Low-temperature pyrolysis of oily sludge: roles of Fe/Al-pillared bentonites

Journal title

Archives of Environmental Protection




vol. 43


No 3



pyrolysis ; oily sludge ; Fe/Al pillared bentonites ; aliphatic hydrocarbons ; Lewis acidity

Divisions of PAS

Nauki Techniczne


Polish Academy of Sciences




Artykuły / Articles


DOI: 10.1515/aep-2017-0027 ; ISSN 2083-4772 ; eISSN 2083-4810


Archives of Environmental Protection; 2017; vol. 43; No 3


Liu (2009), Pyrolysis treatment of oil sludge and model - free kinetics analysis of, Journal Hazardous Materials, 161. ; Baik (2002), Heat transfer coefficients during deep - fat frying of a tofu disc of the, Transactions ASAE, 1493. ; Karacan (1998), Pyrolysis analysis and kinetics of crude oils of Thermal Analysis and, Journal Calorimetry, 781. ; Shie (2000), Major Products obtained from the pyrolysis of oil sludge, Energy Fuels, 14, 1176. ; Tamer (2006), Characterisation of products from pyrolysis of waste sludges, Fuel, 85. ; Kandiyoti (2006), Solid fuels and heavy hydrocarbon liquids Thermal characterization and analysis ISBN, null. ; Wang (2007), Low temperature pyrolysis characteristics of oil sludge under various heating conditions, Energy Fuels, 21, 957. ; Shie (2003), Pyrolysis of oil sludge with additives of sodium and potassium compounds Resources Conservation, Recycling, 39. ; Wiśniewski (null), The pyrolysis and gasification of digestate from agricultural biogas plant of Environmental Protection, Archives, 41, 2015. ; Li (1995), PAH emission from the incineration of waste oily sludge and plastic mixtures of the, Science Total Environment, 170. ; Pánek (2014), Pyrolysis of oil sludge with calcium - containing additive of Analytical Pyrolysis, Journal Applied, 108. ; Werle (2012), Possibility of NOx emission reduction from combustion process using sewage sludge gasification gas as an additional of Environmental Protection, fuel Archives, 38, 81. ; Shie (2002), u Use of inexpensive additives in pyrolysis of oil sludge, Energy Fuels, 16, 102. ; Wei (2006), The catalytic effects of minerals on the formation of diamondoids from kerogen macromolecules Organic, Geochemistry, 37, 11. ; Bridgwater (1999), An overview of fast pyrolysis of biomass, Organic Geochemistry, 30, 1479. ; Li (1994), Preparation of alumina - pillared montmorillonites with high thermal stability regular microporosity and Brönsted acidity, Microporous Materials, 165. ; Shen (2002), An experimental study of oil recovery from sewage sludge by low - temperature pyrolysis in a fluidised - bed, Fuel, 465. ; Shie (2000), Resources recovery of oil sludge by pyrolysis : kinetics study of Chemical Technology Biotechnology, Journal, 443. ; Shie (2004), Pyrolysis of oil sludge with additives of catalytic wastes of Analytical Pyrolysis, Journal Applied, 71. ; Albright (1983), Pyrolysis Theory Industrial Practice Academic New York https www osti gov scitech biblio, null, 6355324. ; Beis (2002), Fixed - bed pyrolysis of safflower seed : influence of pyrolysis parameters on product yields and compositions, Renew Energy, 26, 21. ; Yan (2012), Oil recovery from refinery oily sludge using a rhamnolipid biosurfactant - producing Pseudomonas, Bioresource Technology, 116. ; Shen (2005), Low - temperature pyrolysis of sewage sludge and putrescible garbage for fuel oil production, Fuel, 809. ; Almon (1977), Petroleum forming reactions : the mechanism and rate of clay catalyzed fatty acid decarboxylation, null, 157. ; Saha (2006), Model - free method for isothermal and non - isothermal decomposition kinetics analysis of PET sample, Thermochimica Acta, 444. ; Ciajolo (1984), Pyrolysis and oxidation of heavy fuel oils and their fractions in a thermogravimetric apparatus, Fuel, 657. ; Fakhru (2009), of technologies for oil and gas produced water treatment of, Review Journal Hazardous Materials, 170. ; Sing (1958), Reporting physisorption data for gas / solid systems with special reference to the determination of surface area and porosity Pure Chemistry, Applied, 603. ; Sperb (2006), Proposal of a sequential treatment methodology for the safe reuse of oil sludge - contaminated soil of, Mater Journal Hazardous Materials, 136. ; Berend (1995), Mechanism of adsorption and desorption of water vapor by homoionic montmorillonites The super Na super super super super exchanged forms and, Clays Clay Minerals, 324. ; Chiaramonti (2007), generation using fast pyrolysis liquids from biomass Renewable pp, Power Sustainable Energy Reviews, 11, 1056. ; Czernik (2004), Overview of applications of biomass fast pyrolysis oil, Fuel, 18, 590. ; Maksimova (1999), Study of thermocatalytic decomposition of polyethylene and polyvinyl alcohol in the presence of an unsteady - state Fe - containing catalyst, Chemical Engineering Science, 54, 20. ; Ubani (2016), Identification and characterisation of oil sludge degrading bacteria isolated from compost of Environmental Protection, Archives, 42, 67. ; Wang (2007), Low Temperature pyrolysis characteristics of oil sludge under various heating conditions, Energy Fuels, 21, 957. ; Shie (2002), Use of calcium compounds as additives for oil sludge pyrolysis of the Chinese Institute of Environmental Engerineering, Journal Taiwan, 12, 363. ; Tyagi (2006), Characterization of surface acidity of an acid montmorillonite activated with hydrothermal ultrasonic and microwave techniques, Applied Clay Science, 31, 16. ; Chen (null), Synthesis of magnetically modified Fe - Al pillared bentonite and heterogeneous Fenton - like degradation of Orange II of Wuhan University of Technology, Journal Mater Sci, 30, 2015.

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