BRAVE ECO – Benchmark for Reduction of Anchoring Vessels’ Emissions – Enabling Change of Operation

• This feasibility study aims to evaluate the possibilities to reduce air emissions from ships anchored in port areas and, then especially the Port of Gothenburg. For this purpose, the study uses two main approaches. Firstly, it analyses the reasons and legal/business aspects for anchoring. Secondly, this study develops a reproducible calculation model for anchored vessels' CO2 emissions. Regulation of anchoring sites are not entirely clear since international regulation partly applies, also it is not clear who is responsible for the anchoring sites. This implies that the port´s scope of action is limited mainly to the ships that are calling the port. However, also emission from other ships at in the port area has been evaluated in this study to get a broader perspective. This pre-study provides both qualitative and quantitative findings and it is produced using mixed methods, including workshops with relevant port stakeholders. It also involves different scientific disciplines and several authors from the Port of Gothenburg Authority, IVL Swedish Environmental Research Institute, Maritime Studies at Chalmers University of Technology and the School of Business, Economics and Law at the University of Gothenburg. Furthermore, in connection to this study, one bachelor's thesis and two master's theses have been carried out. The results show that it is mainly tanker ships that are anchoring in Gothenburg and that their main reasons for anchoring are related to awaiting Laycan or waiting for an available berth. The companies involved in the study generally combine time charter and voyage charter contracts to access vessel capacity. The inputs from the workshops, the interviews conducted with stakeholders and the international literature are “rather” consistent: combining just in time arrival with slow steaming has a great potential for making a business case and to reduce fuel consumption and thereby emissions. However, there are many barriers which needs to be addressed, such as: lack of trust, improving information sharing (actors now communicate via phone or email), loss of income (due to demurrage), attitudes in the industry, the “first come, first serve” concept, risk of missing estimated time of arrival and port infrastructure. Even if there are many barriers, several actors in the port already have experience of combining just in time arrival and slow steaming. In this study, we develop a reproducible emission calculation model that calculates CO2eq emissions. The emissions are partly calculated by using the ships’ positions (AIS-data) from 2019, to extract the time spent at anchor. The emission model calculates the anchored vessels' total CO2eq emissions, but the model also calculates the theoretical potential for avoiding emission by using the time at anchor to slow steam. The results show that all tanker ships that anchored outside the port in 2019, could theoretically have reduced their emissions with about 30 ktonnes CO2eq, if they would have been notified of delays 24 hours before arrival and then reduced their speed to 10 knots. The results also show that using time to slow steam have a much greater potential to reduce emissions than if the ships would only reduce the time at anchor (by using fewer ships to perform the same transport work). This is especially true for the initial speed reductions (10-14 knots). This study also evaluates the emission calculation methods and assesses the uncertainties, by comparing different sources and underlying assumptions with real world data. The study argues that it is problematic to just use default values proposed in the global emission inventory issued by the International Maritime Organization (IMO). Using default values for estimating emission makes it harder to estimate the real effect of a new policy, regulation, or incentive in the port. However, a better emission inventory requires that on-board visits are made or that data is obtained digitally. The largest calculation uncertainties now are for boiler fuel consumption and bunker ships fuel consumption at the anchorage areas.

Ämnesord

SAMHÄLLSVETENSKAP  -- Ekonomi och näringsliv -- Företagsekonomi (hsv//swe)

SOCIAL SCIENCES  -- Economics and Business -- Business Administration (hsv//eng)

SAMHÄLLSVETENSKAP  -- Juridik (hsv//swe)

SOCIAL SCIENCES  -- Law (hsv//eng)

TEKNIK OCH TEKNOLOGIER  -- Samhällsbyggnadsteknik -- Transportteknik och logistik (hsv//swe)

ENGINEERING AND TECHNOLOGY  -- Civil Engineering -- Transport Systems and Logistics (hsv//eng)

Nyckelord

Anchoring

emission calculations

models

shipping

slow steaming

just in time arrival

virtual arrival

voyage charter contracts

demurrage

AIS-data

IMO

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