Product and Solutions

LHEBloc — Welded Plate and Frame Heat Exchanger

High-efficiency, gasket-free plate and frame heat exchanger for aggressive fluids, high pressures, and extreme temperatures.

The LHEBloc delivers high thermal efficiency with a compact, fully welded construction.

Whether you’re working with corrosive fluids, high pressure, or extreme temperature swings, it’s built to keep performance stable and service simple.

Welded for reliability under pressure

The LHEBloc uses a fully welded plate pack that eliminates rubber gaskets — unlocking higher pressure and temperature capabilities. Each heat plate pair is laser welded for strength, chemical resistance, and leak-free operation over long cycles.

It’s ideal for systems where gasketed exchangers aren’t suitable — such as amine units, hydrocarbons, or sour service duties.

Compact strength with engineered flexibility

Inside a rigid rectangular frame, a high-density welded plate pack is supported by stainless or alloy-lined panels, baffles (detachable or fixed), and support columns that can be customized for layout or media.

From flow path configuration to plate material selection, each heat exchanger is engineered for your process — balancing heat transfer area, layout constraints, and operating pressure.

Efficient thermal exchange through thin plates

Hot fluids (Side A) and cold fluids (Side B) flow through alternating spiral channels, separated by thin, fully welded plates. This creates a large surface area in a compact space.

Thanks to this design, the LHEBloc Welded Plate and Frame Heat Exchanger achieves high heat transfer efficiency with a small footprint.

Built-in strengths for demanding conditions

Thermal efficiency at low flow

Corrugated plates generate strong turbulence, even under low velocity. The result is high thermal performance and up to 4~5 times better efficiency than traditional shell-and-tube exchangers.

High pressure resistance

The fully welded design withstands pressures up to 35 bar. Perfect for demanding gas, hydrocarbon, or utility systems.

Handles extreme temperatures

With no gaskets in the flow path, the LHEBloc can operate at temperatures up to 350 °C without risking seal failure.

Cost-effective by design

The compact layout reduces weight, footprint, and capital cost. And with no gaskets to replace, service is simpler and cheaper over time.

Design details & customization options

Each LHEBloc is configured to fit your thermal and mechanical requirements.

Plate pack: Laser-welded pairs with end-to-end sealing.
Frame: Rigid carbon steel body with customizable lining (e.g. stainless steel, titanium).
Flow control: Optional welded or removable baffles in both channels.
Mounting: Designed for easy installation and integration into your system.

LHEBloc Models - LB030

No. of Plate	Area (m²)	Weight (kg)	Nozzle size (ND)	Flow rate (m³/h)
60	6.6	750	150A	400
80	8.8	930	150A	400
100	11	1 130	150A	400
130	14.3	1 360	150A	400
160	17.6	1 660	150A	400
180	19.8	1 900	150A	400
200	22	2 070	150A	400

LHEBloc Models - LB050

No. of Plate	Area (m²)	Weight (kg)	Nozzle size (ND)	Flow rate (m³/h)
100	26	2 690	300A	1 750
150	39	3 610	300A	1 750
200	52	4 650	300A	1 750
250	65	5 450	300A	1 750
300	78	6 450	300A	1 750

LHEBloc Models - LB075

No. of Plate	Area (m²)	Weight (kg)	Nozzle size (ND)	Flow rate (m³/h)
150	97.5	8 860	500A	4 900
200	130	11 150	500A	4 900
250	162.5	13 420	500A	4 900
300	195	15 170	500A	4 900
350	227.5	17 320	500A	4 900
400	260	19 560	500A	4 900
450	292.5	21 410	500A	4 900

LHEBloc Models - LB120

No. of Plate	Area (m²)	Weight (kg)	Nozzle size (ND)	Flow rate (m³/h)
150	259.5	20 000	600A	7 100
200	346	25 000	800A	12 500
250	432.5	30 600	1000A	19 500
300	605.5	42 200	1000A	19 500
400	692	48 000	1000A	19 500
450	778.5	54 100	1000A	19 500
500	865	58900	1000A	19500

Reliable performance, wherever it’s installed

Oil & Gas

Gas dehydration heat recovery
Amine system cooling, condensation, and reboiling
Crude oil desalting and dehydration
Vapor recovery condensation

Refining

Condensers for FCCs, hydrocrackers, H₂S strippers
Reboilers in alkylation and NGL plants
Steam generation for process heating
Product stream heating and pump-around cooling
Heavy product heating (bitumen, VGO)
Crude oil preheating

Hydrocarbon Process Industry

Heating, cooling, and reboiling in:

Primaries: olefins, aromatics, aldehydes, acids, ethers, esters, ketones, and halogens
Intermediates: acrolein, acrylic acid and acrylates, acrylonitrile, and adipic compounds
Polymers: polyethylene, polypropylene, polystyrene, and related resins

Fertilizer Production

Cooling of nitrogen gas streams
CO₂ gas cooling during synthesis processes
Heat recovery and re-boiling in ammonia stripping columns

HVAC, District Heating, Utilities

Hot water production
Steam network integration
Waste heat recovery in utility loops