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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


The Metal Particle Detector switch from AMOT can detect and alert equipment operations of the presence of metal particles in nonconductive fluid lubrication systems (lube oil, transmission fluid etc).

Typical applications

Developed for use in manual and automatic control systems:

  • Reciprocating equipment
    - gas engines
    - diesel engines
    - compressors

  • Rotating equipment
    - gas turbines
    - steam turbines
    - transmissions and gear boxes
    - pumps
    - compressors

At utility gas let down stations, the natural gas transmitted through the pipelines is reduced in pressure from the transmission pressure (up to 700 psi) down to a pressure range of 30-50 psi.  As the pressure is let down, the gas expands.  During the expansion of the gas it will cool, generally in the range of 10 F for each atmosphere of expansion.  As the gas cools, the water vapor in the gas stream will freeze if the temperature of the gas drops low enough.  The ice from the gas stream will cause severe problems in the valves and piping.  To avoid the potential problem of ice formation, the gas is heated prior to the pressure let down.  Typically the natural gas is heated from approximately 320 F to 850 F using a hot glycol solution or thermal oil at 1500 F.

Thermal Products recommends a high pressure API Heat Transfer Basco TEMA Type BEP or BEU shell & tube heat exchanger for natural gas heaters.  A type BEP is a straight through design allowing the heat exchanger to easily be installed in the pipeline.  With the high pressure gas flowing through the tubes, the BEP's floating tubesheet design protects the unit from the stresses of differential thermal expansion. 

The U-Tube configuration of the type BEU allows it to handle differential thermal expansion since the bent tubing is inherently free to expand.  Both the BEP and BEU designs avoid the use of packing on the tubeside thus minimizing the chance for a dangerous natural gas leak to the atmosphere.  A glycol solution or thermal oil from a Thermal Fluid Heater is circulated through the shellside of the heat exchanger, and returned to the boiler.  Natural gas heaters are sized using the lowest gas pressure case, since the maximum tube velocity is obtained from the lowest operating pressure.

A variety of materials can be used but generally the heat exchanger is constructed entirely of carbon steel.  This provides the required strength for the critical operating conditions while minimizing the cost of the heat exchanger.  A rupture disc is normally provided on the shellside to protect the heat exchanger in the unlikely event of a tube failure.  The rupture disc allows a safe escape of the high-pressure gas should a tube rupture allowing the gas to enter the shellside of the heat exchanger. 

Contact Thermal Products for help with your application!

Two Basco Type 500 shell and tube heat exchangers with flanged connections ready for shipment.  Contact us today to see how Thermal Products can assist you!

Some of the Basco 500 Features include:

Performance notes.
 Cost-effective, standard design for maximum performance
at minimum cost
 Readily available with short lead times
 Uses precision-punched baffles to minimize fluid bypass
and maximize heat transfer
 Manufactured for a wide range of duties in state-of-the-art
ISO-certified facilities
Features and specifications.
 Removable and non-removable straight tube or
U-tube bundles
 One-, two-, and four-pass designs
 High-strength shells in carbon steel or stainless steel
 Tubesheets are welded to the shell; holes are precision
drilled for proper fit and sealing
 Baffles are hot-rolled punched steel for enhanced strength
and reliability – engineered for correct fit to reduce tube
wall damage from high-velocity liquids or gases
 Tubes are available in a range of materials, depending on
the application, and are roller expanded using controlled
pressure to ensure proper bond
 Heavy-duty mounting brackets can be reversed or rotated;
slotted holes allow for quick install
 Fabricated end bonnet heads are standard on TEMA-C
and some ASME units; zinc anodes available for
added protection
 Connections available, threaded or flanged, in 3 in., 4 in.,
5 in., 6 in., and 8 in. diameters – additional connections can
be added

Off-The-Shelf Sanitary and Utility Heat Exchangers

U-Tube Shell & Tube Heat Exchangers

Top producers of food, beverage, dairy and process products put their faith in Thermal Products and Enerquip, the leading provider of sanitary and industrial stainless steel shell and tube heat exchangers, for your critical heating and cooling needs.

Thermal Products and Enerquip’s resourceful team can provide you with sizing and design selection assistance. Our skilled sales engineers use state-of-the-art modeling software to recommend the right heat exchanger for each heating or cooling application. Your end result will be a high quality, sanitary or industrial heat exchanger with lead-times that are half of the industry average.

Thermal Products and Enerquip's 40 standard sized heat exchangers are either in stock or available to be shipped in days instead of months.

Contact us for quick shipping requirements today!

What sets Thermal Products and Enerquip’s sanitary shell and tube exchangers apart?

100% 304 stainless steel construction for corrosion resistance and cleanliness.

Built to high quality TEMA C guidelines, ASME hydro-tested and code stamped.

The perfect choice for heating or cooling low-fouling fluids.

Sanitary tri-clamp connections on the process side allow for easy installation.

U-tube design allows tubes to expand and contract freely to prevent damage.

Removable/replaceable tube bundle and o-rings make replacement quick and easy.

Wide selection of sizes from 4” diameter to 10” diameter in lengths up to 9’ long.

Heat exchangers built to 3-A standard 12-07 are available as an upgrade.

Options Available (Not all of these are Off-the-Shelf options.) :

Insulation and cladding with stainless steel jacket for heat conservation and personnel protection

Mounting foot supports – horizontal clamp-on saddles or vertical welded lugs

Baffle & connection changes for liquid to liquid applications

Upgrades to 3-A or double tubesheet design for high purity applications

Passivation and/or electro-polished product contact surfaces

Available in material upgrades to 316Lss, Duplex, Hastelloy, AL6XN and other alloys

Multiple-pass tubesheets and bonnets for a higher tubeside velocity in a small space

What about special requirements?

Thermal Products has a solution for the most unusual requirements and can custom design a shell and tube heat exchanger that will meet your specific application, size, special alloy or configuration in Sanitary or Utility applications. Contact us today!

Have you noticed decreased efficiency from your heat exchanger or circulation heater? So much so that your process is now operating out of acceptable temperature, pressure drop or flow range? You are most likely having significant fouling issues.

The most common reasons heat exchangers don’t provide the heat transfer rate they were designed for or have increased pressure drop from occlusion, is what we call fouling. Fouling is the buildup of sediments, mineral calcification and/or debris from the process that settles onto the surface area of a heat exchanger or circulation heater.

During the design stage, Thermal Products will inquire about specific process media makeup and the cooling or heating media. Thermal Products will ask you about the suspended solids, mineral content, and chemical content along with the typical needs of flow rate, heat load and temperatures in and out of the heat exchanger. With the provided information the Thermal Products design engineers will take into account the appropriate fouling factor to maximize the lifespan of the heat exchanger or preventative maintenance interval, reducing unexpected costs for the plant. The fouling factor essentially increases the surface area, over and above what is needed in order to perform the required heat load duty.

What are the different types of fouling?

Scaling is one of the most common types of fouling. Minerals and Salts commonly found in natural waters have a lower solubility in warm water than cold. Therefore, when cooling water is heated during the cooling process, particularly at the tube wall or plate wall, these dissolved salts will crystallize on the surface in the form of scale.


Thermal Products will design a heat exchanger or circulation heater with a lower tube temperature or watt density respectively, reducing the tube wall or element temperature. The Thermal Products design engineers will also look at process velocities through the heat exchanger or circulation heater, as slower velocities can exacerbate the problem.

This is noticed typically in the use of cold well water or open cooling tower applications.

Sedimentation, is the depositing of dirt, sand, rust, and other small debris and is most common when fresh water is used. This type of fouling typically leads to the heat exchanger or circulation heater becoming impacted and will completed occlude the flow, if left untreated. This can be controlled to a degree by the heat exchanger design through velocity control, but need to be careful as increasing the velocity too much will lead to erosion of your tubes or elements. Thermal Products will also design and offer upstream filtration or straining equipment to assist in removal of this type of debris before it gets to the heat exchanger or circulation heater.

If your process is sensitive, Thermal Products can design a closed-loop heating or closed-loop cooling process to eliminate the issues of sedimentation fouling completely.

Biological/Organic growth material typically occurs in marine, chemical, or bioorganic applications and can cause considerable damage if allowed to build up. Thermal Products can design a heat exchanger or circulation heater that can be resistant to biological fouling or organic fouling using different materials and design considerations.

Chemical Reaction Coking appears in oil heating applications, where the heat exchanger tubes or circulation heater elements are too hot. When the oil comes in contact, it burns the oil and deposits the resulting hydrocarbon on the heating surface. If left and the situation is not corrected, it will lead to premature failure of the heat exchanger or circulation heater. All oils are susceptible to Coking, but at a wide range of temperatures, dependent on the oil type.

As in mineral Scaling, Thermal Products will require the type of oil used so we can determine its flash point, thermal conductivity, specific heat and specific gravity so we design the proper heat exchanger or circulation heater.

Heat Exchanger and Circulation heater design are far more involved than looking at fouling, but it is an important factor to include when performing the design.

Any fouling, left untreated will result in the failure of that heat exchanger or circulation heater. The failure can be catastrophic in some cases.

As touched on earlier, Thermal Products can reduce the fouling possibilities greatly, by “closing the loop” if fouling is a chronic problem for your process. Thermal Products can design a Chiller, Closed loop cooling, closed loop heating or offer fired process heaters to perform the heating or cooling as your process dictates.


Contact any member of the Thermal Products team to discuss your process needs.


A Gas Compression company needed to reduce the noise level of their package by 20 dba measured at 3 meters from the core of the machine. The air temperature within the sound enclosure must remain at ambient temperature while accounting for 1,900,000 btu/hr heat rejection from the electric motors and compressor cores. The customer also needed the interior of the enclosure to be lighted with electrical outlets. Customer also required alarms notifying them of a gas leak.

Design Requirements:

This project required a complete sound enclosure measuring 30 ft long by 21ft wide and 12 ft high which encompassed the entirety of the gas compressor skid package. The design of the enclosure walls was required to be 4” thick with an inner perforated metal wall and an outer solid steel skin. We designed the inner mineral wool density to handle the noise reduction.

Equipment Included:

• Sound enclosure
• (2) doors
• (1) intake plenum and silencer
• (1) exhaust fan
• (4) light fixtures
• (4) light switches
• (1) gas detection system

Solution Offered:

The enclosure was designed with (1) 12,000 cfm exhaust fan with intake silencer and a 3HP explosion proof motor. To maintain ambient temperature inside the enclosure there needed to be an air flow switch and thermostats to control the fan operating and at what speed. Included was a gas detection system encompassing 4 individualized sensors wired back to a centralized enclosure alarm system tied to the customer’s main system. (2) light fixtures were mounted to the interior of the roof and (2) mounted above each of the (2) entry doors. Each door also had a light switch mounted to the entry point.

Thermal Products Advantages:

Thermal Products can offer an initial sound study completed to ensure you receive a properly designed sound enclosure. Every enclosure is factory assembled to ensure form, fit and function. Your enclosure can either ship assembled or in a kit disassembled. Our enclosures can either be finished with our in-house powder coat, galvanized steel or stainless steel. Although our enclosures are quite easy to assemble with the proper equipment, we do offer and perform onsite assembly from our trained factory assembly team.

High Temperature Vacuum Air to Air Heat Exchanger 

Thermal Products was asked to design a custom air-to-air heat exchanger designed to cool 2,346 ACFM air from 750F to 194F at a negative pressure of 10.1” hg. The design ambient air temperature of 149F created a very tight approach temperature that we needed to overcome. The Maximum Noise level required was 85 dba at the heat exchanger. Maximum pressure drop required was .12” HG.

Installation location is in the upper housing of vacuum crane for loading and offloading ships and barges. Overall size and weight was critical to the design.


Thermal Products designed and built the above/below custom air-to-air heat exchanger. The overall construction was from carbon steel with the Heat Exchanger Coil manufactured for cleanability for the extremely dusty environment. The coil was manufactured with a stainless steel inner tube and an aluminum extruded fin. The extruded fin allows our customer to clean the coils with high pressure water as part of the preventative maintenance routine.

Thermal Products used a low noise Aluminium fan that was manually adjustable to achieve the noise requirements.

Engineered solutions to industrial applications is what Thermal Products shines at. Contact us today with your custom needs.


TEMA stands for “Tubular Exchangers Manufacturers Association” and is a set of standards that were developed by leading shell and tube manufacturers. These standards define the style of heat exchanger and the machining and assembly tolerances. One of the advantages of selecting a shell & tube manufacturer that builds to TEMA specifications is that the end-user is assured that they will receive and install a piece of equipment that is built to certain specification’s and criteria.

There are 3 major TEMA classifications, which are as follows;

TEMA C – General Service
TEMA B – Chemical Service
TEMA R – Refinery Service

TEMA C is the least restrictive and most widely used. TEMA B and TEMA R are similar in requirements and typically require features like, confined gaskets joints, spiral wound gaskets along with some greater minimum thicknesses on some parts.

TEMA designations refer to portions of the unit that make up the complete heat exchanger. IE: TEMA Type BEM would have the “B” representing the front head, the “E” the core or middle section and M representing the rear head designs.

The figure below is helpful in visualizing each segment.

Figure: 1


TEMA Designs Available:

Straight Tube and Fixed Tube Sheet: Types BEM, AEM, NEN, etc

This design is the simplest design and most economical in most cases. The tube sheet is welded to the shell and heads are bolts to the tube sheet.

• Less costly than removable bundle designs
• Capable of multiple pass designs

• Shell side can only be cleaned by a chemical solution
• No ability to absorb thermal expansion between the outer shell and tube bundle

Removable Bundle and Externally Sealed Floating Tube sheet: Type AEW, BEW

This design allows for the tube bundle to be removed for inspection and cleaning. With Basco’s OP design, the head can be removed for inspection of the interior of the tubes, without releasing the pressure on the shell side process.

• Floating tube sheet allows for Thermal Expansion
• Shell side can be inspected and mechanical cleaned
• Tube bundle can be replaced or repaired without breaking the piping on the shell side.
• Maximum surface area for specified shell diameter for a removable bundle

• Tube side passes are limited to one or two passes
• Packing material limits operational pressure and temperature

• Intercoolers and After coolers
• Coolers with water in tubes
• Jacket water coolers and Oil coolers

Removable Bundle, Outside Packed Head: Type BEP, AEP, etc.

This design allows for the easy removal, inspection and cleaning of the shell side circuit and shell interior without removing the floating head cover. Special floating tube sheet prevents intermixing of fluids. In most cases, straight tube removable bundles are a more costly design that U-tube designs.

• Floating tube sheet allows for differential thermal expansion between the shell and tube bundle
• The tube bundle can be repaired or replaced without disturbing shell piping
• Tubes can be serviced without disturbing the tube side piping on AEP designs
• Less costly than TEMA BES and BET designs
• Provides a large bundle area entrance reducing the need for entrance domes for proper fluid distribution

• Flammable or toxic liquids in the tube side circuit
• Good for high fouling fluids in the tube side circuit

Removable Bundle, Internal Split Ring Floating Head: Type AES, BES, Etc.

These designs are best for applications when frequent tube bundle removal is necessary. More favorable to thermal shock than AEW or BEW designs. This design is suitable for volatile or toxic fluids.

• Floating head design allows for thermal expansion
• Maximum surface area for specified shell diameter than a “pull through” designs like AET or BET
• Available to multiple passes on tube side

• Shell cover, split ring and floating head cover must be removed to remove the tube bundle, results in higher maintenance costs

• Chemical processing applications for toxic fluids
• Special gas intercoolers and after coolers

Removable Bundle, Pull Through Floating Head: Type AET, BET etc.

These designs are best for applications when frequent tube bundle removal is necessary as the floating head is bolted directly to the floating tube sheet. This allows the bundle to be pulled complete, with the head.

• Floating head allows for thermal expansion
• Shell side can be inspected or mechanically cleaned
• Provide a large shell side nozzle entrance area for proper distribution over the bundle
• Multiple tube side passes available
• Suitable for volatile or toxic fluids

• Chemical processing applications for toxic fluids
• General industrial applications requiring frequent cleaning
• Hydrocarbon fluid condensers

Removable Bundle, U-tube: Type BEU, AEU etc.

This design is best suited for maximum thermal expansion applications. Each tube has the ability to expand and contract independently. This design is suitable for high thermal shock applications. U-tube bundles are very economical.

• The U-tube design not only allows for differential thermal expansion between the shell and tube bundle, but also each tube individually.
• Shell side can be inspected and cleaned
• Least costly design for removable bundles
• Multiple tube side passes are available
• Capable of handling high thermal shock applications
• Bundle can be removed from one end for cleaning or replacement

• Oil, chemical and water heating applications
• Optimal for steam to liquid applications.

In northern climates “shut-downs” can wreak havoc on your process when cooling tower basins freeze and upon “start-up”, cannot flow water to cool your process.

Thermal Products offers Indeeco’s pre-engineered, UL Listed/CSA Approved package for freeze protecting cooling tower basins.

Heaters are pre-set at the factory with a set point of 45F and will fit all tower manufactures below.

The Advantages of the Indeeco Cooling Tower Basin Heater package are as follows:

Solid-State Control

Outmoded bulb and capillary control has been replaced with new patented solid-state technology which combines temperature control with low water level protection in a single solid-state device.
NEMA 4X Enclosure
Most controls are factory wired inside a rugged NEMA 4X enclosure designed for wet, outdoor use. Pre-engineered designs up to 96 amps are available with stock and built-to-order listings, two circuit panels use a NEMA 4 enclosure.

Lower Cost

Installation time and cost are reduced by replacing individually mounted temperature and liquid level control devices with one pre-engineered and assembled control package that requires only one probe to sense both water temperature and level.

Sensor Probe Specifications :

Sensor Probe : INDEECO probe assembly incorporating both temperature and liquid level sensors.
Probe is made out of 316 stainless steel to minimize corrosion. Probe can be installed vertically or horizontally.
Maximum Pressure Rating for Sensor Probe : 15 psi
Cord : 12-foot outdoor rated cord with PVC hub connector for installation through tower basin wall. Options include different cord lengths or cord suitable for total immersion.

If you do not know your specific heater and control panel part number, then contact us with your cooling tower model number and water depth for a quote and information.

Gas heaters are employed in gas regulation stations as the gas in the pipeline is reduced to around 30-50 psi from 700 psi in most cases. As the gas pressure is reduced, the gas expands and cools. As it cools, the water particles in the gas can freeze if the gas drops low enough, causing problems in the valves and piping. To avoid the issue of ice formation, the gas is heated to 85F prior to the pressure reduction using Hot Glycol, Thermal Oil or Electricity.

When using thermal oil or glycol we would design a TEMA class shell & tube exchanger in a type BEP or BEU. Both designs are excellent for pipeline applications for ease of install, cleanability and thermal expansion.

If you choose to use electricity, then we would design a circulation heater, whereby gas would be passed through the shell using the electric elements to heat your gas.

These are some of the certifications we currently have for these designs.


In any of these cases, we would recommend a rupture disk to not put at risk the heat exchanger being damaged due to over pressurization.

Thermal Products can assist you with all your gas pipeline heating needs. Employing a shell & tube exchanger or electric circulation heater, we can handle all your design needs quickly and accurately.

Please see accompanying application literature.

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