Scrubber technology must meet challenges of lifecycle costs and durability

Bunkering, Emissions, Environment, Insight, Marine Equipment Products and Services, Pollution, Technology — By on May 30, 2018 at 11:20 PM

Neil Anderson, Director of Marine Technologies at LAB.

Notion that scrubbers, are large, alloy units that are hard to install, maintain, and recycle needs to evolve, says manufacturer

PARIS – 30 May 2018 – Global market-leader in flue gas treatment and desulphurisation, LAB, part of the CNIM Group, today challenged the shipping industry to consider lifecycle costs, including the cost of repairs, maintenance, and shipyard time, as part of the analysis when selecting exhaust gas cleaning, or scrubber, technology.
 
While the majority of scrubbers in use today are constructed from high-end alloys there have been reports in the market of corrosion on some marine scrubber units. LAB has pushed the boundaries of flue gas treatment by developing a composite scrubber – available in open, closed or hybrid format – as an alternative to its range of alloy units; providing customers with genuine choice and removing the risk of corrosion.

Significantly, LAB’s composite units – rigorously proven over the past three years with thousands of hours of operational service onboard Brittany Ferries MS Mont Saint-Michel – avoid the potential for unscheduled repair and downtime, together with associated yard costs and the loss of commercial opportunities while the vessel is out of service.

Neil Anderson, Director of Marine Technologies, LAB, commented: “With the prime focus understandably on the economics, and the potential financial advantage to be gained from continuing to burn less expensive heavy fuel oil (HFO) instead of the costlier, low sulphur fuel, discussion around the practicalities of design and installation has been muted. However, for those considering scrubbers, it is important to understand the available options in terms of design and materials.”

As well as removing the risk of corrosion, LAB’s DeepBlueLAB SOx™ composite units can be located on deck or around the funnel area, making it easier to install and maintain. Moreover, all engines and the vessel’s boiler can be linked to one scrubber unit, meaning there is less complex piping for installation. The composite material is 20-30% lighter than a similar version made from high-end alloys, reducing load at sea and reducing fuel consumption, while also allowing for a more cost-effective and environmentally friendly recycling processes.

Anderson continued: “While scrubbers do not represent a single solution for the whole of the merchant fleet, for many ship owners, operators and cargo owners it is a viable and commercially compelling option. While there is a tendency to look at scrubber technology as a one-off capital expenditure, it’s essential that the whole life cycle costs are properly considered.”

The corrosion-resistant properties of the composite material makes it a robust and durable long-term solution, while its location can allow for increased accessibility and improved maintenance. The advantages are enhanced further by knowing that the composite unit also allows for more cost-effective and environmentally friendly recycling processes.

The DeepBlueLAB SOx™ scrubber is the only system in the market that can be manufactured in either composite or high-end alloys and available as an inline, offline or multi-streaming solution. Although inline systems can only be fitted to one engine, offline multi-streaming solutions offer greater flexibility as they ensure that the scrubber can treat multiple engines, including auxiliary engines and boilers.

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