Teaching Responsibility
LJMU Schools involved in Delivery:
LJMU Partner Taught
Learning Methods
Lecture
Tutorial
Module Offerings
4003MEQR-JAN-PAR
Aims
To introduce the essential principles of Thermodynamics and Fluid Mechanics
Module Content
Outline Syllabus:
Thermodynamic definitions:- states, processes, paths, cycles, open and closed systems, pressure, temperature, energy-heat and work transfers. Concepts of work, energy and power. Zeroth and First Laws of Thermodynamics, application of the First Law - Non Flow and Steady Flow Energy Equations (NFEE & SFEE), internal energy, enthalpy. Equations of state of perfect gases and real gases. Analysis of Thermodynamic processes. Properties of mixtures, Gibbs-Dalton laws. Properties of vapours, steam calculations using tabulated data and charts. Brief introduction to the Second Law of Thermodynamics and entropy. Fluid Mechanics definitions:- pressure, density, dynamic/kinematic viscosity, static and dynamic fluid flow. Hydrostatics:- manometry, forces of submerged surfaces, buoyancy. Introduction to fluid dynamics and dimensional analysis. Visualisation methods of fluid flow, stream lines and stream tubes. Bernoulli’s equation and continuity of flow for incompressible fluids. Laws of conservation applied to Fluid Flow. Applications of conservation of energy, conservation of mass and conservation of momentum equations. Brief introduction to losses in pipe fluid flow.
Thermodynamic definitions:- states, processes, paths, cycles, open and closed systems, pressure, temperature, energy-heat and work transfers. Concepts of work, energy and power. Zeroth and First Laws of Thermodynamics, application of the First Law - Non Flow and Steady Flow Energy Equations (NFEE & SFEE), internal energy, enthalpy. Equations of state of perfect gases and real gases. Analysis of Thermodynamic processes. Properties of mixtures, Gibbs-Dalton laws. Properties of vapours, steam calculations using tabulated data and charts. Brief introduction to the Second Law of Thermodynamics and entropy. Fluid Mechanics definitions:- pressure, density, dynamic/kinematic viscosity, static and dynamic fluid flow. Hydrostatics:- manometry, forces of submerged surfaces, buoyancy. Introduction to fluid dynamics and dimensional analysis. Visualisation methods of fluid flow, stream lines and stream tubes. Bernoulli’s equation and continuity of flow for incompressible fluids. Laws of conservation applied to Fluid Flow. Applications of conservation of energy, conservation of mass and conservation of momentum equations. Brief introduction to losses in pipe fluid flow.
Module Overview:
The module aims to introduce the essential principles of thermodynamics and fluid mechanics.
The module aims to introduce the essential principles of thermodynamics and fluid mechanics.
Additional Information:
This module introduces some of the most important fundamental ideas behind the development of core engineering disciplines of thermodynamics and fluid mechanics.
This module introduces some of the most important fundamental ideas behind the development of core engineering disciplines of thermodynamics and fluid mechanics.
Assessments
Test
Exam