New Evaluation Methodology for Solidification Product Durability Assessment
This paper deals with a proposal of a new
methodology for durability assessment of solidification product for
its safe further use. The new methodology is based on a review of the
current state of assessment of treated waste in Czech Republic and
abroad. The aim of the paper is to propose an optimal evaluation
methodology for verifying properties of solidification product to
ensure its safe further use in building industry.
[1] Malviya, R., Chaudhary, R., 2006. Factors affecting hazardous waste
solidification/stabilization: A review, Journal of Hazardous Materials
B137 (2006) 267–276.
[2] Qian, G., Cao, Y., Chui, P., Tay, J. Utilization of MSWI fly ash for
stabilization/solidification of industrial waste sludge, In Journal of
Hazardous Materials B129,2006, p. 274–281.
[3] Zhang, J., Liu, J., Li, C., Jin, Y., Nie, Y., Li, J., 2009. Comparison of the
fixation effects of heavy metals by cement rotary kiln co-processing and
cement based solidification/stabilization, Journal of Hazardous Materials
165 (2009): 1179–1185.
[4] Eskander, S.B., Abdel Aziz, S.M., El-Didamony, H., Sayed, M. I.,
Immobilization of low and intermediate level of organic radioactive
wastes in cement matrices.(2011) Journal of Hazardous Materials, 190
(1-3), pp. 969-979.
[5] Plecas, I.B., Dimovic, S., Immobilization of industrial waste in cementbentonite
clay matrix.(2004) Bulletin of Materials Science, 27 (2), pp.
175-178.
[6] Stegemann, J.A., Zhou, Q., Screening tests for assessing treatability of
inorganic industrial wastes by stabilization/solidification with cement.
Journal of Hazardous Materials,2009, 161 (1): 300 – 306.
[7] EPA – Office of Solid Waste and Emergency Response,
Solidification/Stabilization Use at Superfund Sites, 2000, United States,
c. n.68-W-99-003.
[8] Kafka, Z., Punčochářová, J., Využití procesu solidifikace/stabilizace
přizneškodňovánínebezpečnýchsložek v průmyslových odpadech, Ústav
chemie ochrany prostředí, Vysoká škola chemicko-technologická Praha,
In IUAPPA Praha 2000, Czech Republic, 2000.
[9] Hills, C.D. Introduction to the science behind stabilization/solidification
technology, In Stabilization/Solidification Symposium, Halifax, Nova
Scotia, 2007.
[10] Detwiler, R.J., Bhatty, J.I., Bhattacharja, S., Supplementary cementing
materials for use in blended cements, Research and Development,
Bulletin RD112T, Portland Cement Association, USA, 1996.
[11] Asavapisit, S., Naksrichum, S., Harnwajanawong, N., Strength,
leachability and microstructure characteristics of cement-based solidified
plating sludge, Cement and Concrete Research, Volume 35, Issue 6, June 2005, Pages 1042-1049, ISSN 0008-
8846,10.1016/j.cemconres.2004.07.041.
[12] Li, X.D., Poon, C.S., Sun, H., Lo, I.M.C., Kirk, D.W., Heavy metal
speciation and leaching behaviors in cement based solidified/stabilized
waste materials, J. Hazard. Mater.A82 (2001): pp 215– 230.
[13] Karfíková, M., Havlica, J., Imobilizace odpadních iontů ve structure
ettringitu, Ústav chemie materiálů, Chemická fakulta, VUT Brno,
Materials Structure In Chemistry, Biology, Physics and Technology
Bulletin of the Czech and Slovak Crystallographic AssociationRPDK
98,1998, pp 47 – 48.
[14] Sora, N., Pelosato, R., Botta, D., Dotelli, G., Chemistry and
microstructure of cement pastes admixed with organic liquids, Journal of
the European Ceramic Society, Volume 22, Issues 9-10, September
2002, pp. 1463-1473.7
[15] Choon-Keun Park, Hydration and solidification of hazardous wastes
containing heavy metals using modified cementious materials, In
Cement and Concrete Research 30, 2000, p.429-435.
[16] Report on the Environment of the Czech Republic 2011
[17] Hodul, J., Development of a new methodology for solidification
products made of hazardous waste durability evaluation, Brno, Czech
Republic 2013. 60 Brno University of Technology.
[1] Malviya, R., Chaudhary, R., 2006. Factors affecting hazardous waste
solidification/stabilization: A review, Journal of Hazardous Materials
B137 (2006) 267–276.
[2] Qian, G., Cao, Y., Chui, P., Tay, J. Utilization of MSWI fly ash for
stabilization/solidification of industrial waste sludge, In Journal of
Hazardous Materials B129,2006, p. 274–281.
[3] Zhang, J., Liu, J., Li, C., Jin, Y., Nie, Y., Li, J., 2009. Comparison of the
fixation effects of heavy metals by cement rotary kiln co-processing and
cement based solidification/stabilization, Journal of Hazardous Materials
165 (2009): 1179–1185.
[4] Eskander, S.B., Abdel Aziz, S.M., El-Didamony, H., Sayed, M. I.,
Immobilization of low and intermediate level of organic radioactive
wastes in cement matrices.(2011) Journal of Hazardous Materials, 190
(1-3), pp. 969-979.
[5] Plecas, I.B., Dimovic, S., Immobilization of industrial waste in cementbentonite
clay matrix.(2004) Bulletin of Materials Science, 27 (2), pp.
175-178.
[6] Stegemann, J.A., Zhou, Q., Screening tests for assessing treatability of
inorganic industrial wastes by stabilization/solidification with cement.
Journal of Hazardous Materials,2009, 161 (1): 300 – 306.
[7] EPA – Office of Solid Waste and Emergency Response,
Solidification/Stabilization Use at Superfund Sites, 2000, United States,
c. n.68-W-99-003.
[8] Kafka, Z., Punčochářová, J., Využití procesu solidifikace/stabilizace
přizneškodňovánínebezpečnýchsložek v průmyslových odpadech, Ústav
chemie ochrany prostředí, Vysoká škola chemicko-technologická Praha,
In IUAPPA Praha 2000, Czech Republic, 2000.
[9] Hills, C.D. Introduction to the science behind stabilization/solidification
technology, In Stabilization/Solidification Symposium, Halifax, Nova
Scotia, 2007.
[10] Detwiler, R.J., Bhatty, J.I., Bhattacharja, S., Supplementary cementing
materials for use in blended cements, Research and Development,
Bulletin RD112T, Portland Cement Association, USA, 1996.
[11] Asavapisit, S., Naksrichum, S., Harnwajanawong, N., Strength,
leachability and microstructure characteristics of cement-based solidified
plating sludge, Cement and Concrete Research, Volume 35, Issue 6, June 2005, Pages 1042-1049, ISSN 0008-
8846,10.1016/j.cemconres.2004.07.041.
[12] Li, X.D., Poon, C.S., Sun, H., Lo, I.M.C., Kirk, D.W., Heavy metal
speciation and leaching behaviors in cement based solidified/stabilized
waste materials, J. Hazard. Mater.A82 (2001): pp 215– 230.
[13] Karfíková, M., Havlica, J., Imobilizace odpadních iontů ve structure
ettringitu, Ústav chemie materiálů, Chemická fakulta, VUT Brno,
Materials Structure In Chemistry, Biology, Physics and Technology
Bulletin of the Czech and Slovak Crystallographic AssociationRPDK
98,1998, pp 47 – 48.
[14] Sora, N., Pelosato, R., Botta, D., Dotelli, G., Chemistry and
microstructure of cement pastes admixed with organic liquids, Journal of
the European Ceramic Society, Volume 22, Issues 9-10, September
2002, pp. 1463-1473.7
[15] Choon-Keun Park, Hydration and solidification of hazardous wastes
containing heavy metals using modified cementious materials, In
Cement and Concrete Research 30, 2000, p.429-435.
[16] Report on the Environment of the Czech Republic 2011
[17] Hodul, J., Development of a new methodology for solidification
products made of hazardous waste durability evaluation, Brno, Czech
Republic 2013. 60 Brno University of Technology.
@article{"International Journal of Earth, Energy and Environmental Sciences:67910", author = "Bozena Dohnalkova and Jakub Hodul and Rostislav Drochytka and Jana Kosikova", title = "New Evaluation Methodology for Solidification Product Durability Assessment", abstract = "This paper deals with a proposal of a new
methodology for durability assessment of solidification product for
its safe further use. The new methodology is based on a review of the
current state of assessment of treated waste in Czech Republic and
abroad. The aim of the paper is to propose an optimal evaluation
methodology for verifying properties of solidification product to
ensure its safe further use in building industry.
", keywords = "Solidification/stabilization, durability, waste.", volume = "8", number = "6", pages = "455-5", }
