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Practical considerations when choosing a ballast water treatment systems

Cost considerations

Cost considerations

As with any new equipment, cost will feature high on the list with upfront capital expenditure likely to be prominent for most operators.

Very few makers quote list prices, so there is a large degree of shopping around to be done. Most attempts to establish a typical system price will fail because of the wide range of sizes needed by different ship types and because of the different technologies used. The cost range has been said to be between $500,000 and $5M but with so many players in the market, competition may well reduce those figures. Installation costs, however, could be inflated for supply and demand reasons, especially in the early retrofit era.

Operators with many vessels could well be able to negotiate deals for multiship installations but factors such as ship type and ballast capacities may mean that a single manufacturer does not have suitable systems for all vessels in a fleet. In the case of newbuildings, prices will tend to be relatively small compared to the final ship price especially if the ship has been designed with installation of a particular system in mind.

In a retrofit situation, the capital cost may be similar but installation costs higher due to modifications needed to other systems in order to create space for the treatment system.

The size of systems should not be underestimated. In order to accommodate the flow rates needed to maintain the time needed for ballasting and deballasting similar to those with no treatment system, the piping, filters and the treatment plant itself are quite large, despite some manufacturers describing systems as ‘compact’.

Operating costs also have to be considered. Regardless of the method of disinfectant, all systems will require pumps just as they always have. In newbuilds, the pumps will be matched to the system requirements from the outset. On existing ships it may be possible to reuse the original ballast pumps to save some of the cost but if the pumps cannot maintain the flow rate demanded by the new system or are deficient in some other way, they may have to be replaced.

The opportunity to explore more efficient alternatives to old pumps that will save running costs should not be overlooked. Power costs are likely to be highest on systems that employ electrolysis or related technologies.

Considering that the systems could well be operating alongside when the ship is relying on harbour generators, the power demand may need to be given a lot of thought. Across the whole range of systems, the power required to treat a ballast flow of 1,000m3/h varies from just a few kW to over 200kW. Most fall within a band from 50kW to 150kW. For UV systems, the cost of replacement lamps may be a small additional outlay over the life of the system, and it is the cost of power for the lamps that is likely to be the biggest running cost.

The costs of consumables for systems that use chemicals for treatment and neutralisation on discharge are likely to be higher than any power requirements those systems may have.

For those that make use of electrochemical or similar methods, the anodes and cathodes will need replacement at some point. In systems that include a filtration step, replacement filter elements also have to be factored in to cost calculations.

In all systems, service and maintenance time is also a factor to consider. Costs will be dependent on the number of ballasting and deballasting operations that are performed. Ships that make small numbers of long voyages will be using the system less than those which run on numerous short voyages.

The issue of cost will be tied in with the value of the vessel in the S&P market. Few potential buyers will want to pay the full asking price for a ship that has no ballast treatment system unless they intend to operate it exclusively in an SRA or if there are shore-based reception and treatment facilities available.

There is also an inherent hidden cost in all systems. There is anecdotal evidence to suggest that in many of the installed systems on both newbuildings and retrofits, breakdowns and malfunctions are not exactly rare occurrences. A report by ABS in 2017 suggested that as many as 40% of systems are defective.

A defective system may result in penalties from PSC or detentions while the system is repaired. In addition, the ballast on board may need to be discharged into a shore reception facility for treatment ashore – a process that is unlikely to be supplied free by port operators.

Safety and operation

Safety and operation

Although ballast systems would not ordinarily appear to present many risks, several of the various treatments available can potentially cause problems if the system malfunctions. Systems relying on electrolysis or electrochlorination will produce hydrogen and chlorine gases as part of the treatment process. Although the systems are designed to safely deal with these gases, some very unusual circumstances might arise under which levels become elevated.

The type-approval process should be robust enough to identify such risks at the design stage and make provision to prevent a problem arising under normal circumstances. This is now a requirement under the new G8 type-approval guideline. Even so, it might be a prudent measure for gas detection devices to be made available for monitoring machinery spaces and for crew obliged to enter ballast tanks or void spaces that might be affected by leaks from the ballast tank.

Some ship types such as tankers may present problems of their own, but several manufacturers have recognised this and are producing explosion-proof versions of their systems. An owner requiring an explosion-proof system will find that there are sufficient models available to be able to select from a number of different technologies.

Area of operation

Area of operation

There are two factors to be considered here; the need for a system to be installed and the water qualities likely to be encountered.

Under the new IMO table agreed in 2017, there is a span of years when systems must be installed dependent on when the IOPP certificate renewal is due. By 2024 at the latest, all ships will be subject to ballast water treatment regulations but presently the only major area with a regulation fully in force is the US. Under the US rules, both US-flagged ships and foreign vessels trading in US waters need to be fitted with a ballast treatment system unless they come under one of the few exemptions allowed.

Ships which operate solely within the waters of a single country may be exempted from installing a system if the flag state so determines. Neighbouring states are free to agree a relaxation of the requirement to fit a system, but none have so far agreed to do this.

From a practical point of view, the salinity of the water taken for ballast and its temperature may cause problems for some systems, particularly those making use of electrolysis or certain chemicals.

Ships trading worldwide may face different problems at any number of ports, so no system may be better than any other, but for ships with a more confined operational range it is sensible to ensure that the system is capable of functioning correctly under the environmental conditions likely to be encountered.

Ships that make very short voyages may find that a UV system that treats ballast during the ballasting operation is a better alternative than one that requires a long tank holding time for chemical treatment to be effective. The question of organism regrowth in vessels on long voyages is one that also needs to be considered.

Installation options

Installation options

Each year of delay in the ratification process of the IMO convention has added thousands of vessels to the 60,000 or so that would have been obliged to retrofit a treatment system under the initially intended programme.

However, the possibility of regional exemptions and the availability of rapidly installed containerised and shore-based treatment system does mean that an as-yet-unknown number of ships will be removed from the fleet needing to be retrofitted. The extension to the IMO schedule agreed in 2018 taken together with potential difficult trading conditions, may mean that some ships which would once have needed to install a system will be scrapped before their particular deadline arrives.

Owners will need to ensure that once the need arises they can arrange to have a system fitted within the timespan allocated to vessels. Some system makers claim that their products can be fitted in very short time spans, but a prudent owner may do well to consider planning an installation schedule sooner rather than later because of the pressure on drydock or yard slots.

Even those system makers who claim a quick installation is possible are often talking about a period of around 10 to 14 days. Such a time span is in excess of the usual time needed for a periodic dry docking, so it may not be possible to install a system during the time when a vessel will be out of service.

Some manufacturers have said that initial work can be done by riding squads but, while this may well be true, the technicians who would make up such riding squads are most likely to be needed for work on ships in dry dock.

Work may sometimes be expedited if a 3D survey is undertaken at an early stage. This permits space constraints to be determined and pipework and system components to be manufactured before work actually begins. If an owner is running a fleet of vessels that are exactly identical, then the same survey can be applied to all identical sister ships in the fleet.

Effect on tank coatings

Effect on tank coatings

Not actually part of any treatment system, but ballast tanks are now required to be coated under IMO regulations. Concerns have been raised over the potential for damage to be caused to tank coatings by chemicals used in the treatment process.

Surprisingly little research has been carried out into the possible extent of such a problem, but some system makers are now testing with different types of coatings and can offer some reassurance to potential buyers.

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