One of numerous possible ways to comply with the IMO’s strategy on the reduction of greenhouse gas (GHG) emissions from ships is to use biofuels or biofuel blends. This statutory news aims to clarify the regulatory status and other considerations on the use of these new fuels.
Relevant for ship owners and managers as well as yards, design offices, suppliers and flag states.
DNV GL has received many requests regarding safe operation and how to comply with international regulations for the use of biofuels and/or biofuel blends. Below is a summary of regulatory issues, safety, and other operational aspects:
1. Types of biofuel
Regulatory items on biofuels to be observed
MARPOL Annex VI Regulation 18, “Fuel Oil Availability and Qualities”, applies to using both fuels derived from petroleum refining and derived by methods other than petroleum refining*, e.g. biodiesel. In the latter case, the fuel shall, among others, not exceed the applicable sulphur content. Moreover, such fuels shall not cause an engine to exceed the applicable NOx emission limits. Meeting the sulphur limits is normally not a challenge for biofuels, however the NOx emissions might be higher than with fossil diesel oils, due to possibly high oxygen content.
To meet the requirements of MARPOL Annex VI, evidence must be made to confirm that the diesel engine complies with the applicable NOx emission limits (which depend on the keel laying date of the vessel and the operational area) also when biofuels are used for combustion purposes. To demonstrate this, depending on the biofuel used, the evidence may be a challenge and it may require on-board emission testing where the results should be presented in g/kWh (not only concentrations in ppm). Due to the complexity of the required tests, DNV GL recommends performing the emission tests on stationary test beds.
In case test bed measurements cannot be made, and on-board tests must be performed, an application for exemption from Regulation 18 of MARPOL Annex VI is required. An application format can be found in MARPOL Annex VI Regulation 3: “Trials for Ship Emission Reduction and Control Technology Research”. Exemptions for the testing of the biofuels can be granted up to 18 months for smaller engines, up to five years for larger engines with cylinder displacements over 30 litres. DNV GL can assist you in approaching the flag administrations for applying such exemptions.
As an alternative to the measurements, and in case it can be proven by either analysis or reference to a known international standard that the emission properties of the biofuel are equivalent to that of conventional diesel, this evidence might act as proof that the biofuel does not cause the engine to exceed the applicable NOx emission limits.
If additional alterations, which are beyond the limits in the approved NOx Technical File, the engine(s) are required to optimize the combustion when using the biofuel, and the NOx Technical File needs to be formally amended.
Technical challenges and solutions
Below is a summary of items to be observed for the use of biofuels and a few words on how to prevent damages on board:
- Microbial growth: Bacteria and mould may grow if condensed water accumulates in biodiesel fuel. Microbial growth leads to excessive formation of sludge, clogged filters and piping. Frequent draining of tanks and the application of biocide in the fuel may reduce or mitigate microbial growth.
- Oxygen degradation: Biodiesel can degrade over time, forming contaminants of polymers, and other insolubles. Deposits in piping and engines could form, compromising operational performance. In advanced stages, this could lead to increased fuel acidity, which could result in corrosion in the fuel system and accumulation of deposits in pumps and injectors. It is therefore recommended not to bunker the fuel for long-term storage before use, but to treat the fuel as fresh goods and to use it within a relatively short period of time. Adding antioxidants to the fuel at an early stage may improve the ability of a somewhat longer time of storage without degradation.
- Low temperature: Biodiesels in higher concentration usually have a higher cloud point than diesel (depending on feedstock), leading to poor flow properties and the clogging of filters at lower temperatures. It is therefore important to know the product’s cold flow properties and to keep the storage and transfer temperatures above the cloud point.
- Corrosion: This is most critical for biodiesel in higher concentration (B80-B100). Some types of hoses and gaskets could degrade, leading to loss of integrity and interaction with some metallic material such as copper, brass, lead, tin, zinc, etc. It could also result in an increased formation of deposits. Hence, it is important to verify that these components in the fuel system are endurable and can be used together with biofuel.
- Possible degeneration of rubber sealings, gaskets and hoses: It is important to verify that these components in the fuel system are endurable and can be used together with biofuel.
- Conversion: Biodiesel has shown to have a solvent property, so when switching from diesel to biofuel it is expected that deposits in the fuel system will be flushed, clogging fuel filters. It is recommended to flush the system and/or to monitor filters during this period.
DNV GL support
DNV GL provides support for the supervision using the specific biofuel on the main and auxiliary engines. Depending on your individual needs, we offer the following services:
- Review of specific instructions and risk analysis for the trials with biofuels.
- Review of a verification procedure to comply with MARPOL Annex VI, Reg. 13, 14 and 18 (e.g. measurement equipment and data to be measured or, alternatively, a check of equivalence of specific biofuel to conventional diesel).
- Review of relevant reports (incl. calculations) and the results of the sea trials.
- Communication, including a recommendation towards the ship’s administration.
- Exhaust emission measurements by DNV GL Envilab (see link below).