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888 Xingye Ave, Old Siping Industrial Park, Changtu, Liaoning, China

HYBRID HEAT, ENGINEERED TO ENDURE.

High-Efficiency Hybrid Heat Exchanger
Solution Provider

Compact footprint. Engineered for high-temperature, high-pressure service.

Teplaron — Hybrid Heat, Engineered to Endure.

High-Efficiency Hybrid Heat Exchanger
Solution Provider

SINCE 2012

About Teplaron

Teplaron is a high-efficiency hybrid heat exchanger solution provider. Our core product is the hybrid heat exchanger group: Plate-and-tube power, compact size, high-temp and high-pressure ready. We serve industry and buildings. Our company holds recognized quality and safety certifications.

About Teplaron

TWO DESIGNS, ONE SOLUTION

Why Hybrid Heat?

A hybrid plate-and-tube heat exchanger combines two strengths. The plate side delivers high heat transfer. The tube bundle handles high temperature, high pressure, and dirty fluids. For the same duty, the unit is more compact, has lower pressure drop, and is easier to service. On the hot and fouling side, the tubes resist clogging and stress. Maintenance intervals are longer.

Teplaron focuses on hybrid solutions. We serve industrial and building applications. Our team covers thermal design, selection, manufacturing, delivery, and after-sales support. We help you balance footprint, energy use, and total cost of ownership.

Key Benefits

  • High efficiency on the plate side; high reliability on the tube side.
  • Suitable for high-temperature, high-pressure, solids-bearing, or scaling media.
  • Compact layout with CIP capability and fast disassembly.
  • Broad material options: 304/316L, duplex stainless, nickel alloys, titanium.
See hybrid heat products

PLATE MEETS TUBE FOR MAXIMUM EFFICIENCY

How the Hybrid Works

Plate Side — High-Efficiency Heat Transfer

The plate side maximizes heat transfer with a compact design, reducing the heat exchange area and volume. It efficiently handles clean or pre-treated media, minimizing pressure drop and boosting heat transfer efficiency.

Tube Side — High-Pressure, High-Temperature Durability

The tube bundle is designed to handle high-pressure, high-temperature, and fouling media, reducing clogging and stress. It effectively resists scale and debris buildup, ensuring longer service intervals and reliability in harsh conditions.

Maintainability — Easy Cleaning and Inspection

Our hybrid exchangers are easy to service, featuring CIP (Clean-in-Place) capability and quick disassembly for inspection and maintenance. These features reduce downtime and enhance system reliability.

Steam-Water & Plate-Tube Hybrid Heat Exchanger Cross-Section

Steam-Water & Plate-Tube Hybrid Heat Exchanger Cross-Section

Learn how the hybrid works

CHOOSE BY STRUCTURE & DUTY

Product Families

Hybrid Plate-and-Tube Heat Exchangers

High-U plate pack; tube bundle for high-temp/pressure and fouling duty.

View hybrid series
View hybrid skid packages
  • Gasketed Plate
  • Semi-Welded Plate
  • Welded / Plate & Shell
  • Brazed Plate (BPHE)
  • Shell & Tube
  • Air / Oil & Finned-Tube
  • Spiral & Double-Pipe
  • Systems & Skids

OPTIMIZED HEAT EXCHANGE SOLUTIONS BY INDUSTRY

Industries Serve

Chemicals & Fine Chemicals

High temperature, high pressure, and corrosive media, with a focus on fouling resistance and material compatibility.

Power & Waste Heat Recovery (WHR)

Boilers, economizers, and flue gas heat recovery, focusing on footprint reduction and pressure drop control.

Building & HVAC

Combining plate and hybrid exchangers for higher heat transfer density and easier operation and maintenance.

Data Centers & Room Cooling

Stable heat transfer performance with low noise and energy-efficient operation.

Food & Beverage

Clean media and CIP-friendly design, with a focus on hygiene and traceability.

Pulp & Paper

Preventing clogging and fouling in high-solid, scaling media, with cleanable designs.

Biopharmaceuticals

Material compatibility, surface quality, and comprehensive validation documentation.

Offshore & Marine

Corrosion-resistant materials and structural protection for salt mist and seawater conditions.

Renewable Energy

Efficient heat exchangers for solar, geothermal, and wind energy applications, maximizing energy conversion and system performance.

View full industries

TAILORED TO YOUR PROCESS

Case Studies

One station, two services. District heating and domestic hot water share one source and one makeup system. We used a hybrid plate-and-tube exchanger for high-U plate performance with a cleanable tube bundle for steam/dirty duty. The package ships as a hybrid skid with pumps, control valves, strainers, and CIP ports. Primary at 110 °C; secondary 75/60 °C; duty about 1.07 MW for heating plus 0.75 MW for DHW. A single, sensor-controlled makeup pump serves both loops, cutting footprint and install time while extending service intervals.
Combined Heating & DHW — Hybrid Station
Building & HVAC — Hybrid Station: Steam-to-water hybrid skid for heating + DHW; one source, one makeup, compact footprint.
Duty: 1.2 MW sensible heat recovery from clean-to-moderate contaminated liquid streams. Solution: Hybrid plate-and-tube exchanger with a cleanable tube bundle for effective heat transfer. The system integrates a hybrid skid package featuring CIP (Clean-in-Place) capabilities, pumps, strainers, and control valves. Materials: Stainless steel 304/316L for the plates; the tube bundle is designed for cleaning and maintaining low pressure drops. Result: Extended cleaning cycles (6–9 months between CIP), reduced downtime, and improved system reliability. The compact hybrid skid design also minimized the installation footprint by 40%.
Pharmaceutical & Chemicals — Hybrid Heat Exchanger
Pharmaceutical & Chemicals — Hybrid Heat Exchanger: CIP-friendly hybrid skid with a plate-and-tube exchanger for high-efficiency heat transfer in chemical and pharmaceutical applications.
Duty: 1.5 MW thermal recovery from industrial waste heat, primarily from high-temperature exhaust gases. Solution: Hybrid plate-and-tube heat exchanger utilized for high-efficiency recovery of thermal energy from hot exhaust gases. A fully integrated hybrid skid houses the entire system, including control valves, pumps, strainers, and CIP ports, reducing installation complexity. Result: Achieved 20% energy savings on operating costs by recovering heat from exhaust gas; improved serviceability with enhanced filtration and faster cleaning cycles.
Industrial Plants — Hybrid Skid Package
Industrial Plants — Hybrid Skid: Compact hybrid skid for thermal recovery from exhaust gases; one source, one makeup, cost-efficient operation.
Read full cases

SPEC • QUOTE • SUPPORT

Sizing & Selection

① Upload Specs

Media pair, Tin/Tout (hot & cold), flow, allowable ΔP per side, viscosity/solids, corrosion/fouling notes.

② Constraints

Design temp/pressure, materials, connection standard (ASME/DIN/GB), footprint & service clearances, duty or ΔT target.

③ Deliverables

Thermal datasheet, selection rationale, outline drawing with nozzle table, BOM & control options.

Files are confidential. NDA on request. Accepted: PDF, DWG/DXF, XLS/XLSX, JPG/PNG.

By submitting, you agree to the Teplaron Confidential Information Collection Agreement.

BUILT ON PROCESS AND PROOF

Factory & Quality

Process-controlled production with full traceability. Hybrid plate-and-tube skids assembled in dedicated lines. Key steps are documented, from plate stack and tube headers to final assembly and cleaning. A standard QA dossier ships with every unit.

Watch Factory Videos

ENGINEERING NOTES & CASE STUDIES

Teplaron Insights

Real-world lessons from design and field service. We share hybrid selection tips, fouling control, retrofit checklists, and case studies with numbers you can use.

View full blogs
+86 18751565869 +86 18751565869 [email protected]
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