Sewage
pollution control was the first environmental initiative in history.
Technologies and regulations for the land-based wastewater industries have been
evolving for more than a century, bringing tangible improvements to our aqua
environment.
Rules
The
IMO’s MARPOL Annex IV Convention, which aims at achieving the ‘Prevention of
pollution by sewage from ships’, was developed in the 1970s, and entered into
force since 2003. It contains a set of regulations prohibiting sewage discharge
from ships, unless via an approved sewage treatment plant (STP), via a
comminuting and disinfecting unit (CDU) at a distance of more than 3nm from the
nearest land, or to the open sea (> 12nm) while en-route at not less than 4
knots. Sewage can also be offloaded to port reception facilities (PRFs). Although
the USA is not a signatory country, USCG rules are somewhat similar, with an
STP being referred to as a Marine Sanitation Device (MSD).
Discharging
sewage to the open sea is simple and free, but it entails extra storage tanks,
reduced flexibilities, and it implies a somewhat negative image for the
shipping line. CDU’s are primitive and rarely employed by ships sailing
internationally. The harmful by-products from CDU’s have also prompted further
reviews (MEPC 71/14/2). Sewage PRFs have gained regional attention, but issues
such as availability, adequacy, and fee structures have hindered their
widespread adoption. It is easy to see, therefore, that STP’s have proven to be
the popular option.
The
Marine Environmental Protection Committee (MEPC) has developed Guidelines on
STP effluent standards and performance test specifications (Table 1).
The
effluent standards are ambitious compared to those of equivalent coastal
discharges ashore. For example, in the Baltic Sea, a ship with 12 passengers is
given a Total Nitrogen (TN) target that is the equivalent of a town of >
10,000 people. In addition, sewage from ships can be far more concentrated that
from ashore. A better-informed wastewater industry might consider this target
to be neither viable nor beneficial.
At
the same time, there is no shortage of approved STPs that are low-cost and
‘care-free’. The marine industry seems to cope swimmingly with what are
seemingly impossible targets for other industries. The MEPC has tightened the
effluent standards twice in 10 years, in the meantime, STPs often became
smaller and cheaper. Why not then tighten the limits further? The sky is the
limit.
Realities
Here
is the catch. Unlike regulations ashore, MARPOL Annex IV has no compliance
monitoring, and no enforcement protocols. How the STP is actually functioning,
no one knows, nor needs to know. In fact, Annex IV does not request operational
STPs on board to meet any concentration limits.
Curiosity,
however, reveals the facts. By year 2000, Alaskan regulators sampled 23 cruise
ships. They were not impressed with what they found. Since 2001, they also
surveyed 5 to 17 small ships each year, a sector plagued with MSDs using sea
water for dilution. The Netherlands has taken samples from some 120 merchant
ships since 2012. Pollutants such as suspended solids and Faecal Coliforms
often exceeded their limits by 10 and 10,000 times respectively. These ships
were ‘discharging virtually untreated sewage’ (MEPC 71/INF.22). Washington State in the USA petitioned
to designate Puget Sound a no-discharge-zone (NDZ), including treated sewage
from MSDs. The reality is clear, and it is not pretty. MARPOL Annex IV has not
been effective.
In
the absence of effective enforcement, while the marine sewage rules are
becoming ever more restrictive, the gap between rules and realities is
widening. The worst is still to come.
Non-conformities
With
MEPC Guidelines in place, one would hope that STP performance tests actually
conform to the specifications, so that consistencies are assured. After seeing
a few examples, however, one may be excused for feeling disappointed.
Grey water connection to disinfection stage
Incentivised
by the Classification Societies’ green notations, many ship owners have taken
the initiative to treat grey water, even if this is not required by the IMO.
The STP should be suitably sized in order for grey water to receive the same
treatment as sewage. However, some STPs connect grey water to the last
disinfection stage (Figure 4), giving a higher Qe than Qi, and yet STP
certificates state that the Qi/Qe factor = 1. This means there is
non-conformity.
Such
STPs gain a commercial advantage by ‘treating’ grey water without increasing
their sizing. The approved disinfection contact time is invalidated. Grey water
pollution is disguised as STP effluent, thus causing poor performance. In an
ironic twist, many new ships are awarded for carrying this non-conformity.
STP recirculation during a performance test
MEPC.227(64)
requires STP influent to represent raw sewage, and prohibits recirculates
generated from the STP to be returned to its influent. Otherwise, the influent
no longer represents raw sewage, and the STP’s capacity would be overrated.
Yet, some conformity assessment bodies have approved precisely these STPs.
In
racing to the lowest level of functionalities and cost, some approved STPs do
not even conform to basic environmental science and engineering principles.
Chlorination disinfection without de-chlorination
Chlorination
relies on a time-concentration relationship, which has for decades been well
understood and documented. With a typical contact time of 30 minutes, a
chlorine dose of 5-15 mg/l can effectively disinfect biologically treated
effluent (Wastewater Engineering Treatment and Reuse, 4th edition, Metcalf
& Eddy). For this concentration to be reduced to below the 0.5 mg/l limit,
a de-chlorination step is a must. Yet, the de-chlorination step is absent in
some chlorine-based STPs. Considering that almost all chlorine-based BWMS
incorporate a de-chlorination step for less arduous disinfection duty, the
inconsistencies between approvals for STPs and BWMS are beyond comprehension.
‘No-sludge’ production
Some
STPs do not have provisions to discharge sewage sludge. Such ‘no-sludge’ claim
does not conform to environmental science, and is simply untrue. One such STP
was even certified to remove Total Phosphorus (TP), in which case the ‘removed’
TP has to disappear into nowhere. Such magic boxes will never be compliant, no
matter how they are operated or maintained. Most ‘no-sludge’ STPs use seawater,
and the demand has been fuelled by certain sectors of the marine industry which
benefit from this claim.
These
non-conformities and magic boxes have found their ways into new ships in their
hundreds. The credibility and accountability of the approval regime is at
stake.
Silver lining
Having
seen the realities, Alaska regulators took actions starting in the early 2000s.
They introduced new rules and the Commercial Passenger Vessel Environmental
Compliance (CPVEC) program to the large cruise ships trading in Alaska water
each year. Grey water, being more polluted than sewage, was also brought under
the same rules. Some vendors, including Wartsila Water Systems Ltd, developed a
new generation of technologies known as Advanced Wastewater Treatment Systems
(AWTS). AWTS carry the same certificates as STPs/MSDs do, but differ from them
in that the ships’ discharges are sampled and monitored under CPVEC, with the
results published in the public domain (data series 4 of Figure 2). The success
of this program has been praised by all stakeholders, in particular by the
cruise industry.
Alaska
waters remain to this day as the only marine environment in the world whereby
enforcement is not only in place, but is also effective.
The way forward
During
MEPC 71, under pressure from Norway and the Netherlands, the Committee agreed
to address inconsistencies in the application of its sewage Guidelines and
‘mal-functioning’ STPs. However, enforcement of the environmental regulations -
as has happened in Alaska and the rest of our society - is still out of reach
for MARPOL Annex IV. It has a long way to go.
Nevertheless,
improving the sewage Guidelines can still be a very positive and significant
step. It may be important to introduce process monitoring requirements,
including on-line monitoring for STP effluent turbidity and effluent flow
rates. This would provide good visibilities for the marine industry to get a
handle on sewage pollution control. Such visibilities could pave the way for a
future regulatory framework capable of closing the gap between the rules and
the realities, that will be evidence based, practicable, and sustainable.
However,
improving the Guidelines is meaningful only when they are conformed to.
Non-conformities cause inconsistencies and poor performance status. To
understand the root causes is essential in order to prevent reoccurring. To
address these non-conformities is critical, even though the issue may be thorny
since they are already approved by the conformity assessment bodies. But
without corrective actions, tougher Guidelines would merely incentivise more
non-conformities, in particular on new build ships.
At
present, ship owners and yards have vessels carrying non-conformities and poor
STP performance status. At the same time, the conformity assessment bodies
burden themselves with these magic boxes that can be easily challenged,
equipment vendors continue their race to the lowest levels of functionalities
and cost, and regulators end up with regulations that are not effective. Most
importantly, the marine environment continues to be polluted by discharges of
sewage from ships under the IMO’s type approval regime. No one wins. While
improving the Guidelines is a constructive step, ultimately effective
enforcement is the key to making MARPOL Annex IV a win-win for all. And only
the collective efforts of the Member States can make it happen.
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