Management of hazardous waste from the production of titanium dioxide as a substitute for part of cement in cement composites


Vol. 530 (10) 2016 / wtorek, Październik 23rd, 2018

(in Polish)

F. Chyliński,
P. Łukowski

DOI: 10.15199/33.2016.10.06

Volume 530: Issue 10
Pages 18-20
Accepted for publication: 07.09.2016 r.

The article presents the results of preliminary studies to show the possibility of the safe use of hazardous industrial waste as a reactive additive to concrete. There were no earlier attempts to exploit this, by-product in this way. Attempting to waste management is part of the foundation for sustainable development of the construction industry.

Keywords: ilmenite undissolved mud; titanium dioxide; utilization; cement composites; addition for concrete.
  1. Bobrowicz Jan, Filip Chyliński. 2016. „The influence of ilmenitemud waste on the hydration process of Portland cement”. Journal of Thermal Analysis and Calorymetry (6).
  2. Chen Q. Y., M. Tyrer, C. D. Hills, X. M. Yang, P. Carey. 2009. „Immobilisation of heavy metal in cement-based solidification/stabilizationAreview”. Waste Management (29): 390 – 403.
  3. Czarnecki Lech, Marek Kaproń. 2010. „Sustainable construction as research area”. Int. J. of Materials Engineering for Resources (17): 99 – 106.
  4. GázquezM. J., J. P. Bolívar, F. Vaca, R. L. Lozano, A. G. Barneto. 2011. „Valorization of two industrial wastes from titanium industry as fire resistance building materials”. 3rd International CEMEPE & SECOTOX Conference Skiathos (6): 19 – 24.
  5. Gázquez M. J., J. Mantero, J. P. Bolívar, R. García-Tenorio, F. Vaca, R. L. Lozano. 2011. „Physico- chemical and radioactive characterization of TiO2 undissolved mud for its valorization”. Journal of Hazardous Materials (15): 269 – 76.
  6. Giergiczny Zbigniew,Anna Król. 2008. „Immobilization of heavy metals (Pb, Cu, Cr, Zn, Cd, Mn) in the mineral additions containing concrete composites”. Journal of Hazardous Materials (160): 247 – 255.
  7. Habib Md. Ahsan, Newaz Mohammed Bahadur, Abu JafarMahmood,Md.Anarul Islam. 2012.”Immobilization of heavy metals in cementitious matrices”. Journal of Saudi Chemical Society (16): 263–269.
  8. Lane Deidre A. „Pollution Caused by Waste From the Titanium Dioxide Industry”. Directive 89/428. Boston College International and Comparative Law Review (14) Issue 2 Symposium on European Community Environmental Law.
  9. Marthong C., T. P.Agrawal. 2012. „Effect of Fly AshAdditive on Concrete Properties”. International Journal of Engineering Research and Applications (2): 1986 – 1991.
  10. Neville A. M. 2011. Properties of concrete.
  11. Sahu Kamala Kanta, Thomas C.Alex, Devabrata Mishra,ArchanaAgrawal. 2006. „An overviewon the production of pigment grade titania from titania-rich slag”. Waste Manage Res (24): 74 – 79.
  12. ThomasM.Optimizing the use of fly ash in concrete. Portland CementAssociation.www.cement.org
  13. Witakowski Piotr, Danuta Czamarska, Jan Bobrowicz. 1991. „Skomputeryzowany układ pomiarowy do pomiarów kalorymetrycznych”. Cement,Wapno, Gips (7): 182.
  14. Zakłady Chemiczne „Police” S.A. 2007. „Analiza rynku bieli tytanowej”. Chemical Review (6).
  • mgr inż. Filip Chyliński Instytut Techniki Budowlanej, Zakład Konstrukcji Budowlanych i Geotechniki
  • dr hab. inż. Paweł Łukowski, prof. Politechnika Warszawska, Wydział Inżynierii Lądowej

mgr inż. Filip Chyliński

f.chylinski@itb.pl

Full paper is available at Publisher house SIGMA-NOT Sp. z o.o. webpage

DOI:10.15199/33.2016.10.06