Accesso libero

Biomass As An Alternative Fuel – Selected Aspects

Wojciech Zeńczak

Wojciech Zeńczak

Department of Heat Technologies and Safety Engineering, Department of Heat Technologies and Safety Engineering, West Pomeranian University of TechnologySzczecin, Poland
Profilo Orcid
Cerca questo autore su
Sciendo|Google Scholar
Zeńczak, Wojciech
 e 
Daniel Łuszczynski

Daniel Łuszczynski

West Pomeranian University of TechnologySzczecin, Poland
Cerca questo autore su
Sciendo|Google Scholar
Łuszczynski, Daniel
  
12 ago 2025
Biomass As An Alternative Fuel – Selected Aspects's Cover Image
INFORMAZIONI SU QUESTO ARTICOLO
Articolo precedente
Articolo Successivo
Cita
Scarica la copertina
Pubblicato online: 12 ago 2025
Pagine: 147 - 153
DOI: https://doi.org/10.2478/pomr-2025-0042
Parole chiave
© 2025 Wojciech Zeńczak et al., published by Sciendo
This work is licensed under the Creative Commons Attribution 4.0 International License.

International Maritime Organization. 2023 IMO strategy on reduction of GHG emissions from ships. Annex 15. Resolution MEPC.377(80). Adopted on 7 July 2023. Retrieved from https://wwwcdn.imo.org/localresources/en/OurWork/Environment/Documents/annex/MEPC%2080/Annex%2015.pdf (accessed 9 January 2025). Search in Google Scholar

FuelEU Maritime. Requirements, compliance strategies and commercial impacts. Retrieved from https://www.dnv.com/maritime/publications/fueleu-maritime-white-paper-download/ (accessed 13 January 2025). Search in Google Scholar

Rozporządzenie Parlamentu Europejskiego i Rady UE 2023/1800 z dnia 23 września 2023w sprawie rozwoju infrastruktury paliw alternatywnych i uchylenia dyrektywy 2014/94/UE [Regulation (EU) 2023/1800 of the European Parliament and of the Council of 23 September 2023 on the deployment of alternative fuels infrastructure, and repealing Directive 2014/94/EU ]. Retrieved from https://sip.lex.pl/akty-prawne/dzienniki-UE/rozporzadzenie-2023-1804-wsprawie-rozwoju-infrastruktury-paliw-72207549 (accessed 14 January 2025). Search in Google Scholar

Zastempowski M, Kaszkowiak J, Jablonicky J, Hujo L, Gromnicki M. Effect of using gasoline with biomethanol on power, torque and selected exhaust gas components: Case study of a small spark-ignition outboard engine. Polish Maritime Research 2025. https://doi.org/10.2478/pomr-2025-0009. Search in Google Scholar

Wei C, Jiang G, Wu G, Zhou Y, Liu Y. Effects on of blended biodiesel and heavy oil on engine combustion and black carbon emissions of low-speed two stroke engine. Polish Maritime Research 2025. https://doi.org/10.2478/pomr-2024-0010. Search in Google Scholar

Rozporządzenie Parlamentu Europejskiego i Rady UE 2023/1805 z dnia 13 września 2023 r. w sprawie stosowania paliw odnawialnych i niskoemisyjnych w transporcie morskim oraz zmiany dyrektywy 2009/16/W [Regulation (EU) 2023/1805 of the European Parliament and of the Council of 13 September 2023 on the use of renewable and low-carbon fuels in maritime transport, and amending Directive 2009/16/EC]. Retrieved from https://eur-lex.europa.eu/legal-content/PL/ALL (accessed 14 January 2025). Search in Google Scholar

Biofuels in shipping. Current market and guidance on use and reporting. DNV White Paper 2025. Retrieved from https://www.dnv.com/publications/biofuels-in-shipping-white-paper/. Search in Google Scholar

Blenkey N. Could wood pellets be another aalternate fuel option for maritime ? https://www.marinelog.com/news/could-wood-pellets-be-another-alternate-fuel-option-for-maritime/ (accessed 13 January 2025). Search in Google Scholar

Jakubiak M, Kordylewski W. Toryfikacja biomasy [Biomass torrefaction]. Archiwum spalania [Archivum Combustionis] 2010. Search in Google Scholar

Zeńczak W, Krystosik-Gromadzińska A. Preliminary analysis of the use of solid biofuels in a ship’s power system. Polish Maritime Research 2020. https://doi.org/10.2478/pomr-2020-0067. Search in Google Scholar

Schroppe JT, Gamble RL. A coal fired fluidized-bed steam generator for marine applications. SNAME Transactions 1981. Search in Google Scholar

Ikeda S, Ito S, Someya T. An experimental marine fluidizedbed boiler plant. Marine Engineers Rev 1983. Search in Google Scholar

Lewandowski WM, Ryms M. Biopaliwa. Proekologiczne odnawialne źródła energii [Biofuels. Ecological renewable energy sources]. WNT [Scientific and Technical Publishing House]; 2013. Search in Google Scholar

MAN energy solution in now: Everllence. https://www.man-es.com/marine/strategic-expertise/future-fuels/lpg (accessed 20 March 2025). Search in Google Scholar

Interim guidelines for use of liquefied petroleum gas (LPG) cargo as fuel. IMO, MSC.1/Circ. 1697, 1 July 2024. Retrieved from https://www.ccs.org.cn/ccswzen/. Search in Google Scholar

Zeńczak W. The influence of the ship’s motion on the sea wave on the capacity of the fluidized bed boiler. Scientific Journals Maritime University of Szczecin 2012. https://repository.am.szczecin.pl/handle/123456789/512. Search in Google Scholar

Luschtinetz T, Zeńczak W, Łuszczyński D. The selected results of the experimental research of solid fuel pneumatic transportation to ship’s boiler. Management Systems in Production Engineering 2019. https://doi.org/10.1515/mspe-2019-0023. Search in Google Scholar

Łuszczyński D, Zeńczak W. Wstępne wyniki badań eksperymentalnych transportu pneumatycznego paliwa stałego do kotła okrętowego [Preliminary results of experimental studies on pneumatic transport of solid fuel to a ship’s boiler]. Wybrane problemy eksploatacji siłowni okrętowych [Selected problems of ship power plants operating]. Wydawnictwo Naukowe Akademii Morskiej w Szczecinie [Scientific Publishing House of the Maritime University of Szczecin]; 2016. Search in Google Scholar

Lingua:
Inglese
Frequenza di pubblicazione:
4 volte all'anno
Argomenti della rivista:
Ingegneria, Introduzioni e rassegna, Ingegneria, altro, Geoscienze, Scienze atmosferiche e climatologia, Scienze biologiche, Scienze della vita, altro
Feed RSS della rivista