Module Information

Module Identifier
Module Title
Academic Year
Semester 2
Other Staff

Course Delivery

Delivery Type Delivery length / details
Lecture 12 x 1 hour lectures
Seminars / Tutorials 6 x 2 hour tutorials
Practical 3 x 3.5 Hour prac
Other Students will also take part in field work/site visits for 30h total and a career day where they will meet and hear from industry (7.5 hours)


Assessment Type Assessment length / details Proportion
Semester Assessment Group case study  2500 word group report  20%
Semester Assessment Individual case study and report  2500 word case study and report development of a bioenergy resource for an advanced conversion technology  30%
Semester Assessment Individual scoping report  1500 word report and oral presentation  30%
Semester Assessment Individual review of a single bioconversion technology  1500 words  20%
Supplementary Assessment Resubmission of individual elements  Resubmission of individual elements. Alternative to group case study report (as determined by the examination board).  100%

Learning Outcomes

On successful completion of this module students should be able to:

1. Critically assess bioenergy as a route to reduce greenhouse gas emissions.

2. Demonstrate a fundamental and practical knowledge of biomass resources and conversion technologies.

3. Make confident, sound and objective judgments on the complex scientific and societal issues associated with bioenergy.

4. Be confident in the communication of scientific issues, tothe public and peers, with accuracy and clarity, both orally and in writing.

Brief description

This module provides the foundational skills required to explore Bioenergy in the context of climate change, knowledge of biomass resources and bioenergy conversion pathways and supply chains, and looks at environmental impacts including carbon mitigation associated with bioenergy. Student-centered learning will be supported by lectures, background reading, workshops, and the production of reports and presentations.


The module explores climate change in terms of trends and broad consequences in the context of Intergovernmental Panel on Climate Change (IPCC) scenarios. Mitigation, including the concept of stabilization and adaptation, are discussed.
The nature and development of biomass resources will be evaluated through the investigation of selected examples such as biofuel crops, forestry, wastes (e.g. from animal farms) and algae. These investigations will include comparisons of historic and new generation biofuels and ‘market’ traits such as availability, economics, transport and regulations.
Bioconversion pathways are described. Examples include thermal technologies, biofuels, anaerobic digestion, biohydrogen, combined heat and power, bioethanol from lignocellulose, and the biorefinery concept.
Environmental impacts are explored through scoping reports of carbon mitigation and sequestration, life cycle assessments, visual effects on landscape, nitrogen leaching, soil erosion and water quality.

Module Skills

Skills Type Skills details
Application of Number Problem solving, carbon sequestrations, conversion efficiencies of various technologies.
Communication Oral presentation and group work.
Improving own Learning and Performance Targeted self-learning.
Information Technology Use of computational resources, modeling etc.
Personal Development and Career planning Networking during visits and career pathway planning insight into potential areas of future employment.
Problem solving Practical workshops involving case studies.
Research skills Research for the report and presentation assessments.
Subject Specific Skills Application of the principles underlying the use of crops for bioenergy. Evaluation of their impacts on environmental change. Deconstruction and critical evaluation of the literature and compilation of subject specific reports and case studies.
Team work Group work.


This module is at CQFW Level 7