your one stop shop partner for industrial odour and voc abatement systems
Direct oxidation treatment with cold plasma technology collecting particles and droplets containing odour
Ultraviolet light (UV), Scrubbers, Activated Carbon and Filtration for additional odour removal
ModuPlasma® alone will typically reduce odour by up to 90%. With high aerosol content, the ModuPlasma® will be used as an ESP – with a highly efficient collection – as odour is present in the aerosols.
Additional odour treatment can be used if required.
A possible solution can be combining ModuPlasma® with UV, scrubber and activated carbon
Optimize your existing or new ESP system with ModuPower® to improve Particulate Matter collection efficiency
Modularity: each module is 30 kW
Advanced cooling
Simplified maintenance
Remote mounting with cable
Fixed switching frequency 35 kHz
Large range of output ratings
Voltage: fixed per power supply
Current: variable and changeable
Modularity: each module is 30 kW
Advanced cooling
Simplified maintenance
Remote mounting with cable
Fixed switching frequency 35 kHz
Large range of output ratings
Voltage: fixed per power supply
Current: variable and changeable
ModuPlasma® alone will typically reduce odour by up to 90%. With high aerosol content, the ModuPlasma® will be used as an ESP – with a highly efficient collection – as odour is present in the aerosols.
Additional odour treatment can be used if required.
A possible solution can be combining ModuPlasma® with UV, scrubber and activated carbon
Air Flow from Factory
Air Flow from Factory
Exhaust to Atmosphere
Cooling Control Cabinet
SeidPower® Power Supply
ModuPlasma® HD Odour and VOC Treatment
Exhaust to Atmosphere
Exhaust to Atmosphere
ModuPlasma® Odour and VOC Treatment
ModuPlasma® Technology / ModuPower® Technology / Dry coolers / Heat exchangers / Heat Recovery systems / Access & service platforms / Ducting / Manifolds / Fans / Air Valves / Dampers / Chimneys / Stacks / Scrubbers / AC filters / UV systems
Mechanical design / Thermodynamical analysis / CFD simulations / 3D scanning / Support / Training / Documentation / Project management / Odour and chemical measurements / Odour analysis / Pay-off evaluations / System analysis
Inspection / Repair / Supervision / Online support / Remote troubleshooting / Calibration / Testing / Production / Software update / Spareparts
Mapping / Sampling / Administration / Freight Sourcing / Vast experience in international logistical procedures / Storing
Voltage regulation / Current limiting / Ripple and noise filtering / Spark protection / Regulatory observance / Remote operation / Air flow measurement and adjustments
Energy source:
Process exhaust gas
Direct savings:
Low system pressure drop
High efficient fans
Use of recovered energy:
To the process(on the intake side) = preheating of the process air
Directing to other needs = heating of ventilation air and building heating
Combination of above
The waste energy from the systems is used to heat up the liquid. Then energy can be transported to other place, for relatively long distance, where can be used (to heat the air or proceed water)
Advantages:
As liquids based on water are good energy carriers – the piping system has small diameter, and the energy can be transported to long distances. Coils used to transfer the heat between liquid and air can be produced in many different sizes, executions and materials
Based on plate heat exchangers. In this system both air streams must be led to one spot, where the plate heat exchanger is placed. The system has high efficiency and does not need water piping systems (with pumps, valves etc).
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