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01-03-2017 | Research

Determining Catalytic Fines Concentrations in Heavy Fuel Oils

Author: Dr. David Atkinson

Published in: MTZ industrial | Issue 1/2017

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Much of the heavy fuel oil used in large two-stroke marine diesel engines is contaminated at the refinery with hard particles which can cause catastrophic abrasive damage to cylinder liners. Hitherto laboratory and onboard methods to determine the level of these “cat fines” were relatively slow. Fuel analysis specialist Parker Kittiwake has devised a new test to give crews a rapid indication of fuel quality. …

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MTZ industrial

Das offizielle Magazin des CIMAC (The International Council on Combustion Engines) berichtet detailliert über Groß- und Industriemotoren aller Art ab einer Zylindergröße von 2,0 l.

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[1]

Leffler, W. L.: Petroleum Refining in NonTechnical Language. PennWell Corporation, Oklahoma. 3rd edition, 2000

[2]

Det Norske Veritas AS (DNV): Engine worn out in less than 100 hours by catalytic fines. Online https://exchange.dnv.com/CasualtyInformation/Documents/Download/53, 2010, accessed 28 January 2016.

[3]

Thornton, R.H.; Casale, P.G.; Davidson, D.; Graham, M.: Marine Fuels and International Standards. In Marine Fuels, ASTM, Philadelphia, 1985

[4]

Notes on Heavy Fuel Oil, American Bureau of Shipping, Houston, 1984

[5]

InSu, H.; Riggs, J.B.; ChangBock, C.: Modeling and optimization of a fluidized catalytic cracking process under full and partial combustion modes. Chemical Engineering and Processing, 2004, 43, 1063CrossRef

[6]

Tveit, O.: Marpol Annex VI — Solving the low sulphur issue, 184. Gard AS, Arendal, Norway, 2000

[7]

Kokarakis, J. E.; Kokarakis, E. J.; Apostolidis, A.: Challenges Associated with the Use of Low Sulphur Fuels. SNAME Technical Paper, 2013.

[8]

Halle, D. O.; Stroem, A.; High catalyst fines levels found in low sulphur fuel, Lloyd’s List, London, 2008

[9]

Sherzer, J.: OctaneEnhancing Zeolite FCC Catalysts: Scientific and Technical Aspects. Marcel Dekker Inc., New York, 1990

[10]

Buchanan, J. S.; Santiesteban, J. G.; Haag, W. O.; Catal, J.; Mechanistic consderations in acidcatalyzed cracking of olefines. 1996, 158, 279

[11]

Boerefijn, R.; Gudde, N.J.; Ghadiri, M.: A review of attrition of fluid cracking catalyst particles. In: Advanced Powder Technology, 2000, 11, 145

[12]

Htay, M. M.; Oo, M. M.; Proceedings of the World Academy of Science: Engineering and Technology, 2008, 48, 8

[13]

Hattori, H.; Ono, Y.: Solid Acid Catalysis. Pan Stanford Publishing, Boca Raton, 2015CrossRef

[14]

Ford, M. C.: A Master’s Guide to: Using Fuel Oil Onboard Ships. Charles Taylor & Co. Ltd., London, 2012

[15]

ISO 8217:2012. Specifications of Marine Fuels. International Organization for Standardization, Geneva, 2012

[16]

Bejger, A.; Drzewieniecki, J: Zesz. Nauk. Akad. Morsk. Szczecinie, 2015, 4, 9

[17]

Rolsted, H.; Charlotte, R.; Ole, J.; Mats, E.: Onboard fuel oil cleaning. CIMAC Congress 2013 PAPER 51, 2013

[18]

Boutsikas, A.: MSc Dissertation, Massachusetts Institute of Technology, 2004

[19]

McMahon, L.: Operators to be told to take responsibility for cat fines damage. In: Lloyd’s List, London, 2013

[20]

ASTM D518412. Standard Test Methods for Determination of Aluminum and Silicon in Fuel Oils by Ashing, Fusion, Inductively Coupled Plasma Atomic Emission Spectrometry, and Atomic Absorption Spectrometry, ASTM International, West Conshohocken, PA, 2012, www.astm.org

[21]

IP501. Determination of aluminium, silicon, vanadium, nickel, iron, sodium, calcium, zinc and phosphorous in residual fuel oil by ashing, fusion and inductively coupled plasma emission spectrometry, Energy Institute, London, 2005

[22]

ISO 10478:1994, Determination of aluminium and silicon in fuel oils Inductively coupled plasma emission and atomic absorption spectroscopy methods, Geneva, 2012

[23]

Noria Corporation: Elemental Analysis. Practicing Oil Analysis Magazine, January 2002

[24]

Moioli, P.; Seccaroni, C.: Analysis of art objects using a portable xray fluorescence spectrometer. In XRay Spectrometry, 2000, 29, 48CrossRef

[25]

Thermo Fisher Scientific: Easy Elemental Analysis of Heavy Fuel Oils Using Wavelength Dispersive Xray Fluorescence. Analytical Instrumentation, June 2010, 26

[26]

Maersk Fluid Technology: Advantages of using the SEAMate Elemental Analyzer. Online http://www.maerskfluid.com/index.php/advantagesanalyzer, 2016. Accessed 29 January 2016

[27]

Sørensen, M. K.; Vinding, M. S.; Bakharev, O. N.: Nesgaard, T.; Jensen, O.; Nielsen, N.C.: NMR sensor for onboard ship detection of catalytic fines in marine fuel oils. In: Analytical Chemistry, 2014, 86, 7205CrossRef

[28]

Schramm, J.; Henningsen, S; Sorenson, S.: Modelling of Corrosion of Cylinder Liner in Diesel Engines Caused by Sulphur in the Diesel Fuel. In: SAE Technical Paper 940818, 1994, doi:10.4271/940818

[29]

Coant, P.M.; Davison, A.; Fluyt, D.; Kohout, F.C.: Development of antiwear cylinder oil for high output crosshead diesels. In: CIMAC Congress Proceedings, Tokyo, 197

[30]

Parker Kittiwake: LinerSCAN — A New Era in Assets Protection, Online http://www.kittiwake.com/sites/default/files/MAK27243KW%20LinerSCAN%20Brochure%20Single%20Pages.pdf, 2016. Accessed 29 January 2016

[31]

GB Patent Application GB1515921.3, 2015

[32]

Greensfelder, B. S.; Voge, H.H.; Good, G.M.: Catalytic and Thermal Cracking of Pure Hydrocarbons. In: Industrial and Engineering Chemistry, 1949, 41, 2573CrossRef

[33]

Roussel, J. C.; Boulet, R.: Crude Oil Petroleum Products Process Flowsheets, Ed. J. P. Wauquier, Editions Technip, Paris, 1994, ch.1, p1.

[34]

US Patent, 7, 7244,364 B1, 2007

[35]

Pereira, J. C.; DelgadoLinares, J.; Scorzza, C.; Rondon, M.; Rodriguez, S.; Salager, J. L.: Breaking of WaterinCrude Oil Emulsions. 4. In: Energy & Fuels, 2011, 25, 1045CrossRef

[36]

C. M. Technologies, Shipbuilding Industry, 2015, 9, 37

[37]

ASTM D179611e1. Standard Test Method for Water and Sediment in Fuel Oils by the Centrifuge Method (Laboratory Procedure), ASTM International, West Conshohocken, PA, 2011, www.astm.org

[38]

Stanhope Seta, Seta Oil Test Centrifuge, Online http://www.stanhopeseta.co.uk/product.asp?ID=4807&bShowDetail=true. Accessed 1 February 2016

[39]

Zendehdel, M.; Kalateh, Z.; Alikhani, H.; Efficiency Evaluation of NaY Zeolite and TiO2/NaY Zeolite in Removal of Methylene Blue Dye from Aqueous Solutions. In: Iranian Journal of Environmental Health Science and Engineering 2011, 8, 265

[40]

Geçgel, Ü.; Özcan, G.; Gürpınar, G. Ç.: Removal of Methylene Blue from Aqueous Solution by Activated Carbon Prepared from Pea Shells. In: Journal of Chemistry, 2013, DOI:10.1155/2013/614083

[41]

Cook, A. G.; Tolliver, R. M.; Williams, J.E.: The Blue Bottle Experiment Revisited. In: Journal of Chemical Education 1994, 71 (2), p 160CrossRef

[42]

Singhal, G.S.; Rabinowitch, E.; Changes in the absorption spectrum of methylene blue with pH. In Journal of Physical Chemistry, 1967, 71, 3347CrossRef

Title: Determining Catalytic Fines Concentrations in Heavy Fuel Oils
Author: Dr. David Atkinson
Publication date: 01-03-2017
Publisher: Springer Fachmedien Wiesbaden
Published in: MTZ industrial / Issue 1/2017
Print ISSN: 2194-8682
Electronic ISSN: 2194-8690
DOI: https://doi.org/10.1007/s40353-017-0003-4

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