Module information for the next academic year is available below. Current academic year information is also available.
Thermodynamics 1
Module aims
The principal aim is to give students a basic understanding of the fundamental laws of thermodynamics and the ability to use them in solving a range of simple engineering problems. The pace of the course attempts to take account of students' lack of familiarity with the subject from pre-university studies. The aim of the lectures and tutorials is to develop analytical skills and some design appreciation, involving awareness of the interaction between thermodynamics and considerations of energy resources, materials, solid mechanics, economics, the environment etc.
ECTS units: 5
Learning outcomes
On successfully completing this module, students will be able to:
1. Explain the laws and principles of thermodynamics and the principal thermodynamic properties of steam and ideal substances.
2. Analyse thermodynamic processes by applying the laws of thermodynamics to systems and control volumes.
3. Classify a complex thermodynamic process into the main fundamental components.
4. Solve problems relating to steam and ideal substances undergoing such processes.
Module syllabus
Introduction to thermodynamics
Basic concepts
Energy, heat, work and the 1st law of thermodynamics
Properties of substances
The 1st law for flow processes
The 2nd law of thermodynamics
Consequences of the 2nd law
Introduction to thermodynamic power cycles
Fluid statics
Fluids in motion
Internal flows
Teaching methods
Students will be introduced to the main topics through lectures, supported by technology (PowerPoint, Panapto and Blackboard). Short activities (using interactive pedagogies) will occasionally be introduced in the classroom setting to reinforce learning, for example through mentimeter and the like. You will be provided with problem solving sheets and should complete these as part of your independent study. Tutorials sessions will provide small group interaction with teaching staff where you are expected to engage in discussion on specific problems.
Assessments
| Assessment details | ||||
| Pass mark | ||||
| Grading method | Numeric | 40% | ||
| Assessments | ||||
| Assessment type | Assessment description | Weighting | Pass mark | Must pass? |
| Examination | 1.5 Hour exam | 95% | 40% | Y |
| Examination | Progress test | 5% | 40% | N |