Prevention and Remediation of Environmental Contamination (CENG0036)

Key information

Faculty: Faculty of Engineering Sciences
Teaching department: Chemical Engineering
Credit value: 15

Restrictions: This module is only available to students enrolled for the MSc in Global Management of Natural Resources.
Timetable

Alternative credit options

There are no alternative credit options available for this module.

Description

Aims:

The aim of this module is to enable the students to understand possible environmental consequences connected with the extraction and utilization of natural resources. The students will learn how to prevent these consequences, and they will also learn how to remediate some of them, should it be required. The students will learn qualitative the methods that can, and should, be put in place to prevent environmental contaminations, and will also learn the basics of processes that could be implemented to remediate existing contaminations. The students will also become familiar with societal concerns related to the mining, the nuclear, and the mineral industry in general.

Learning Outcomes:

Upon successful completion of this module the students will be able to:

appraise the possible environmental consequences of basic mineral operations;
design remediation strategies for common types of environmental contamination;
argue the physical chemistry elements regarding the remediation strategies;
formulate the importance of legacy in operations related to natural resources;
appraise possible methods to store nuclear waste

Synopsis:

This module has the goal of illustrating possible environmental consequences related to the extraction and handling of natural resources. Focus will be on acid drainage and sulfide oxidation, as related to the mining industry, as well as on nuclear waste and water use in many activities related to the sub-surface.

The course will touch upon the processes of environmental contaminations, the measurements of such contamination, prediction and methods to prevent the contamination, regulatory examples on how to manage mining in a responsible manner, and processes that could be implemented to remediate contaminated areas.

The module will consider:

Nuclear waste management
Acid drainage and sulfide oxidation
Natural acid rock generation, drainage and metal leaching: Impact on exploration, mining and reclamation
Sampling strategies; acid drainage and aquatic resources
Prevention of arsenic mobilization
Water usage in shale rock stimulation
Remediation processes including water reclamation
Mine reclamation policy and regulation of selected jurisdictions
Case study and site visit

Expert lectures and field trips will contribute to the course.

Module deliveries for 2024/25 academic year

Intended teaching term: Term 2 听听听 Undergraduate (FHEQ Level 7)

Teaching and assessment

Mode of study: In person
Methods of assessment: 20% In-class activity

80% Coursework
Mark scheme: Numeric Marks

Other information

Number of students on module in previous year: 11
Module leader: Dr Alex Norori-mccormac
Who to contact for more information: chemeng.teaching.admin@ucl.ac.uk

Intended teaching term: Term 2 听听听 Postgraduate (FHEQ Level 7)

Teaching and assessment

Mode of study: In person
Methods of assessment: 20% In-class activity

80% Coursework
Mark scheme: Numeric Marks

Other information

Number of students on module in previous year: 57
Module leader: Dr Alex Norori-mccormac
Who to contact for more information: chemeng.teaching.admin@ucl.ac.uk

Last updated

This module description was last updated on 19th August 2024.

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