The Ever-power Wide-Channel / Powder-Type Plate Heat Exchanger is a vertical, gravity-fed pillow-plate unit engineered for Australian chemical, lithium, cement and hazardous-waste facilities. It recovers up to 90% of waste heat from hot powders, granules and flue gas, with 60 bar plate pressure, near-zero dust emissions and easy single-plate maintenance.

Descrizione

Wide-Channel / Powder-Type Plate Heat Exchanger

Built for Harsh, Dust-Laden Process Streams

Traditional shell-and-tube coolers struggle when the medium is a hot solid: clinker, lithium carbonate, PVC powder, catalyst beads, silica sand, soda ash or sugar crystals. They clog, waste floor space and leak heat to the atmosphere. The Ever-power wide-channel plate heat exchanger replaces those legacy units with a vertical, gravity-fed pillow-plate bundle.

Hot material enters the top feed bin, flows downward through straight wide channels, and is cooled by water, glycol or thermal oil running inside the laser-welded pillow plates. Because the channels are straight and wide (typically 18 mm to 80 mm), the exchanger handles powders and granules that would bridge or burn out a spiral plate unit.

Every Ever-power system is sized in our Melbourne-supported engineering office against AS 1210 pressure vessel requirements and shipped as a skid-mounted module ready to bolt into your plant. Full engineering details are available on the Ever-power company page.

Ever-power wide-channel powder-type plate heat exchanger cutaway view showing hot material inlet, pillow plate bundle and cooling water circuit

Key Performance at a Glance

90%

Heat recovery

Energy savings compared with open-air or water-spray cooling.

60 bar

Plate pressure

Working pressure per plate, with burst pressure up to 200 bar.

≤ 500 °C

Inlet temperature

Suitable for hot clinker, catalyst and pyrolysis residue.

< 40%

Footprint

Vertical layout vs. horizontal rotary or fluidised-bed coolers.

Product Features

Product feature icons of the Ever-power powder-type plate heat exchanger including energy savings, near-zero emissions, small footprint and easy maintenance

01Energy savings up to 90% — recovered heat can be pre-heated combustion air or boiler feed water.
02Near-zero fugitive emissions — fully sealed vertical shell, no dust cloud during cooling.
03No product loss, no degradation — gentle gravity flow keeps particle size distribution intact.
04Small footprint, high scalability — add modules on top of each other to lift duty by 2x or 3x.
05Easy maintenance, low OPEX — quick-opening doors, pull-out plate packs, single-plate replacement.

Technical Advantages of the Pillow-Plate Design

Technical advantages of Ever-power wide-channel plate heat exchanger showing pillow plate bundle, dust resistant channels and detachable panels

Every pillow plate is formed by laser welding two stainless-steel sheets (304, 316L or duplex on request) and hydro-forming them so that the internal flow path becomes a 3D pattern of welded spots. This creates the turbulence that drives a high heat-transfer coefficient without forcing us to narrow the gap between plates.

Flue gas or air passes sinusoidally along the outside of the plates. Pressure drop stays below 600 Pa at design flow, a fraction of what a finned-tube economiser would demand. Each plate withstands 60 bar working pressure, with burst pressure exceeding 200 bar — a safety margin that matters in lithium-ion precursor drying and hydrocarbon cracking service.

Heat ExchangeHigh transfer coefficient on both powder and gas side.

Wide Channels18-80 mm gap, dust-resistant, anti-bridging for sticky powders.

Low Pressure DropSinusoidal gas path cuts draft-fan power by 20-40%.

High Plate Strength60 bar working, burst pressure up to 200 bar per plate.

Detachable & CleanHinged cleaning doors, single-plate removal without cranes.

Counter-Flow Heat Transfer Principle

Counter flow heat transfer diagram inside a wide-channel pillow plate heat exchanger for powder cooling

Why true counter-flow matters

Hot powder enters at the top at temperatures up to 500 °C. Cooling water enters at the bottom at roughly 28 °C (typical Australian makeup water). The two media move in opposite directions, so the temperature difference stays almost constant along the full height of the exchanger.

The result: outlet powder temperature can be driven within 10-15 °C of the inlet cooling water, a performance level that fluidised bed coolers simply cannot match. This is the core reason the wide-channel plate heat exchanger keeps improving your overall energy balance year after year.

Technical Specifications

Model	Heat Duty (kW)	Throughput (t/h)	Plate Area (m²)	Channel Gap (mm)	Footprint (m)
EP-WPHE-200	200	2 – 4	40	18 – 25	1.6 x 1.2
EP-WPHE-500	500	5 – 10	95	25 – 40	2.2 x 1.6
EP-WPHE-1000	1000	10 – 20	180	40 – 60	2.8 x 2.2
EP-WPHE-2500	2500	25 – 50	420	50 – 70	3.6 x 2.8
EP-WPHE-5000+	5000 and above	50 – 120	800+	60 – 80	Custom skid

Media: cooling water, glycol, thermal oil or low-pressure steam. Plate materials: SS304 / SS316L / Duplex 2205 / Hastelloy on request. Design code: AS 1210, ASME Section VIII Div.1, PED 2014/68/EU.

Typical Applications in Australian Industry

Lithium & Battery Materials

Cooling lithium carbonate, lithium hydroxide and cathode precursors after calcination in WA and QLD refineries.

Cement & Lime

Clinker cooling replacement of grate coolers, heat recovery to pre-heat secondary combustion air.

Chemical & Polymer

PVC, polyethylene, urea and ammonium nitrate granule cooling without caking or spec drift.

Pharmaceutical & Food

Sugar crystal, skim milk powder and API intermediate cooling with hygienic 316L plates.

Hazardous Waste Centres

Bottom ash and fly ash cooling downstream of rotary kiln incinerators and RTO systems.

Mining & Minerals

Iron ore pellet, alumina and silica sand cooling at integrated processing hubs.

Wide-Channel Plate vs. Traditional Coolers

Parameter	Ever-power Wide-Channel Plate	Rotary Drum Cooler	Fluidised Bed Cooler
Heat Recovery	Up to 90%	30 – 50%	40 – 60%
Dust Emissions	Near zero	High	Very high
Footprint	Compact vertical	Very large horizontal	Large with cyclones
Moving Parts	None	Drum, gearbox, seals	Blowers, distributor
Product Degradation	Negligible	Abrasion & fines	Attrition
Specific Power (kWh/t)	0.8 – 1.5	3 – 6	6 – 12

Why Choose Ever-power

20+ Years

Designing industrial heat recovery and thermal oxidation systems for more than two decades.

600+ Installations

Plate heat exchangers and RTO systems delivered across APAC, Europe and the Americas.

AS 1210 Compliant

Pressure equipment engineered against Australian Standard AS 1210 and third-party witnessed by TÜV or Lloyd’s.

On-Shore Support

Commissioning engineers available AEST business hours, spare plates warehoused for 72-hour dispatch.

In-House Laser Welding

Automated robotic laser welding cells give each pillow plate identical spot geometry and leak-free seams.

Turnkey Scope

From process simulation and HTRI rating to skid fabrication, shipping and site training — one single contract.

Learn more about our engineering organisation on the Ever-power homepage or download our technical brochures.

Australian Project Case Studies

Case 01 — Lithium Hydroxide Plant, Kwinana WA

Challenge: the client was spending AUD 480,000 per year on chilled water to cool 18 t/h of lithium hydroxide monohydrate from 180 °C to 45 °C before packaging. Dust emissions routinely exceeded 35 mg/Nm³.

Solution: an EP-WPHE-1000 wide-channel plate heat exchanger with SS316L pillow plates and a closed cooling water loop. Outcome: outlet powder temperature locked at 42 °C, chilled water consumption dropped 86%, and dust emissions measured under 4 mg/Nm³. Payback: 19 months.

Case 02 — Hazardous Waste Incineration Centre, Laverton North VIC

Challenge: 30 t/day of bottom ash discharged at 420 °C from a rotary kiln incinerator needed rapid cooling to below 80 °C for stabilisation. The existing water-spray quench produced acidic steam and kept operators on constant alert.

Solution: a duplex-steel EP-WPHE-500 module integrated between the kiln discharge and the ash-stabilisation silo. Recovered heat (roughly 420 kW) now pre-heats combustion air feeding the thermal oxidiser. The site eliminated steam plume complaints from neighbouring properties and gained a 6.2% reduction in natural gas consumption.

Frequently Asked Questions

Q1. What particle size range can the wide-channel plate heat exchanger handle?

Typical design covers 0.1 mm to 15 mm granules. For very fine powders (<50 µm) we recommend widening channels to 40-60 mm and adding a vibration-assisted feeder. For coarse material up to 25 mm we deploy an 80 mm gap with reinforced pillow plates.

Q2. How much space do I need for installation?

A 500 kW unit fits within a 2.2 m x 1.6 m floor plate and stands roughly 4.5 m tall including the top feed bin. Because the system is vertical and gravity-fed, it usually slots directly under an existing calciner, dryer or kiln discharge with minimal structural steel work.

Q3. Can it cool sticky or hygroscopic materials?

Yes. Wide channels (40 mm and above) plus optional inlet air-purge lances prevent bridging. For hygroscopic products such as urea or calcium chloride we ship the exchanger with a nitrogen-blanketed feed bin so moisture cannot ingress during start-up or shutdown.

Q4. What is the lead time for delivery to Australia?

Standard skid-mounted units ship within 12-14 weeks ex-works, plus 4-5 weeks sea freight to Melbourne, Sydney, Brisbane, Perth or Adelaide. For urgent replacement of an existing clinker cooler we can expedite to 9 weeks using air-freighted pillow plate bundles.

Q5. How long do the pillow plates last?

Design life is 15 years for abrasive minerals and 20+ years for clean chemical or pharmaceutical powders. Plate thickness is typically 2.0 mm with a corrosion allowance specific to your medium. A single plate can be pulled and replaced in under 4 hours — no crane, no full teardown.

Q6. Is the unit compliant with Australian pressure vessel regulations?

Yes. Every vessel is engineered to AS 1210, registered with the relevant state WorkSafe authority where required, and supplied with full weld inspection records, PMI reports, hydrotest certificates and an IFI data book. ASME Section VIII and PED 2014/68/EU certification is available on request for export projects.

Q7. Can the exchanger be retrofitted into an existing production line?

In most cases yes. The vertical, modular form factor means we can slot it under existing equipment or integrate it as a replacement of a rotary drum cooler or spray tower. Our engineers survey the site, run a thermal-mass balance, and produce retrofit piping and steel drawings within 3 weeks of order.

Request a Free Thermal-Sizing & Quote

Send us your material properties (inlet/outlet temperature, throughput, particle size, bulk density) and a senior process engineer will return a fully sized wide-channel plate heat exchanger proposal within 48 business hours — no obligation.

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Head office: Ever-power Industrial Heat Recovery | Response time: under 8 business hours AEST