Login for PhD students/staff at UCPH      Login for others
Environmental Soil Chemistry
Provider: Faculty of Science

Activity no.: 5714-23-09-31 
Enrollment deadline: 01/09/2023
PlaceDepartment of Plant and Environmental Sciences
Date and timeSeptember 2023 - December 2023
Regular seats10
ECTS credits8.00
Contact personHans Chr. Bruun Hansen    E-mail address: haha@plen.ku.dk
Enrolment Handling/Course OrganiserHans Chr. Bruun Hansen    E-mail address: haha@plen.ku.dk
Written languageEnglish
Teaching languageEnglish
Semester/BlockBlock 1
Block noteThe course runs from start of September and the following 16 weeks; specific timing to be planned together with course teacher.
Scheme groupNot included in the scheme group
Scheme group noteMSc part of the PhD course falls in teaching group C (Monday afternoon, Wednesday)
Exam formWritten assignment
Exam detailsWritten report or commented poster on topic agreed with the course teacher. Preferably to be completed within two months after termination of the tutorials.
Grading scalePassed / Not passed
Course workload
Course workload categoryHours
Preparation120.00
Theory exercises30.00
Project work100.00
Sum250.00
Aim and content
This course presents an overview of the various processes determining the fate of natural and anthropogenic pollutants in soils, sediments and water.

An overview of pollutants in soil and water media is given for a wide spectrum of pollutants, including both nutrients, inorganic pollutants (like heavy metals and radionuclides), and organic contaminants (such as pharmaceuticals, pesticides, solvents, polymers). Both solids (like clays, metal oxides, carbonates, humic matter) and the solution phase properties are included to enable estimation of pollutant distribution, sorption (incl. bioavailability), transformation, and mineralization. Main focus is on reactions at the solid-solution interfaces in soil and sediment systems, such as sorption (pollutant bonding), abiotic degradation (oxidation/reduction, hydrolysis, photolysis) and microbial/enzymatic degradation. The course includes a short introduction and training in the use of equilibrium computation (MINTEQ) and QSAR tools (EPISuite).
Focus throughout the course is on a quantitative approach enabling calculations to estimate pollutant distribution, degradation rates and transformation pathways, product speciation, etc. for quantifying the fate of pollutants.

Part of the course comprise lectures and exercises from the MSc course "Soil and Water Pollution - concepts and theories" taught in block 1. Together with the course teacher each PhD student plans which lectures and other activities to join.
In addition to these lectures and exercises, there will be 3 - 4 tutorials/colloquia with only the PhD students. The colloquia are mainly spent on papers and topics of interest by the students. The papers are discussed in plenum and presented by the course participants.


In summary, the main topics of the course are:
• Properties of geosorbents (metal oxides, silicates, humic matter)
• Transformation processes at particle surfaces (minerals, organic matter)
• Microbial populations and microbial degradation of pollutants
• Basic models for equilibrium speciation, solubility, and for sorption of ionic and non-ionic pollutants (e.g. pesticides, petrochemicals, PAH's/PCBs, trace metals, natural toxins) including surface complexation models.
• Kinetics of sorption and degradation processes incl. diffusion.
• Hydrolysis of metal ions and organic pollutants
• Redox processes - degradation and mobility of pollutants.
• Photochemical processes, direct and indirect.
• Sorption and activity of biological macromolecules (enzymes, proteins, DNA, biodetergents)
•Particles as pollutant transporters
•Coupled abiotic and microbial pollutant degradation processes
•Pollutant remediation – how do we use insight from natural processes to develop remediation technologies.

It is possible to take part of the course with an extent of 5 ects rather than 8 ects by skipping parts of the course – in agreement with the course teacher.

Formel requirements
Academic qualifications:
Basic insight in chemistry, soil chemistry, and microbiology
Course info:
The PhD students following the course will be registered for use of the course info system (Absalon) where all teaching material and info is presented. PhD students should register for that by contacting the course responsible teacher.

Learning outcome

* Overview of pollutant classes, pollutant distribution and risks
* Knowledge on structure of particle surfaces in soil and aquatic environment
* Knowledge and computation of chemical reactions at the solid-solution interface critical to pollutant  fate. Equilibrium and kinetics applied to biogeochemical processes.
* Knowledge on prime microbial degraders in soils, microbial degradation reactions and degradation pathways
* Estimation of pollutant chemical and physical properties, and speciation calculation
* Insight on engineering of particle surfaces for sorption and degradation of pollutants.

Literature
• Schwarzenbach et al. (2016) Environmental Organic Chemistry. Selected chapters.
• Journal articles (distributed during the course)
• Equilibrium computation software (VMINTEQ) and other software (e.g. EpiSuite and chemical drawing programs). To be downloaded from the internet
• Own lecture notes

Target group
Academic qualifications:
Basic skills in chemistry, soil chemistry, and microbiology

Teaching and learning methods
Lectures and computational exercises in the MSc part of the course (Soil and Water Pollution) + colloquia specific for PhD students.

Remarks
Free of charge for PhD-students under the Open Market for Postgraudate Courses in Denmark and from NOVA-partners.

Exam period:
Time for hand-in of report (e.g. paper draft) or commented poster to be agreed between course responsible and the PhD student. We suggest to hand-in no later than two months after course termination.
*
UCPH discloses non-sensitive personal data to course leader/speakers, if any. In addition, we will disclose non-sensitive personal data to the other participants in the course. Non-sensitive personal data includes names, job positions, institution names & addresses, telephone numbers and e-mail addresses.

Search
Click the search button to search Courses.


Course calendar
See which courses you can attend and when
JanFebMarApr
MayJunJulAug
SepOctNovDec



Publication of new courses
All planned PhD courses at the PhD School are visible in the course catalogue. Courses are published regularly.