mobile: 518-366-0771



Thermal Products, with our partner, Advantage Engineering and Temptek, can provide portable water chillers and cooling systems to the EDM & Machine Tool Industries with quick lead-times.  Call us with you needs.

EDM Machine Cooling

Models M1-1.15A-CH & MG-2A-CH & MG-3A-CH shown

Advantage Engineering's experience in this industry has led to the design of process chillers with unique features and designs specific to EDM Machine Tool cooling needs. Thermal Products, one of Advantage Engineering's top distributors, technical knowledge of heat transfer makes us the natural fit to discuss your EDM Cooling or Process Cooling needs.

Don't purchase someone's standard chiller for an EDM machine cooling application. Purchase a purpose built Advantage Engineering chiller.  Whether you are cooling an Agie, Charmilles, Brother, Mitsubishi or other EDM machine or machine tool, call the experts at Thermal Products for your chiller and heat transfer needs.

Models specici to EDM Cooling:

Model: MG-3APT-CH
Model: MG-2APT-CH
Model: MG-2A-CH
Model: M1-1.5A-CH
Model: M1-1ARX-CH

Cross Reference For Replacing Old Advantage Models:

M1-2A-CH -> Model: MG-2A-CH
SC-2AY -> Model: MG-2A-CH
IK-2AY -> Model: MG-2A-CH
M1-2APT-CH -> Model: MG-2APT-CH
SC-2APT -> Model: MG-2APT-CH
IK-2APT -> Model: MG-2APT-CH
IK-1.5A -> Model: M1-1.5A-CH

Contact Thermal Products today to discuss your cooling needs or to get a quote for your EDM Machine.

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Thermal Products and Indeeco have some exciting news to share. Indeeco has recently secured their agency approvals related to Flange Immersion heaters for the international markets with ATEX and IECEx approvals. The bullets below are specifics relating to the certification.
• ATEX Equipment Group: II (locations above ground)
• ATEX Equipment Category: 2 (Hazard is likely to occur)
• ATEX Environment: G (Gas/Vapor) and/or D (Dust)
• Protection Level (EPL): Gb (for Gas/Vapor) and/or Db (for Dust)
• Equipment Zone: Zone 1 (Gas/Vapor) and/or Zone 21 (Dust)
• Protection Method: Ex db (Gas/Vapor) and/or Ex tb (Dust)
• Group: IIB+H2 (Gas/Vapor) and/or IIIC (Dust)
• Temperature Class (Gas/Vapor): T1‐T6, or Surface Temperature Marking xxx°C as required
• Temperature Class (Dust): Surface Temperature Marking xxx°C with & without dust as required
• Ambient Temperature: within range ‐60°C to +60°C (‐25°C to +40°C standard)
• Environmental: IP66
We look forward to to discussing your electric heater needs with you to layout options when it comes to ATEX and IECEx approvals.  Contact your local Thermal Products office to discuss your applciation, today.

Chiller Options: Low Flow Bypass, Overhead Piping Kit & Process Line Shutoff Valves

For Chiller product information please visit

Low Flow Bypass Valve

  • It is critical that your Advantage chiller be provided with a constant water or water/glycol flow rate.
  • Standard chillers require 2.4 gallons per minute (gpm) per ton of rated cooling.
  • For example, a 10-ton chiller requires a constant flow of 24 gpm. If the flow rate is less than 24 gpm performance is affected and the unit may trip on its low-pressure limit switch.
  • Customized units may be designed for lower or higher flow rates.
  • If your process will experience lower than design flow rates or intermittent flow, a low flow bypass valve will be required.
  • For example, intermittent flow rates may occur when temperature control solenoid valves open and close or when more than one process is being served by the chiller and the processes don't always operated continuously.
  • The factory installed optional low flow bypass may be a manual ball valve Open or a pressure actuated automatic valve Open and it is installed between the "To Process" and "From Process" lines on the chiller.
  • It may be installed inside or outside the sheet metal enclosure depending on the specific chiller model.

Adjusting Manual Low Flow Bypass

Chiller Overhead Piping Kit

  • Start with the bypass completely closed and gradually open the valve.
  • Do so until the low refrigerant pressure gauges reading is in the normal operating range for the refrigerant type used in the chiller.

Adjusting Automatic Low Flow Bypass

Chiller Automatic Low Flow Bypass

  • For Automatic Low Flow Bypass handle or adjusting stem is located on the top of the valve.
  • Turning the "T" handle or adjusting stem in the clockwise direction puts more pressure on the valve's spring reducing bypass flow.
  • Turning the "T" handle or adjusting stem counter clockwise puts less pressure on the spring and increases bypass flow.
  • Adjust the "T" handle or adjusting stem until the low-pressure gauge reading is in the normal operating range for the refrigerant used in the chiller.
  • If the low-pressure gauge reading is below normal, reduce the pressure on the spring to provide more bypass.

Overhead Piping Kit

Chiller Overhead Piping Kit

  • Most chillers include an integral open to atmosphere water reservoir and pumping system.
  • On portable chillers and small central chillers these reservoirs have adequate volume to support the flow rate of the process but may not have adequate reserve volume to hold the water that remains in overhead system piping.
  • When overhead piping is installed in the system and the system is in the "off" position the water in any overhead piping may drain to the lower point in the system which is the open reservoir in your chiller.
  • If the chiller reservoir does not have adequate volume, the reservoir will overflow.
  • To avoid reservoir overflow, Advantage recommends the installation of an optional overhead piping kit.
  • The overhead piping kit consists of a full line size solenoid valve in the "From Process" line that is interlocked with the pump and a check valve (single direction valve) in the "To Process" line.
  • When the chiller pump is on, the solenoid valve opens and the check valve allows flow to the process.
  • When the chiller pump is off, the solenoid valve closes and the check valve prevents water from flowing back to the open reservoir trapping water in the overhead piping.
  • The overhead piping kit is normally factory installed but can be field installed when necessary.

Process Line Shut Off Valves

Chiller Process Line Shutoff Valve

  • Advantage chillers can be equipped with factory installed process line shut off valves.
  • These valves are full size ball valves installed on the "To" and "From" process lines at the exit of the chiller.
  • These valves can be used to adjust the process flow rate and to shut off the flow rate to isolate the chiller.

Reprinted with permission from Advantage Engineering Chillers

Engine Generator cooling encompasses many options and methods. Typically, you'll find and engine radiator mounted on the engine frame rails or mounted remotely, with custom designed piping running back to the engine inlet and outlet. Depending on the engine and fuel burned, we can design jacket-water cooling, charge-air aftercooling, fuel cooling for your application.  The cooling of an engine generator can be designed in a multitude of ways and setups.

Cat C27 Engine

The most economical cooling method is the "on engine" package, meaning the jacket water and aftercooler loop are cooled in a stacked core radiator assembly directly in front of the engine.  Stacked core simply means, two cores, one behind the other.  Another option is to have two cores side-by-side if the fan is having a hard time getting to the required static pressure across the cores.

Many applications that Thermal Products is involved with require the radiator to be in an entirely different location from the engine that is in the basement of a building.  This requires custom piping runs between the remote radiator and engine. This arrangement can increase the head pressure on after coolers at the engine and on the engine jacket water loop.  A typical radiator, aftercooler and engine, have a maximum pressure rating of 20-30 psi depending on design.  Thermal Products can design into the cooling package intermediate plate & frame heat exchangers, that can remove the over pressurization risk to the equipment.  In these scenarios the engine room will contain the equipment below:

  • Engine
  • Charge Air After Cooler
  • Plate & Frame Heat Exchange
  • Auxiliary Pump for service to the Remote Radiator

Thermal Products, with our partners at API Basco, API Schmidt Bretten, IEA Radiators and FloFab Pumps, know that every project is different and can design the right cooling package for each project.

IEA RCC Aftercooler

Our Scott Robinson had a recent application requiring a retrofit of an existing aluminum aftercooler (above) to two shell and tube aftercoolers (below) designed with stainless steel tubes for use with cooling tower water.  Thermal Products designed an API Basco Pipeline Aftercooler or "PLAC" heat exchanger with custom tube side connections.  The PLAC includes a floating back-end, allowing the tube bundle room to expand and contract, as needed.

Shell and tube Aftercooler

The original aluminum Aftercooler had failed.  When the engine was not in use, the treated cooling water was stagnant in the aftercooler.  Over a period of time it simply corroded the aluminum welds, which lead to leaking.

Contact you local Thermal Products office to discuss your cooling requirements, today!

Advantage Engineering Portable Chillers with NEW G-Series Instrument

The NEW G-Series chiller instrument is ready for shipment on new Advantage Engineering Process and portable chillers. 

Chiller MG Controler

The NEW MG Series controller includes the following:

• Graphic LCD display with intuitive navigation
• Alarm output with audible signal as standard
• Plain language error messaging
• Modbus RTU & SPI communications capability
as standard
• Modbus TCP communication available using a
separate “bridge” at an increased cost
• Digital sensing and display of refrigerant and
water pressures
• No more gauges or pressure limit switches so
less leaking potential
• High fluid temperature shutdown system
• Ability to operate almost any compressor
• Staging of tandem scroll compressors (not
available on M1)
• Single scroll compressor
• Digital scroll compressor
• Screw compressor

Advantage Portable Air cooled Chillers, Portable water Cooled chillers and OACS Outdoor Air-Cooled Chillers have seen a design upgrade
incorporating the G-Series chiller control instrument on single zone units and incorporating new tank designs in many models. These and other minor changes have led to lower selling prices on many Advantage engineering Ciller models.

Contact your local Thermal Products office or sales rep to discuss the new MG Controller or your process cooling needs.

Contact Thermal Products Inc at 518-877-0231 or at This email address is being protected from spambots. You need JavaScript enabled to view it.

One of Thermal Products offering is a line are API Basco Aftercoolers.  Aftercoolers are heat exchangers, in this case shell and tube heat exchangers, for cooling the discharge air from an air compressor. Typically with shell and tube exchangers, we try to design the shell and tube aftercooler to have the plant air go through the tube side of the heat exchanger.  We do this for ease of piping and reduced pressure drop.  We can also mount the shell and tube aftercooler on your skid or wall and run air and water piping to the aftercooler.  Thermal products can design the heat exchanger to still have a minimal pressure drop on your air side.
Basco E Shell Mounted on Wall
Water cooled aftercoolersare an effective means of removing moisture from compressed air, as we designed in this case.  If you don't have water available, Thermal Products can design an air cooled aftercooler for you to use your ambient air within your plant.
Compressed air systems require clean dry air for long term operation, so Aftercoolers reduce the amount of water vapor in a compressed air system by condensing the water vapor into liquid form, by dropping the air temperature below the dewpoint. Aftercoolers combined with a separator and trap are an excellent way to reduce moisture in a compressed air system. A separator with a float and trap allow the separator to further remove moisture using a cyclone effect.  Moisture is removed and gathered at the bottom of the separator where the float will open a trap to allow water out and to drain.
Basco Float and Trap                     Basco Separator and Trap
An aftercooler is necessary to ensure the proper functionality of pneumatic or air handling devices that are a part of process manufacturing systems. Again, Aftercoolers can use either air-cooled or water-cooled mechanisms.
Learn more about aftercoolers and how they work with your compressed air system. If you have questions about how to find an aftercooler to fit your air compressor, call your local Thermal Products office at 518-877-0231 or email us at This email address is being protected from spambots. You need JavaScript enabled to view it.

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Our partner, Indeeco Electric Heating, now supports CSA listed explosion-proof flange heaters!  The sales team at Thermal Products can design and offer a quotation for your exacting explosion proof immersion heater needs with CSA listing. All products are fully customizable allowing Thermal Products to design a EXP Flange Heater solution to fully optimize your process. 

Some of the product highlights include power rating up to 3 megawatts with watt densities up to 100 watts per square inch.  We can offer a full range of voltages up to 600V.  The Indeeco EXP Flange Heater can be designed with a wide range of materials for our flange and elements with sheath temperatures up to 1,200 degrees Fahrenheit.

Optional Features

Extended terminal box, or ""Stand-off" can be provided when necessary to allow for cooler operation of the terminal box. This allows the heating elements to be sealed with epoxy or RTV and for the customer to provide incoming wire with a much lower insulation temperature rating.

The heater can be supplied in accordance with ASME section VIII Div. 1 U-Part stamped and certified.

Bulb and capillary pilot duty or load carrying thermostats can be provided to control the heater. The thermostat bulb can be installed in a thermowell to sense process or element sheath temperature.

Type J or K thermocouples can be provided to monitor the process or element sheath temperatures. Thermocouples provided with a ceramic wafer head and screw terminals for ease of wiring. Alternate type E or T available.

Removable bussing

Allows troubleshooting and isolation of a failed heating element.

Construction utilizes alternating half baffles spaced closely to cause increased flow velocity across the heating elements to allow better heat transfer from the elements to the fluid.

Pickle and Passivate

A chemical treatment in nitric acid can be performed to remove free iron from the outer surface of stainless steel for applications sensitive to contaminants.

Is a process similar to plating using cathode and anode reactions but material is removed rather than added to the heater surfaces in order to provide a clean and bright finish.  This is very common with the pharmaceutical, biotech and food industries.

To learn more, contact your a member of the Thermal Products sales team for details.  Also download the brochure below for more information.


At Thermal Products we carry a wide variety of direct replacement parts and complete Heat Exchangers for API Heat Transfer and many other heat exchanger manufacturers like Standard Xchange, Thermal Transfer, American Industrial and others. We carry all API Heat Transfer brands including Basco, Ketema and Schmidt Bretten heat exchangers.


Whether you need a single pass heads, 2 pass heads or 4 pass heads we can ship to you.

Gaskets, zinc anodes, nut and bolt kits can all be provided by our team at Thermal Products. Contact us today

Models include:

Basco Type 500 Heat Exchanger and Parts
Ketema HT Heat Exchanger and parts
Ketema AHT Heat Exchanger and parts
Basco Type OP Heat Exchanger and parts
SIGMA Plate Exchanger units and parts
Standard Xchange BCF
Standard Xchange HCF
Standard Xchange SSCF
Standard Xchange SSCF
Custom TEMA Desgined heat exchanger parts

Please contact us at This email address is being protected from spambots. You need JavaScript enabled to view it.
or (518) 877-0231 for all your heat transfer needs.

When speaking of Shell & Tube Exchangers, we tend to break them into "standard" and "custom" shell and tube exchangers. When we talk of tolerances of flow nozzles and support locations, those manufacturers that belong to TEMA (Tubular Exchanger Manufacturers Association) are expected to build each heat exchangers to within those accepted tolerance called out in TEMA.

See link below for TEMA Tolerances brochure.

Having published tolerances is most important for both the customer and the manufacturer, especially when speaking of "custom" heat exchangers as they are built to a fabrication drawing, without the use of a manufacturing "jig" or "fixture". Without the use of a jig or fixture, the skilled welder relies on measuring tools, which is fairly precise to the naked eye, but when measured exactly, the dimensions will not exact each time that part is manufactured. Building shell & tube exchangers with nozzle tolerances of +/- ¼” don’t tend to be an issue for process plant or system integrator customer’s as long as it is not more than the noted tolerance. In that instance it would need to be corrected, especially, for a TEMA Shop.

“Standard” heat exchangers tend to be built for OEM customers that rely on exacting dimensions for each delivery of the same shell & tube exchanger. In order to maintain quality assurance of each unit, the use of a jig or fixture to assist the skilled welder is a must. This will ensure each and every part, that is welded together, to make a shell & tube exchanger will have the very same dimension each time it is made. This allows customers to use a Thermal Products heat exchanger, with precision and speed in their product.

Having shell & tube exchanger's built to precise measurements is also import when looking to replace a heat exchanger in kind. In this case a Drop In Replacement tube bundle or complete heat exchanger is easiest for plant maintenance personal, hospital or school facility engineers, to install. It assures them that they will not need to make any required piping modifications on either the tube side or shell side.

Thermal Products offers Drop in Replacement heat exchanger and tube bundles for a wide range of heat exchanger manufactures. In most cases, Thermal Products will have the needed equipment to manufacturer a NEW heat exchanger or tube bundle that will fit right into place of the old heat exchanger you are removing. If we don’t, we will advise you during the quoting phase and include freight, in our proposal, for you to ship your old heat exchanger to us for duplicating.

If your heat exchanger is custom and can’t ship it to our facility for duplicating, but have a fabrication drawing, we can offer and build a NEW heat exchanger to your fabrication drawing. Please see our latest Drop In Replacement heat exchanger shipment below.

BEM Replacement Heat Exchanger

Titanium TEMA Type AET ready for Shipment

Thermal Products was approached by a chemical company to design an Acetic Acid heater using 450 Thermal Oil. Heating Acetic Acid to a precise process temperature is key in the manufacturing insulated boxes.

Thermal Products designed a TEMA Type AET with a titanium tube side, meaning titanium tubes, titanium baffles and bundle supports, titanium tube sheets, titanium channel head, titanium reversing bonnet and titanium tube side connections.

A TEMA Type AET, is designed with a front channel head with channel cover, which enables the tube side of the heat exchanger to be cleaned without breaking or removing any of the piping. See figure "A" below.


The backend or rear bonnet was designed with a pull through floating head. This design takes into account thermal expansion and the ability to have a straight tube design with a removeable tube bundle. See Figure "T" above.

If you have an application that would require higher alloy materials, contact Thermal Products via phone, email, website inquiry form or chat feature on our website.

Click here to be taken to our contact information page

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