While the carbon-vacuum technology is a relatively old and well-known technology for hydrocarbon removal, the design and implementation of it is still vital for achieving a well-functioning VRU. It requires lots of experience and know-how within the field to ensure correct sizing, functionality and lifetime of the VRU for the required purpose. In Cool Sorption, we have more than 20 years of experience designing and building VRUs based on the carbon-vacuum technology, and have built more than 250 VRUs based on this technology worldwide.

We are known for our well-designed and well-functioning VRUs, demonstrating top-of-the-class availability (>98%) and lifetime (generally 25+ years). This is achieved through a range of unique features implemented based on our extensive experience

Advanced Vacuum Control

Advanced Vacuum Control for Minimal Power Consumption

In Cool Sorption, we use a highly efficient vacuum system with low pressure loss in the suction lines as well as an advanced and well-tested control system. Both ensure maximum suction during evacuation and regeneration, thus minimising the power consumption.

ActivatedCarbon

High Duty & Long Life Activated Carbon

Our mineral based, activated carbon is extremely high duty with excellent adsorption and regenerative properties. The extremely open pored structure increases the lifetime compared to more traditional carbon. Our carbon is pelletized, giving much higher physical stability than granular carbon, thus minimising dust tendency and giving long lifetime of the carbon. To Learn more about activated carbon and how optimal performance is ensured, click here to read our article in Tank Storage Magasine.

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Optimal Carbon Bed Design

An advanced hold down arrangement on top of the activated carbon prevents movement of the bed during equalization. The formation of dust from friction as well as uneven distribution of the activated carbon is thereby prevented, which would otherwise have resulted in a lower actual capacity of the unit.

ButterflyValveDanaisKSB3

Dedicated System for Pressure Equalisation

A unique, but simple equalisation system with separate equalisation valves gives a very well defined equalisation flow compared to other systems where equalisation is done using a very small opening of the normal vapour inlet valve to the carbon bed. These separate equalisation valves gives a more well controlled equalisation flow, which minimises friction on the activated carbon and thus lower dust formation and increased coal lifetime.

Rotary Vane Pump

Dry Vacuum Pumps

The use of highly efficient and reliable rotary vane vacuum pumps results in a 25-30% lower power consumption than traditional liquid ring pumps, as well as no glycol waste disposal concerns, a simpler piping system and simplified maintenance. The rotary vane pump is also much more robust and easy to operate correctly than the screw pump and has a much lower investment cost, making the rotary vane pump the preferred choice both economically and functionally. Read more about our choice of vacuum pump here.

Depot Series

No Ladders or Platforms for DS-Series

For our DS-seriesTM, all valves are located at skid level, eliminating the need for ladders and platforms to the top of the carbon beds. This reduces both installation time and price. It also improves the access and safety for operators and maintenance teams, as all activities can be conducted from ground level.

SamsonControlValve42-36b

Absorber Flow Control for Uneven Absorbent Conditions

An automatic flow control valve compensates any instability in the absorbent supply to the unit. This allows our clients to have a wide range of pressure conditions at the absorber inlet without worrying about affecting the absorption process.

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Zero Pressure Loss

An extraction fan at the AC vessel outlet compensates for all pressure losses in the VRU system, avoiding overpressure in the system and often reducing the necessary vapour inlet pipe size. In most cases, the extraction fan excludes the need for a certified Zone 0 vapour transport blower in the vapour header.

OperatingSystem

Remote Access from Cool Sorption’s Maintenance Centres

The operator PC can be connected via secure modem to Cool Sorption service department for easy diagnostics of any problems which might occur.

PressureVessels

Safe VRU Design Pressure

Although the VRU operates at close to atmospheric conditions, an extra degree of safety is built in by designing all pressure vessels and piping to withstand higher pressures. All vessels are tested at a minimum of 10 barg, and are supplied with material certificates, and all piping is hydraulically tested to 13 barg. This makes the VRU able to withstand high internal pressure, ensuring optimal safety even in the highly improbable case of a runaway temperature increase in the activated carbon beds. There have been no recorded incidents for Cool Sorption VRUs in over 20 years, and none of the VRUs built by Cool Sorption has ever experienced any kind of explosion or uncontrollable temperature increase in the activated carbon beds!

HAZOP3

Safe design, Documented in a Hazard and Operability Study (HAZOP)

Cool Sorption is able to offer a complete HAZOP study or qualified assistance in HAZOP sessions, covering the VRU itself and all related vapour and absorbent systems.

Service_Maintenance

Service and Maintenance Agreements

Cool Sorption has a long tradition of contractual maintenance agreements of many different types, ranging from planned, preventive maintenance to the total responsibility of the VRU operation, often in cooperation with local partners. About 75% of all installed Cool Sorption units are covered by a service agreement. To read more about our service and maintenance options, click here.

3DModel

Highly Advanced Design Tools

At Cool Sorption, we use a mix of self-developed programs and industrial software to accurately design the unit: CAD for 3D plant design, process simulation software for overall plant design and specialised software for absorber column and activated carbon bed design.

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Standard Energy Saving Mode

All our units has the option of using a highly advanced energy saving mode, utilising loading signal and VOC measurement at vent outlet to control the system in order to strongly reduce energy consumption during low operational activities.

TrippleCleanedCarbon

Triple-Cleaned Activated Carbon and Laboratory Test of Activated Carbon

All our activated carbon is triple cleaned by the supplier in order to minimise the dust content of the carbon filled into the carbon filters. We also test a sample of all purchased activated carbon in order to ascertain correct capacity, mechanical strength and dust content of the carbon. This ensures the expected high quality of the loaded carbon and prevents expensive maintenance and downtime later in case of dust in the system or too high hydrocarbon emission.

DraeagerPolytron8700

VOC Emission Measurement

All Cool Sorption VRUs are supplied with VOC measurement system at vent outlet for continuous emission control and logging. Optional measurement of CO in the vent outlet is also possible.

Terminal Series

Proprietary 3-Bed Solution for TS-Series

Our TS-series is designed with our proprietary carbon bed adsorber design configuration, utilizing three carbon beds. This unique configuration offers the following distinct advantages compared to the traditional 2-bed VRU:

  • Reduced pressure drop through the carbon beds, thereby providing a lower overall pressure drop through the three-bed VRU compared to the conventional 2-bed configuration.
  • Smaller Carbon Bed vessels required, thereby reducing the unit fabrication price and allowing for easier transport, handling and installation of the vessels.
  • Reduced overall activated carbon volume required, thereby decreasing consumption of carbon.
  • Smaller diameter inlet and vent vapour piping required, thereby decreasing piping and component costs and allowing for easier handling of these components.
  • First stage of carbon bed depressurisation at the start of regeneration is performed by internal equalisation with the newly regenerated carbon bed still under vacuum. As a result, the volume of air entering the system during equalisation and purge phases is minimised, allowing for more efficient vacuum pump utilization and reduction of power requirements.
  • Reduced internal recycle of hydrocarbon
  • Reduced overall power consumption