Dewatering fine solid suspension by using steam pressure filtration

  • Affiliations:

    1 Hanoi University of Mining and Geology, Hanoi, Vietnam
    2 TU Bergakademie Freiberg, Freiberg, Germany

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  • Received: 7th-Feb-2021
  • Revised: 9th-May-2021
  • Accepted: 4th-June-2021
  • Online: 20th-July-2021
Pages: 9 - 21
Views: 3619
Downloads: 1290
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Abstract:

Steam pressure filtration is the combination of mechanical and thermal in one equipment. This process shows the advantages in comparison to conventional pressure filtration by the characteristic of its distinction mechanism. Application of steam pressure filtration can be listed: dewatering the suspension of fine solid, remove the contaminant, dangerous chemical, dissolved ions, protecting the human health as well as the environment. This paper shows the mechanism of steam pressure filtration as well as the result of tests, the comparison related to the efficiency between steam pressure filtration and conventional pressure filtration. The steam pressure filtration shows the high efficiency in mechanical displacement phase in both input parameters: solid volume fraction of suspension and the height of filter cake. The residual moisture content and saturation of filter cake using steam pressure filtration are lower 10÷20% than those values of filter cake using conventional pressure filtration. Moreover, some preliminary tests taking account to the drying phase of steam pressure filtration are also showed. The moisture of fine material filter cakes is around 6÷13%. Through the result of tests, interpretation and discussion, the application of steam pressure filtration is possible in the field of mineral processing and metallurgy.

How to Cite
., H.Thanh Pham and Peuker, U. 2021. Dewatering fine solid suspension by using steam pressure filtration (in Vietnamese). Journal of Mining and Earth Sciences. 62, 3b (Jul, 2021), 9-21. DOI:https://doi.org/10.46326/JMES.2021.62(3b).02.
References

Alkhatib, H., (2008). Comparison of Sequential Monte Carlo Filtering with Kalman Filtering for Nonlinear State Estimation. 1st Internatinal Conference on Machine Control Guidance. 

Alkhatib, H. N., (2008). Comparison of Sequential Monte Carlo Filtering with Kalman Filtering for Non - linear State Estimation. 1st International Conference on Machine Control and Guidance.

Aussems, T., (1999). Positionsschätzung von Landfahrzeugen mittels Kalman - Filterung aus Satelliten - und Koppelnavigations - beobachtungen. Veröffentlichung des Geodätischen Instituts der Rheinisch - Westfälischen Technischen Hochschule.

Baganz, G., (1930). German Đăng ký độc quyền nhãn hiệu số 498,590. 

Bott, R., and Langeloh, T., (1996). Steam pressure filtration - Advanced version of the continuous pressure filtration (Hi - bar filtration). Aufbereitungstechnik/Mineral Processing, 163 - 179.

Bott, R., Langeloh, T., and Meck, F., (2002). Continuous seam pressure filtration of mass mineral products. Aufbereitungstechnik/ Mineral Processing, 19 - 30.

Brown, J., (1964). The mechanism of dewatering by steam filtration. Annual General Meeting, (trang 105 - 109). Montreal.

Burton, G., (1962). A new process to reduce the mositure content in filter cakes. Fourth International Congress for Coal Processing. Harrowgate.

Douc, R., Olivier, C., and Eric, M., (2005). Comparison of resampling schemes for particle filtering. Image and Signal Processing and Analysis, Proceedings of the 4th International Symposium on.

Efron, B., (1979). Bootstrap methods : another look at the Jackknife. The annals of Statistics, 7(1), 1 - 26.

Esser, S., and Peuker, U., (2020). (Data in Brief)). Temperature data during steam pressure filtration in combination with the water insoluble pore liquid. Chemical Engineering Science, 31.

Esser, S., and Peuker, U., (2020). Steam pressure filtration in combination with a water insolube pore liquid. Chemical Engineering Science, 225.

Gerl, S., (1999). Steam Pressure Filtration, a mechanical - thermal differential pressure process for filter cakes (in German). VDI - Verlag, Düsseldorf, 241.

Gerl, S., and Stahl, W., (1995). Experimental studies on steam pressure filtration of coal concentrate filter cakes. XIX IMPC Congress. San Francisco.

Gerl, S., and Stahl, W., (1997). Dewatering of coal and ore filter cakes by steam pressure filtration. XX IMPC Congress. Aachen.

Gerl, S., and Stahl, W., (2007). Improved Dewatering of Coal by Steam Pressure Filtration. Coal Preparation, 137 - 146.

Gordon, N. S., (1993). Novel approach to non - linear/non - Gaussian Bayesian state estimation. IEE Proceedings, 140(2), 107 - 113.

Gösele, W., Alt, C., and Loeve, T., (2005). Filtration, in Ullmann's Encyclopedia of Industrial Chemistry. Weinheim: Wiley_VCH verlag GmbHandCo.

Gustafsson, F., (2002). Particle Filter Theory and Practice with Positioning Applications. IEEE Transactions on Signal Processing, 50(2), 425 - 437.

Jose’, L. J., (2013). Simultaneous Localization and Mapping for Mobile Robots - introduction and method (lần xuất bản 1). USA: IGI Global.

Julier, J. U., (1997). A New Extension of the KalmanFilter to Non - linear Systems. Seattle, Washington: In The Proceedings of the American Control Conference.

Julier, S. U., (2004). Unscented filtering and nonlinear estimation. Proceedings of the IEEE, 92(3), 401 - 422.

Kalman, R., (1960). A new approach to Linear Filtering and Prediction Problems. Transaction of the ASME - Journal of Basic Engineering, 33 - 45.

Liu, J. C., (1998). Sequential Monte Carlo Methods for Dynamic systems. Journal of the American Statistical Association, 93(443), 1032 - 1044.

Löwer, E., Pham, T., Leißner, T., and Peuker, U., (2020). Study on the influence of solids volume fraction on filter cake structures using microtomography. Powder Technology, 286 - 299.

Peuker, U., (2018). Steam pressure filtration - Technology for dry tailings stockage. International Mineral Processing Congress (trang 899 - 906). International Agency of Congress Management.

Peuker, U., and Stahl, W., (2001a). Scale - up and operation of a steam pressure filter in pilot scale (in German). Chemie Ingenieur Technik.

Peuker, U., and Stahl, W., (2001b). Steam pressure filtration: Mechanical - thermal dewatering process. Drying Technology, 807 - 848.

Peuker, U., Stahl, W., Bott, R., and Langeloh, T., (2000). Scale - up and operation of a steam pressure filtration in pilot scale. ACHEMA. Frankfurt.

Peuker, U., Stahl, W., Bott, R., Langeloh, T., and Blessing, G., (2001). Steam - pressure filtration: an improve procedure for the processing of FGD gypsum. VGB PowerTech, 88 - 92.

Pham, T. H., and Peuker, U., (2020). Shrinkage cracking during filtration experiment - Influence of suspension concentration on crack formation. ISRM 2020 (trang 385 - 406). Springer, Cham.

Pitt, M. S., (1999). Filtering Via Simulation: Auxiliary Particle Filters. Journal of the American Statistical Association (American Statistical Association), 94(446), 590 - 591.

Ramm, K., (2008). Evaluation von Filter - Ansätzen für die Positionsschätzung von Fahrzeugen mit den Werkzeugen der Sensitivitätsanalyse. Reihe C, Nr. 619: DGK.

Redeker, D., Steiner, K. - H., and Esser, U., (1983). Das mechanische Entfeuchten von Filterkuchen. Chemie Ingenieur Technik, 820 - 839.

Rushton, A., Ward, A., and Holdich, R., (2015). Solid - liquid Filtration and Separation Technology. Weinheim, Germany: VCH Verlag.

Särkkä, S., (2013). Bayesian filtering and smoothing (xuất bản lần 1). Cambridge University Press.

Schweitzer, J,. (2012). Modular Positioning using Different Motion Models. Stuttgart, Germany: In the Proceedings on 3rd International Conference on Machine Control and Guidance.

Schweizer, M., (2012). System - oriented efficiency optimization of variable speed drives. Diss., ETH Zürich.

Silverblatt, C., and Dahlstrom, D., (1964). Improved dewatering of coal bt steam filtration: experimental bench scale tests. Trans. of Society of Mining Engineers. Salt Lake City.

Sparks, C., (2016). Filter and Filtration Handbook. USA: Joe Hayton.

Sternberg, H., (2000). Zur Bestimmung der Trajektorie von Lanfahrzeugen mit einem hybriden Meßsystem. Heft 67, Neubiberg: Schriftenreihe des Studiengangs Vermessungwesen der Universität der Bundeswehr München.

Svarovsky, L., (2001). Introduction to solid - liquid separation, in Solid - liquid separation (Fourth Edition). Butterworth - Heinemann: Oxford. P. 1 - 29.

v.d. Gathen, R., (1963). Dewatering of coal slurry on a steam hood filter (in German). Glückauf, 1374 - 1380.

VDI - 2762. (2010). Mechanical solid - liquid separation by cake filtration. Part 2: Determination of filtercake resistance. Berlin: Beuth - Verlag.

Wakeman, R., (2007). The influence of particle properties on filtration. Separation Purification Technology, 234 - 241.

Wan, A. V., (2002). The Unscented Kalman Filter. Trong Kalman Filtering and Neural networks (trang 221 - 282). New York: Wiley.

Wan, A. V., (2002). The Unscented Kalman Filter, Kalman Filtering and Neural networks.

Welch, G. B., (1995). An introduction to the Kalman filter. Chapel Hill, USA: Technical report TR 95 - 041 University of North Carolina.

Wiedemann, T., and Stahl, W., (1996). Experimental investigation of the shrinkage and cracking behaviour of fine particle filter cake. Chemical Engineering and Processing: Process Intensification, 35 - 42..

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