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Drying Technology
An International Journal
Volume 35, 2017 - Issue 9
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ARTICLES

Kinetics of microwave heating and drying of drilling fluids and drill cuttings

Arley S. RossiFaculty of Chemical Engineering, Federal University of Uberlandia, Uberlândia, Minas Gerais, Brazil
,
Marcella G. FariaFaculty of Chemical Engineering, Federal University of Uberlandia, Uberlândia, Minas Gerais, Brazil
,
Marina S. PereiraFaculty of Chemical Engineering, Federal University of Uberlandia, Uberlândia, Minas Gerais, Brazil
&
Carlos H. AtaídeFaculty of Chemical Engineering, Federal University of Uberlandia, Uberlândia, Minas Gerais, BrazilCorrespondence[email protected]; [email protected]
Pages 1130-1140 | Published online: 11 May 2017

References

  • Darley, H.C.H.; Gray, G.R. Composition and Properties of Drilling and Completion Fluids; Butterworth-Heinemann: Waltham, MA, 1988.
  • Ozbayoglu, E.M.; Miska, S.Z.; Takach, N.; Reed, T. Sensitivity analysis of major drilling parameters on cuttings transport during drilling highly-inclined wells. Petroleum Science Technology 2014, 27, 122–133.
  • ASME. Drilling Fluids Processing Handbook; Elsevier: Amsterdam, 2005.
  • Meredith, R. Engineers Handbook of Industrial Microwave Heating; Institute of Electrical Engineers: London, 1998.
  • Pozar, D.M. Microwave Engineering; John Wiley & Sons Ltd.: Hoboken, NJ, 2005.
  • Sun, T. Key models of heat and mass transfer of asphalt mixtures based on microwave heating. Drying Technology 2014, 32, 1568–1574.
  • Shang, H.; Snape, C.E.; Kingman, S.W.; Robinson, J.P. Microwave treatment of oil-contaminated North Sea drill cuttings in a high power multimode cavity. Separation and Purification Technology 2006, 49, 84–90.
  • Goyette, J.; Chahine, R.; Bose, T.K.; Akyel, C.; Bosisio, R. Importance of the dielectric properties of materials for microwave heating. Drying Technology 1990, 8, 1111–1121.
  • Liu, C.H.; Zhang, L.B.; Srinivasakannan, C.; Peng, J.H.; Liu, B.G.; Xia, H.Y. Dielectric properties and optimization of parameters for microwave drying of petroleum coke using response surface methodology. Drying Technology 2014, 32, 328–338.
  • Pereira, M.S.; Santos, J.M.; Barrozo, M.A.S.; Ataíde, C.H.; Martins, A.L. Decontamination of drilled cuttings by microwave drying: Kinetics aspects. Brasilian Journal of Petroleum and Gas 2015, 9, 1–10.
  • Shang, H.; Robinson, J.P.; Kingman, S.W.; Snape, C.E. Theoretical study of microwave enhanced thermal decontamination of oil contaminated waste. Chemical Engineering and Technology 2007, 30, 121–130.
  • Robinson, J.P.; Kingman, S.W.; Lester, E.H.; Yi, C. Microwave remediation of hydrocarbon-contaminated soils—Scale-up using batch reactors. Separation and Purification Technology 2012, 96, 12–19.
  • Santos, J.M.; Pereira, M.S.; Junior, I.P.; Pena, M.M.R.; Ataíde, C.H. Microwave drying of drilled cuttings in the context of waste disposal and drilling fluid recovery. Energy Technology 2014, 2, 832–838.
  • Junior, I.P.; Pereira, M.S.; Santos, J.M.; Duarte, C.R.; Ataíde, C.H.; Panisset, C.M.A. Microwave remediation of oil well drill cuttings. Journal of Petroleum Science and Engineering 2015, 134, 23–29.
  • Putranto, A.; Chen, X.D. Microwave drying at various conditions modeled using the reaction engineering approach (REA). Drying Technology 2016, 34, 1654–1663.
  • Falciglia, P.P.; Mancuso, G.; Scandura, P.; Vagliasindi, F.G. Effective decontamination of low dielectric hydrocarbon-polluted soils using microwave heating: Experimental investigation and modeling for in situ treatment. Separation and Purification Technology 2015, 156, 480–488.
  • Page, G.E. Factors influencing the maximum of air drying shelled corn in thin layer. Dissertation (Master’s thesis). Purdue University, West Lafayette, IN, 1949.
  • Henderson, S.M.; Pabis, S. Grain drying theory.I. Temperature effect on drying coefficient. Journal of Agriculture Engineering Research 1961, 6, 169–174.
  • Li, Y.; Fei, Y.; Zhang, L.; Peng, J.; Li, C.L. Microwave drying characteristics and kinetics of ilmenite. Transactions of Nonferrous Metals Society of China 2011, 21, 202–207.
  • Pillai, M.G. Thin layer drying kinetics, characteristics and modeling of plaster of Paris. Chemical Engineering Research and Design 2013, 91, 1018–1027.
  • Tahmasebi, A.; Yu, J.; Hana, Y.; Zhao, H.; Bhattacharya, S. A kinetic study of microwave and fluidized-bed drying of a Chinese lignite. Chemical Engineering Research and Design 2013, 92, 54–65.
  • Salvi, D.; Boldor, D.; Aita, G.M.; Sabliov, C.M. COMSOL Multiphysics model for continuous flow microwave heating of liquids. Journal of Food Engineering 2011, 104, 422–429.
  • Vaz, R.H.; Pereira, J.M.C.; Ervilha, A.R.; Pereira, C.F. Simulation and uncertainty quantification in high temperature microwave heating. Applied Thermal Engineering 2014, 70, 1025–1039.

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