Your search keyword '"Ships emissions"' showing total 11 results

1. The Share of Pollution from Land Sources in PM Levels in the Region of Danish Straits, North and Baltic Seas

Author

Rogulski Mariusz, Badyda Artur, and Firląg Szymon

Subjects

air pollution, baltic sea, marine traffic, north sea, ships emissions, Renewable energy sources, TJ807-830

Abstract

The aim of the study was to determine air pollution over the sea surface (North Sea and Baltic Sea) comparing to concentration in the closest land areas to examine the impact of ships on the level of PM concentration. The analysis is based on the measurements made during the two weeks cruise of the tall ship Fryderyk Chopin from Edinburg to Kołobrzeg. The highest pollution levels were observed in locations distant from the coast, especially over Baltic Sea, with increasing concentrations when other ships approaching. The article attempts to assess the possibility of migration of pollutants to these areas from land-based sources, and thus indicate the degree of their participation in the level of pollution present at sea.

Published

2021

2. ENVIRONMENTAL AND SOCIAL RISKS RELATED TO SEAFEARING EMISSIONS IN THE BALTIC SEA.

Author

Rijkure, Astrida

Subjects

*EMISSION control, *MARINE engine emissions, *PHYSIOLOGICAL effects of marine pollution, *MARINE pollution, *OCEAN acidification

Abstract

Coastal countries must take measures to reduce harmful air emissions from ships and strengthen joint coordinated efforts to make the Baltic Sea a model for clean navigation in order to improve its endangered and sensitive environment. Coastal states and ports are directly responsible for monitoring and controlling the ships’ compliance with national and international laws. Compliance monitoring and control is carried out by ship inspections and fuel sampling, especially for ships that do not use air emission abatement technologies. Although progress has been made towards reducing sulfur emissions in the Baltic Sea, a work has still to be done to achieve effective and consistent monitoring and enforcement. This issue will become even more important when further nitrogen oxide emission limit values in the region are introduced. Emissions of nitrogen oxides strongly affect air pollution, and together with carbon dioxide emissions they facilitate acidification of seawater. Nitrogen emissions from ships are the result of nitrogen deposition, which contributes to eutrophication - one of the major problems in the Baltic Sea. The aim of the study is to research the shipgenerated air emissions and their impact on environment, to analyse the situation in the Baltic Sea region, and to develop proposals for reducing ship-generated emissions. The potential for reduction of ship-generated emissions in the Baltic Sea is based on compliance with international and regional requirements as well as integration of strategic solutions. Scientific literature, international conventions and European legislation, international studies and methodological materials as well as Internet resources will be used during development of this research. [ABSTRACT FROM AUTHOR]

Published

2018

3. The Share of Pollution from Land Sources in PM Levels in the Region of Danish Straits, North and Baltic Seas

Author

Artur Badyda, Szymon Firląg, and Mariusz Rogulski

Subjects

Pollution, Renewable Energy, Sustainability and the Environment, media_common.quotation_subject, air pollution, TJ807-830, marine traffic, Renewable energy sources, language.human_language, Danish, baltic sea, Oceanography, north sea, ships emissions, language, Environmental science, General Environmental Science, media_common

Abstract

The aim of the study was to determine air pollution over the sea surface (North Sea and Baltic Sea) comparing to concentration in the closest land areas to examine the impact of ships on the level of PM concentration. The analysis is based on the measurements made during the two weeks cruise of the tall ship Fryderyk Chopin from Edinburg to Kołobrzeg. The highest pollution levels were observed in locations distant from the coast, especially over Baltic Sea, with increasing concentrations when other ships approaching. The article attempts to assess the possibility of migration of pollutants to these areas from land-based sources, and thus indicate the degree of their participation in the level of pollution present at sea.

Published

2021

4. Thermo-economic approach for absorption air condition onboard high-speed crafts

Author

Ibrahim S. Seddiek, Mosaad Mosleh, and Adel A. Banawan

Subjects

Absorption air condition, Energy conservation, High speed craft, Fuel saving, Fuel cost, Ships emissions, International Maritime Organization (IMO), Thermo-economic, Ocean engineering, TC1501-1800, Naval architecture. Shipbuilding. Marine engineering, VM1-989

Abstract

High-speed crafts suffer from losing a huge amount of their machinery energy in the form of heat loss with the exhaust gases. This will surely increase the annual operating cost of this type of ships and an adverse effect on the environment. This paper introduces a suggestion that may contribute to overcoming such problems. It presents the possibility of reusing the energy lost by the ships' exhaust gases as heating source for an absorption air condition unit onboard high-speed crafts. As a numerical example; the proposed method was investigated at a high-speed craft operating in Red Sea between Egypt and the Kingdom of Saudi Arabia. The results obtained are very satisfactory. It showed the possibility of providing the required ship's air condition cooling load during sailing and in port. Economically, this will reduce the annual ship's operating cost. Moreover, it will achieve a valuable reduction of ship's emissions.

Published

2012

5. Influence of in-port ships emissions to gaseous atmospheric pollutants and to particulate matter of different sizes in a Mediterranean harbour in Italy.

Author

Merico, E., Donateo, A., Gambaro, A., Cesari, D., Gregoris, E., Barbaro, E., Dinoi, A., Giovanelli, G., Masieri, S., and Contini, D.

Subjects

*AIR pollution, *MARITIME shipping & the environment, *NITROGEN dioxide & the environment, *SULFUR dioxide & the environment, *AIR quality monitoring

Abstract

Ship emissions are a growing concern, especially in coastal areas, for potential impacts on human health and climate. International mitigation strategies to curb these emission, based on low-sulphur content fuels, have proven useful to improve local air quality. However, the effect on climate forcing is less obvious. Detailed information on the influence of shipping to particles of different sizes is needed to investigate air quality and climate interaction. In this work, the contributions of maritime emissions to atmospheric concentrations of gaseous pollutants (NO, NO 2 , SO 2 , and O 3 ) and of particles (sizes from 0.009 μm to 30 μm) were investigated considering manoeuvring (arrival and departure of ships) and hotelling phases (including loading/unloading activities). Results showed that the size distributions of shipping contributions were different for the two phases and could be efficiently described, using measured data, considering four size-ranges. The largest contribution to particles concentration was observed for D p < 0.25 μm, however, a secondary maximum was observed at D p = 0.35 μm. The minimum contribution was observed at D p around 0.8–0.9 μm with a negligible contribution from hotelling for size range 0.4–1 μm. The comparison of 2012 and 2014 datasets showed no significant changes of gaseous and particulate pollutant emissions and of the contribution to particle mass concentration. However, an increase of the contribution to particle number concentration (PNC) was observed. Results suggested that harbour logistic has a relevant role in determining the total impact of shipping on air quality of the nearby coastal areas. Additionally, future policies should focus on PNC that represents an important fraction of emissions also for low-sulphur fuels. DOAS remote sensing proved a useful tool to directly measure NO 2 and SO 2 ship emissions giving estimates comparable with those of emission inventory approach. [ABSTRACT FROM AUTHOR]

Published

2016

6. Short-sea shipping contributions to particle concentration in coastal areas: Impact and mitigation.

Author

Di Natale, Francesco, Carotenuto, Claudia, Cajora, Alessia, Sippula, Olli, and Gregory, Donald

Subjects

*LIQUEFIED natural gas, *PORT cities, *PARTICULATE matter, *FUEL quality, *AIR pollution, *ENVIRONMENTAL policy, *METHANOL as fuel

Abstract

• Short-sea shipping visibly contributes to particles concentrations in coastal areas. • The bottom-up model predicts consistent particle number concentration, PN, values. • Differently, contribution of ships on PM2.5 cannot be inferred by bottom-up model. • Existing regional fuel quality restrictions mostly reduce PM2.5 emissions. • Cleaner fuels and available after-treatment systems highly reduce PN/PM2.5 levels. Several studies indicate that short-sea shipping is an important source of air pollution for coastal areas and port cities. This paper reports results of a non-reactive particles dispersion model and a new set of experiments implemented for the Channel of Procida (Italy), an area with a high signal-to-noise ratio, due to intense marine traffic and low background pollution. The model successfully predicts particle number concentrations but underestimates PM 2.5 data. Model and experiments show that thanks to the EU policies on marine fuels, the Channel of Procida already has good air quality levels. Besides, the paper demonstrates that fostering the use of LNG or methanol or the application of an exhaust-gas-cleaning-system may allow reducing particles emissions well above 90%. The reliability of control strategies and the benefits for the population suggest that the introduction of regulations on particles emissions for ships can be a realistic option for the future environmental policy agenda. [ABSTRACT FROM AUTHOR]

Published

2022

7. CONTRIBUTION OF IN-PORT SHIPPING EMISSIONS TO GASEOUS POLLUTANTS AND PARTICULATE MATTER OF DIFFERENT SIZES IN AN ADRIATIC PORT-CITY

Author

EVA MERICO (1, ANTONIO DONATEO (1), ANDREA GAMBARO (2, DANIELA CESARI (1), ELENA GREGORIS (2, ELENA BARBARO (2, ADELAIDE DINOI (1), GIORGIO GIOVANELLI (4), SAMUELE MASIERI (4), and DANIELE CONTINI (1)

Subjects

particle number concentration, ships emissions, size distributions, shipping impacts

Abstract

Shipping is one of the transport sectors less regulated, although more than 80% of world trade is transported by ships [1] and its share of total anthropogenic emissions is significant, with effects on climate, human health and air quality, especially in coastal areas. Recent studies [2] demonstrated the effectiveness of implementation of the 2005/33/EC European Directive in reducing the impact of ship traffic on aerosol concentrations at local scale, however, the effect on climate is more uncertain. Detailed information regarding the size distribution of the impacts to particles and their correlation with gaseous emissions is needed to investigate the complex air quality-climate interaction of this source. Much of the literature studies focus on NOX, SO2, and particulate matter (PM) emissions while there is a gap of knowledge about the size distribution of emitted particles, especially in coarse fraction. This study was done in the framework of POSEIDON (POllution monitoring of Ship Emission: an IntegrateD approach fOr harbour of the Adriatic basiN) project (MED 2007-2013). The aim was to estimate the contribution of in-port ship emissions to gaseous atmospheric pollutants and to PM of different sizes in a port-city in South-Eastern Italy (Adriatic Sea), after the enforcement of the low-sulphur fuel EU-Directive. Measurements were taken at high temporal resolution at the Passenger Terminal site in the harbour area of Brindisi (40° 38? 43.32? N-17° 57? 36.39? E). Data collected by a Mobile Laboratory, were gaseous pollutants (NO2, NO, O3, SO2; 5 min resolution), particle number concentrations (PNC; 1 min resolution), particle size distribution in the range 0.25-32 ?m (1 min resolution) and NO2 and SO2 flow-rate emissions with a DOAS (Differential Optical Absorption Spectroscopy) remote-sensing system, called GASCOD (Gas Absorption Spectrometer Correlating Optical Differences). The Port Authority provided data of ship traffic and a video camera was used to synchronize all measurements and visually estimate number of vehicles (cars, trucks) during loading/unloading of ships at berth. Characterization of ship plumes in aspect of particle size, gaseous concentrations, duration, ratio NO/NO2, was performed. The impact analysis [3] was applied separating manoeuvring (arrival/departure of ships) and hotelling (loading/unloading activities) phases. Results showed that the primary contribution to PM1 and PM2.5 was significantly lower with respect to those to PNC for both phases, confirming that the majority of the particles emitted were in the ultrafine size range. Manoeuvring phase was characterized by higher impacts to SO2, NO, and NO2 than those to PNC, PM1 and PM2.5. Hotelling phase represented a significant share of the impact for NO, NO2, PNC but gave a low contribution to SO2 impact (due to low-sulphur fuel). Ultrafine particles (Dp1) fraction while accumulation mode particles (0.25

Published

2016

8. Influence of in-port ships emissions to gaseous atmospheric pollutants and to particulate matter of different sizes in a Mediterranean harbour in Italy

Author

Adelaide Dinoi, Daniele Contini, Elena Gregoris, Samuele Masieri, Eva Merico, Daniela Cesari, G. Giovanelli, Antonio Donateo, Andrea Gambaro, and Elena Barbaro

Subjects

Mediterranean climate, Atmospheric Science, 010504 meteorology & atmospheric sciences, Particle number, DOAS, Particle number concentration, Shipping impacts, Ships emissions, Size distributions, 2300, 010501 environmental sciences, 01 natural sciences, Range (statistics), Settore CHIM/01 - Chimica Analitica, Emission inventory, Air quality index, 0105 earth and related environmental sciences, General Environmental Science, computer.programming_language, Environmental engineering, size distributions, Radiative forcing, Particulates, Harbour, Environmental science, computer

Abstract

Ship emissions are a growing concern, especially in coastal areas, for potential impacts on human health and climate. International mitigation strategies to curb these emission, based on low-sulphur content fuels, have proven useful to improve local air quality. However, the effect on climate forcing is less obvious. Detailed information on the influence of shipping to particles of different sizes is needed to investigate air quality and climate interaction. In this work, the contributions of maritime emissions to atmospheric concentrations of gaseous pollutants (NO, NO2, SO2, and O3) and of particles (sizes from 0.009 mm to 30 mm) were investigated considering manoeuvring (arrival and departure of ships) and hotelling phases (including loading/unloading activities). Results showed that the size distributions of shipping contributions were different for the two phases and could be efficiently described, using measured data, considering four size-ranges. The largest contribution to particles concentration was observed for Dp < 0.25 mm, however, a secondary maximum was observed at Dp ¼ 0.35 mm. The minimum contribution was observed at Dp around 0.8e0.9 mm with a negligible contribution from hotelling for size range 0.4e1 mm. The comparison of 2012 and 2014 datasets showed no significant changes of gaseous and particulate pollutant emissions and of the contribution to particle mass concentration. However, an increase of the contribution to particle number concentration (PNC) was observed. Results suggested that harbour logistic has a relevant role in determining the total impact of shipping on air quality of the nearby coastal areas. Additionally, future policies should focus on PNC that represents an important fraction of emissions also for low-sulphur fuels. DOAS remote sensing proved a useful tool to directly measure NO2 and SO2 ship emissions giving estimates comparable with those of emission inventory approach.

Published

2016

9. The Influence of Marine Traffic on Particulate Matter (PM) Levels in the Region of Danish Straits, North and Baltic Seas

Author

Artur Badyda, Szymon Firląg, and Mariusz Rogulski

Subjects

Pollution, PM2.5, Baltic Sea, 010504 meteorology & atmospheric sciences, media_common.quotation_subject, air pollution, Geography, Planning and Development, Cruise, Air pollution, TJ807-830, 010501 environmental sciences, Management, Monitoring, Policy and Law, TD194-195, Combustion, medicine.disease_cause, marine traffic, 01 natural sciences, Renewable energy sources, medicine, GE1-350, North sea, 0105 earth and related environmental sciences, media_common, Environmental effects of industries and plants, Renewable Energy, Sustainability and the Environment, PM10, Sea transport, Particulates, Environmental sciences, Oceanography, Baltic sea, ships emissions, Environmental science, North Sea

Abstract

The aim of the study was to determine air pollution over the sea surface (North Sea and Baltic Sea) compared to the situation in ports, as well as to examine the impact of ships on the level of particulate matter (PM) concentration. The measurements, made during the two-week cruise of the tall ship Fryderyk Chopin, demonstrated that the principal source of PM emission over the sea surface are passing ships equipped with internal combustion engines, including quite numerous units powered by marine oil. The highest pollution levels were observed in locations distant from the coast, with increasing concentrations when other ships were approaching. During the cruise, at least two places were identified with increased PM concentration (18&ndash, 28 &mu, g/m3 for PM10 and 15&ndash, 25 &mu, g/m3 for PM2.5) caused by passing ships. The share of PM2.5 fraction in the general PM concentration in these places increased from 70&ndash, 72% to 82&ndash, 85%, which means that combustion emission dominated. In turn, measurements made in ports (Copenhagen and Kołobrzeg) showed lower levels of air pollution and indicated a typical variability of the PM concentrations characteristic for land areas. The results confirm the need for determining suitable solutions for sustainable sea transport.

Published

2018

10. The Influence of Marine Traffic on Particulate Matter (PM) Levels in the Region of Danish Straits, North and Baltic Seas.

Author

Firląg, Szymon, Rogulski, Mariusz, and Badyda, Artur

Abstract

The aim of the study was to determine air pollution over the sea surface (North Sea and Baltic Sea) compared to the situation in ports, as well as to examine the impact of ships on the level of particulate matter (PM) concentration. The measurements, made during the two-week cruise of the tall ship Fryderyk Chopin, demonstrated that the principal source of PM emission over the sea surface are passing ships equipped with internal combustion engines, including quite numerous units powered by marine oil. The highest pollution levels were observed in locations distant from the coast, with increasing concentrations when other ships were approaching. During the cruise, at least two places were identified with increased PM concentration (18–28 μg/m3 for PM10 and 15–25 μg/m3 for PM2.5) caused by passing ships. The share of PM2.5 fraction in the general PM concentration in these places increased from 70–72% to 82–85%, which means that combustion emission dominated. In turn, measurements made in ports (Copenhagen and Kołobrzeg) showed lower levels of air pollution and indicated a typical variability of the PM concentrations characteristic for land areas. The results confirm the need for determining suitable solutions for sustainable sea transport. [ABSTRACT FROM AUTHOR]

Published

2018

11. Environmental influence in the ship development

Author

Koljatić, Vjekoslav, Štrumberger, Nada, Maletić, Natalija, and Fabjan, Daša

Subjects

ships emissions, pollution of the land, IMO-curve, SCR

Abstract

It has been often claimed that the ships sail in open sea far away from the shoreline, leading to the assumption that emissions from the vessels do not contribute to the pollution of the land. The investigations does not support this approach .It is indicated that 74 - 83 % of the ships are sailing in world-wide trade within 200 nautical miles of the land. Thus most of the ships are actually relatively near the land and so the ships have a real impact on overrrall emission levels. The limitations of the NO and SO emission, international and local, are on the way. The engine speed dependent "IMO-curve" can be seen as a starting point for exhaust emission restrictions. Most of the modern engine types can meet the IMO -curve without any secondary means. The several proposals have been brought out following the general, relatively strict trend applied for landbased industry. Several ferry owners already invest today in Selective Catalytic Reduction (SCR) units or are at least prepared for later installation of SCR units for vessels operating on the Baltic Sea. Local restrictions will most obviously take place first through emission charges related to actual emissions in special areas.

Published

1999