air cooler products - manufactures |...
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AIR COOLER PROduCts
COILS / INDUSTRIAL HEAT EXCHANGERS / NUCLEAR PRODUCTS / AIR COOLERS
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Fluid Coolers
Compressed Gas Coolers
Refrigerant Condensers
Steam Condensers
Vapor Coolers
Oil Coolers
Water/Glycol Coolers
Water Cooling Modules
Featured Products
Overview
Certifications CRNAPI 614 - ISO VG 32 Mineral Oil Flushing Capabilities
API 661
ASME U-Stamp
ASME UM-Stamp
Australian
Air Booster Coolers
Bleed Air Coolers
Brake Coolers
CNG - Filling Station Coolers
Compressed Gas Coolers
Engine Coolers
Fuel Gas Heaters
Gas Storage Facility Coolers
Hydrocarbon Coolers / Condensers
Landfill Gas Coolers
Lube Oil Coolers
N2 Coolers
Refrigerant Condensers
Rotor Air Coolers
Steam Condensers
TEG Coolers
Water/ Glycol Coolers
Brazilian NR-13
CRN - Canadian Registration Number
CWB - Certified Welding Bureau
GOST
PED - Pressure Equipment Directive, CE Mark
Markets & Experience
Gas Compression Landfill Gas Oil & Gas / Offshore
Power Generation Renewable Energy
Chemical Processing
Applications
Oil & Gas / Onshore
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Air Cooled Heat Exchangers
TriEthylene Glycol Cooler Location: Oil Sands located in North America
Headers: Carbon steel plug box
Tubes: Carbon steel tubes with L-foot aluminum fins
Unit Configuration: Forced draft with louvers for temperature control
Certifications: Built to CRN and ASME Section VIII, Div. 1 code
Location: Installed in New York City on a COGEN loop
Headers: Pipe & Bend
Tubes: Copper tubes with aluminum corrugated plate fins
Unit Configuration: Forced draft
Features: Requirement of 75dBa within three feet
Air Cooled Heat Exchanger
Location: Australia
Headers: Stainless steel plug box
Tubes: Stainless steel tubes with extruded aluminum fins
Unit Configuration: Forced draft
Certifications: Built to Australian and ASME Section VIII, Div. 1 codes
Features: Copon coated heat exchanger
Water / Glycol Cooler
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Air Cooled Heat Exchangers
Headers: Stainless steel
Tubes: Stainless steel tubes with aluminum flat plate fins
Unit Configuration: Vertical core, Forced Draft
Certifications: Built to ASME Section VIII, Div. 1 code
Features: Cleanable tubes designed to an operating pressure of
3,000 psi
Pump Seal Cooler
Headers: Pipe & Bend
Tubes: Carbon steel tube sand aluminum flat plate fins
Unit Configurations: Horizontal core, Forced draft
Certifications: Built to ASME Section VIII, Div. 1 code
Features: Stand alone unit installed by oil reservoirs. Augments
cooling during peak loads when the primary equipment can no
longer provide all the required cooling
Trim Cooler
Headers: Pipe & Bend
Tubes: Carbon steel and stainless steel tubes and aluminum
corrugated plate fins
Unit Configuration: Horizontal core, Forced draft
Certifications: Built to ASME Section VIII, Div. 1 code
Features: Fits inside standard container to provide support cooling on
the air end of the nitrogen skid
Nitrogen Generation Cooler
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Headers: Pipe & Bend headers
Tubes: Copper tube with alunimum corrugated plate fins
Unit Configuration: Horizontal core, Induced draft
Air Cooler for 500kw - 5MW engines
Headers: Pipe & Bend
Tubes: Carbon steel tube with aluminum plate fins
Unit Configurations: Vertical core, Forced draft
Features: Six services, including jacket water and charge air cooler
used to cool the engine and four gas coolers used to cool the
nitrogen on the nitrogen compressor
Engine Driven Air Cooler
Header: Plug box
Tubes: Carbon steel embedded tube
Unit Configuration: Vertical core, Forced draft with opposing
action louvers
Certifications: Built to ASME Section VIII, Div. 1 code with 100%
x-ray inspection
Features: Pneumatic actuator for temperature control. Designed
around requirements of API 661 and condensed super heated steam
at 450 PSIG
Steam Condenser
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Air Cooled Heat Exchangers
Location: Landfill in Southern California
Headers: Pipe & Bend
Tubes: Stainless steel tubes with aluminum corrugated plate fins
Unit Configuration: Horizontal core, Induced draft
Certifications: Built to ASME Section VIII, Div. 1 code
Combo Gas/Oil Cooler
Location: Landfill in Wisconsin
Headers: Stainless steel plug box
Tubes: Stainless steel tubes with L-foot aluminum fins
Unit Configuration: Horizontal core, Forced draft with bug screen
around the perimeter of the intake
Certifications: Built to ASME Section VIII, Div. 1 code
Pre-Cooler
Headers: Copper Pipe & Bend
Tubes: Copper tubes with aluminum corrugated plate fins
Unit Configuration: Induced draft
Features: Supports vacuum pumps purging an A-Frame steam
condenser. Includes pump stand and an atmostpheric surge tank
Water / Glycol Cooler
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Location: Alberta, Canada
Headers: Pipe & Bend
Tubes: Carbon steel tubes with aluminum corrugated plate fins
Unit Configuration: Forced draft with hot air recirculation louvers
used to control the process temperatures
Certifications: Built to CRN and ASME Section VIII, Div. 1 codes
Water / Glycol Cooler
Headers: Pipe & Bend
Tubes: Carbon steel or stainless steel tubes with flat or corrugated fins
Unit Configuration: Forced draft
Certifications: ASME Section VIII Div. 1 code
Features: Upper level pressure rating of 5,150 PSIG
Compressed Natural Gas (CNG) Cooler
Headers: Pipe & Bend
Tubes: Carbon steel or stainless steel tubes with flat or corrugated fins
Unit Configuration: Forced draft
Certifications: ASME Section VIII Div. 1 code
Features: Upper level pressure rating of 5,150 PSIG
Compressed Natural Gas (CNG) / Landfill Gas Cooler
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Core MaterialsTubes & Tube Materials
Twisted TapeBall Spring Matrix
Turbulators
Hastelloy MonelOptional Rifled TubingStainless Steel
AL6XN BrassCarbon Steel CopperCupro-Nickel
Aluminum Aluminum, Copper, Carbon Steel, Stainless Steel
Brass, Stainless Steel Carbon Steel, Stainless Steel
Plate Fin OD: 5mm - 1"
Spiral Wrapped Finned Tube OD: 3/8" - 2"
Wall thicknesses range from .015" to .134"
Corrugated FinFlat Fin Sine Fin
L-Foot Extruded Embedded
Plate Fins & Materials
Spiral Wrapped Fins & Materials
Fin material thickness 0.0039" - .020"
Aluminum
Pre-coated Aluminum
AL6XN
Carbon Steel
Copper
Hastelloy
Stainless Steel
Aluminum
Marine Grade Aluminum
Copper
Stainless Steel - Offered in welded
and edge-tension construction
CoatingsE-CoatHeresiteCoponHot-Dip Galvanized and Others
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Built to all quality systems, except API 661
Low initial cost
Lightweight
Flexible connection locators
Pressures up to 5,150 PSIG
Constructed in a thermal counter flow configuration (regardless of
connection location requirements)
Built to all quality systems / standards
Lower cost than Plug Box construction at high pressure
Ideal for high pressure applications (up to 6,500 PSIG with lower
process flows)
Tube joints can be repaired or sealed off
Accessibility to each individual tube
Slab Head
Built to all quality systems/standards
Accessibility to each individual tube
Tube joints can be repaired or sealed off
Heavy duty construction
Ideal for high fouling services
Pressures up to 5500 PSIG
Built to all quality systems/standards
Provides accessability to every tube, once cover is removed
Tube joinings can be repaired or sealed off
Ideal for high fouling services
Typically utilized for lower pressure services
Bonnets / Removable Covers
Plug BoxPipe & Bend
Header Types
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Unit Configurations
The most common configuration, FD configurations allow for easy
access to all mechanical components supporting maintenance
operations and plant expansions.
Forced Draft
Used to minimize effects of the environment and minimizes the
chances of hot air recirculation.
Induced Draft
This design provides 100% fan redundancy without adding extra
heat transfer surface area and provides a lower cost alternative to the
traditional 2 x 100% specification. This design can be used in any ser-
vice but it is commonly used in lube oil and water service. It is a great
option when addressing the API-614 redundancy requirement.
Push-Pull
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This unit configuration is common in the compression industry and
mounts up against compressor houses. The tube bundles are vertically
mounted, air is drawn across them and then turns 90 degrees discharg-
ing upwards. The design allows for either an engine drive or an electric
motor drive application.
Vertical core coolers are very compact and cost effective. They provide
great flexibility to meet space constraints within challenging environ-
ments, such as fitting in a containerized skid while the process piping
runs directly back to the equipment needing cooling.
J-Units
The V-Core configuration enables maximum cooling in a small space
because of its greater primary surface area. This design works well for
commercial units that are Water/Glycol/Fluid Coolers or Refrigerant
Condensers although it is not limited to these products.
V-Core
Vertical Core
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2610 South 21st StreetPhoenix, AZ 85034
(800) 899-2645
www.superradiatorcoils.com
104 Peavey RoadChaska, MN 55318
(800) 394-2645
2622 South 21st StreetPhoenix, AZ 85034
(800) 899-2645
451 Southlake Blvd. Richmond, VA 23236
(800) 229-2645
COILS / INDUSTRIAL HEAT EXCHANGERS / NUCLEAR PRODUCTS / AIR COOLERS