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Remediation technology

* Exchange students do not have to consider this information when selecting suitable courses for an exchange stay.

Course Unit Code541-0149/01
Number of ECTS Credits Allocated5 ECTS credits
Type of Course Unit *Compulsory
Level of Course Unit *Second Cycle
Year of Study *Second Year
Semester when the Course Unit is deliveredSummer Semester
Mode of DeliveryFace-to-face
Language of InstructionCzech
Prerequisites and Co-Requisites Course succeeds to compulsory courses of previous semester
Name of Lecturer(s)Personal IDName
RAC20prof. Ing. Helena Raclavská, CSc.
Summary
Overview of industrial branches and their impact on environment (water, soil and contamination of buildings). Industrial branches – typical pollutants (European database system – Kloke lists). The basis physic-chemical, toxicological properties of pollutants, their mobility in environment.
The evaluation of environmental risks: the definition, basic terms. The methodology for evaluation of risks, evaluation of hazardous properties o chemical matter and their mixtures. Evaluation of risks for terrestric and aquatic ecosystems. Case studies, the prediction of influence of chemical compounds on the basis of chemical structure (ECOSTAR), ecotoxicity tests.
Principles of remediation technology. Procedure for evaluation of optimal technologies. Bioremediation technologies for soil decontamination. Technological possibilities (limits), optimization of technology, the request for protection of areas for decontamination. Remediation technology for underground water. Thermic methods – principles, possibilities, limits, pollutants. Physical and chemical methods for remediation technology – stabilisation/solidification. Principles, possibilities. Limits. Waste management with remediation technology for brownfields. Technology and materials for land reclamation of brownfields.
Learning Outcomes of the Course Unit
The basic goal of the subject is acquaint the students with methodology of evaluation of environmental risks, the choice of decontamination technology qualified by the method of utilization of area and waste management for technological solution of brownfields.
Acknowledgement: students prove theoretical and practical knowledge from remediation technologies and managing of their principles for choice of technology from the point of view to achievement of concentration limits on the basis of case studies.
Skills: development of independence, strategy for decision making for choice of remediation technology.
Course Contents
1.Introduction. Old ecological loads, brownfields. The differences, definition, the information on deterioration landscape.
2.Old ecological loads. Criterion for evaluation of groundwater contamination and soil contamination. The basic physico-chemical and chemical properties of soils.
3.Legislation and the methods for evaluation of old ecological loads.
4.Extraneous compounds in soil and ground water. The main pollutants present in brownfields. Persistent organic Pollutants, risk elements – the ocurence, behaviour, properties.
5.Risk analysis. The method of determination. Sampling. The determination of area extent of contamination. The method for surveying.
6.Mobility of pollutants (condition in environment and factors influencing mobility). The basic technologic possibilities for migration prevention.
7.Biological methods for soil decontamination. Principles of biological method decontamination. Case study of phenols biodegradations, polyaromatic hydrocarbons and nonpolar hydrocarbons.
8.Physico-chemical method soil decontamination: soil sparging, washing, extraction, degasation, dehalogenation, stabilisation/solidification.
9.Thermic methods of soil decontamination. The basic energetic parameter for fuels and combustion. Thermic desorption (low temperature and high temperature). Vitrification. Combustion. Pyrolysis.
10.Co-combustion of waste. Technology “Zero-Waste” for energetic instalations and power plants.
11.The other technologies for soil decontamination. Electrokinetic soil decontamination.
12.Technology for underground water processing: stripping, air sparging, passive protection: barriers, bioreactors and biofiltration, ionexes, precipitation, UV-oxidation, membrane separation, O3-oxidation.
13.Technology for underground water processing: sorption processes.
14.Landfills. Technology for landfills reclamation. The mineral raw materials and wastes for reclamation. Geotechnical protection of landfills, monitoring of ground water (parameters, borehole position), recultivation systems.
Recommended or Required Reading
Required Reading:
Bagaeen S., Clark C., Sustainable Regeneration of Former Military Sites. Routlege, Oxon, USA, 2016, 1-213. ISBN: 978-1-315-62178-4
Hollander J., Kirkwood N., Gold J., Principles of Brownfield Regeneration. Cleanup, Design and Reuse of Derelict Land. Island Press Washington, 2011, 1-152. ISBN: 9781597267229.
Hubbart W.D., The Failure of Risk Management: Why It's Broken and How to Fix It. 2009. John Wiley.
Hula R.C. Reclaiming Brownfields: A Comparative Analysis of Adaptive Reuse of Contaminated Properties. Routledge, 2016, 1-406. ISBN: 1317070623.
Todd D., Scott S.: Brownfields: A Comprehensive Guide to Redeveloping Contaminated Property. 2011, 3rd Edition. American Bar Association. 1-1145. ISBN-10: 1616320001
Černík M.: Chemicky podporované in situ sanační technologie. VŠCH Praha, 2010. 1-336. ISBN:978-80-7080-767-5
Frankovská J., Slaninka I., Kordík J.: Atlas sanačních metod environmentálních záťaží.2011. Štátný geologický ústav Dionýsa Štúra, Bratislava.
Raclavský K., Raclavská H., Matýsek D.: Ochrana půd. 2014. II. Vydání. Multimediální CD-ROM.VŠB-TU Ostrava.
Zamarský V., Tylčer J., Střelec K., Kalab:, Martinec P.: Podrobný popis produktu regenerace průmyslových ploch.II. VŠB – TU Ostrava, 2011, 1-194. http://ucebnice.remediace.cz/default.asp
Recommended Reading:
Hargreaves J.S.J., Pulford I.D., Balakrishnan M., Batra V.S. (2013): Conversion of large scale wastes into value added products. CRC Press, Boca Raton, 1-174.
Pichtel J. (2014): Waste management practices: Municipal, hazardous and industrial. 2nd Edition, CRC Press, Boca Raton, 1-680.
http://www.epa.gov/brownfields/
http://www.brownfieldy.cz/seznam-brownfieldu/
Jackson J.B., Staňková E., Zlámalová B.: Brownfields snadno a rychle. 2004. IURS - Institut pro udržitelný rozvoj sídel, o.s. (www.brownfield.cz).
Planned learning activities and teaching methods
Lectures, Tutorials
Assesment methods and criteria
Task TitleTask TypeMaximum Number of Points
(Act. for Subtasks)
Minimum Number of Points for Task Passing
Credit and ExaminationCredit and Examination100 (100)51
        CreditCredit33 17
        ExaminationExamination67 34