Search Results

21 - 30 of 1,104 items :

Clear All
Iron-containing phases in fly ashes from different combustion systems

-009-9978-8. 11. Vandenberghe, R. E., de Resende, V. G., da Costa, G. M., & De Grave, E. (2010). Study of loss-on-ignition anomalies found in ashes from combustion of iron-rich coal. Fuel , 89 , 2405–2410. DOI: 10.1016/j.fuel.2010.01.022. 12. Zyryanov, V. V., Petrov, S. A., & Matvienko, A. A. (2011). Characterization of spinel and magnetospheres of coal fly ashes collected in power plants in the former USSR. Fuel , 90 , 486–492. DOI: 10.1016/j.fuel.2010.10.006.

Open access
The Influence of Diesel Oil Improvers on Indices of Atomisation and Combustion in High-Efficiency Engines

–857. 4. Ferreira da Silva M.P., Rodrigues e Brito L., Honorato F.A et al.: Classification of gasoline as with or without dispersant and detergent additives using infrared spectroscopy and multivariate classification . Fuel, 116, 2014, pp.151–157. 5. Herrmann H.-O., Gorbach A., Lettmann H., Chebli E.: The (R)evolution of Daimler’s heavy duty diesel engine platform . 37. Internationales Wiener Motorensymposium 2016. 6. Kowalski J.: An experimental study of emission and combustion characteristics of marine diesel engine with fuel injector malfunctions

Open access
Transformations of mercury in processes of solid fuel combustion – review

in Poland as potential sources of environmental pollution, Biuletyn PIG 394, pp. 5-54. (in Polish) Cao, Y., Chin-Min Cheng, C-M., Chen, C-W., Liu, M., Wang, C. & Pan, W-P. (2008). Abatement of mercury emissions in the coal combustion process equipped with a Fabric Filter Baghouse, Fuel, 87, pp. 3322-3330. Cauch, B., Silcox, G.D., Lighty, J.S., Wendt, J.O.L., Fry, A. & Senior, C.L. (2008), Environmental Science & Technology, 42, pp. 2594-2599. Chow, W., Mill, M.J. & Torrens, I.M. (1994). Pathways of trace elements in

Open access
A Study of Reduction for Combustion Products of a Gasoline Engine – Especially Effects of Multi Component Fuel Properties

References [1] Iijima, A., Shoji, H., A study of HCCI combustion characteristics using Spectroscopic Techniques , SAE paper 2007-01-1886, 2007. [2] Tsutsumi, Y., Hoshina, K., Iijima, A., Shoji, H., Analysis of the combustion characteristics of HCCI Engine operationg on DME and Methane , SAE Paper No.2007-32-0041, 2007. [3] Lim, O. T., et al., The fuel unmixedness effect on DME HCCI combustion using rapid compression and expansion machine , SAE Paper No.2007-42-0042, 2007. [4] Daisho, Y., et al., Contolling combustion and exhaust

Open access
Analysis of the Combustion Air Preheater from the Aluminum Melting Furnaces

://www.ornl.gov/sci/ees/itp/documents/FnIRptRecuperatorsFinal.pdf . [4] Schalles, D.G., The next generation of combustion technology for aluminum melting, http://www.bloomeng.com/aluminum-studies.html . [5] Schack, A., Industrial heat transfer , Chapmann and Hall, London 1965. [6] Heiligenstaedt, W., Thermique appliques aux fours industriels , Dunod, Paris 1971. [7] Gaba, A., Heat transfer in industrial instalations , Publishing Bibliotheca, Targoviste 2004. [8] Ward, M.E. a.a., Application of a new ceramic recuperator technology for use on an aluminum remelt furnace, Gas Warme International , band 37

Open access
Exhaust Gas Temperature Measurements in Diagnostics of Turbocharged Marine Internal Combustion Engines Part I Standard Measurements

combustion engine piston-crankshaft systems and evaluating its practical applicability to rational control of the process of their operation taking into account the expert system (in Polish). Work within the framework of the Research Project No. N509 494638 financed by MNiSW. Gdansk University of Technology, 2012. 4. Korczewski Z., Zacharewicz M.: Alternative diagnostic method applied on marine diesel engines having limited monitoring susceptibility. Transactions of the Institute of Measurement and Control, Great Britain SAGE - Vol. 34, No. 8/December/2012

Open access
Operation Evaluation Method for Marine Turbine Combustion Engines in Terms of Energetics

References 1. Dzida M.: Identyfikacja przyczyn niestacjonarności oraz niestabilności temperatury I ciśnienia gazów za komorą spalania turbiny gazowej. Monografie 16. Wydawnictwo Politechniki Gdańskiej, Gdańsk 2000. 2. Girtler J.: Possibility of valuation of operation of marine diesel engines. Journal of POLISH CIMAC, Vol 4, No 1, 2009. 3. Girtler J.: Energy-based aspect of operation of diesel engine. COMBUSTION ENGINES No 2/2009 (137). 4. Girtler J.: Semi-Markov reliability model of gas turbine

Open access
Experimental Study of Thermal Decomposition and Combustion of Lignocellulosic Biomass Pellets / GRANULĒTAS LIGNOCELULOZES BIOMASAS TERMISKĀS SADALĪŠANĀS UN DEGŠANAS PROCESU EKSPERIMENTĀLIE PĒTĪJUMI

References 1. Klass, D. L. (2004). Biomass for Renewable Energy and Fuels. Encyclopedia of Energy 1, Elsevier Inc., 193-212. 2. Nussbaumer, T. (2008). Biomass Combustion in Europe. Overview on Technologies and Regulations, Final Report 08-03, New York State Energy Research and Development Authority, NYSERDA, 97. http://www.nyserda.org/programs/environment/emep/Report%2008-03%20-%20Biomass%20Combustion%20in%20Europe-complete-after%20corrections.pdf 3. Vasilev, S., Baxter, D., Andersen, L.K. & Vasileva

Open access
In-Cylinder Combustion Analysis of a SI Engine Fuelled with Hydrogen Enriched Compressed Natural Gas (HCNG): Engine Performance, Efficiency and Emissions

hydrogen addition on performance of methane-fueled vehicles. Part I: Effect on SI engine performance , Int J Hydrogen Energy, Vol. 26, pp. 55-70, 2001. [5] Ma, F., Liu, H., Wang, Y., Li, Y., Wang, J., Zhao, S., Combustion and emission characteristics of a port-injection HCNG engine under various ignition timings , Int Journal of Hydrogen Energy, Vol. 33, pp. 816-822, 2008. [6] Mehra, R. K., Duan, H., Juknelevičius, R., Ma, F., Li, J., Progress in hydrogen enriched compressed natural gas (HCNG) internal combustion engines – A comprehensive review , Renewable

Open access
The Effect of Combustion of Natural Gas With 21–29% O2/CO2/N2Mixtures on Emission of Carbon Monoxide

References [1] Bohn, J.P., Blume, M., Goanta, A., & Spliethoff, H. (2011). Flame temperatures and species concentrations in non-stoichiometric oxycoal fl ames, Fuel, 90, 3109-3117. [2] Liu, F., Guo, H., & Smallwood, G.J. (2003). The chemical effect of CO2 replacement of N2 in air on the burning velocity of CH4 and H2 premixed fl ames, Combustion and Flame, 133, 495-497. [3] Liu, F., Guo, H., Smallwood, G.J., & Gülder, Ö.L. (2001). The chemical effects of carbon dioxide as an additive in an ethylene diffusion fl

Open access