Course File Session-2015 Semester: Fall 2016 MT-24: Thermodynamics for Technologists Department of Mechanical Engineering University of Engineering & Technology Lahore. (KSK Campus)
Course File Contents 1 Course Time Table 2 Course Outline List of CLO s Detailed Lecture Plan X X X Schedules: Semester Calendar Mid Term Exam Date Sheet Final Term Exam Date Sheet 4 Sample Quizzes (Graded Best, average and worst cases) 5 Question Paper and Solution of Mid Term Examination 6 Mid Term Exams Answers Sheets (Graded Best, average and worst cases) 7 Question Paper and Solution of Final Term Examination 8 Final Term Exams Answers Sheets (Graded Best, average and worst cases) 9 Sample Assignments (Graded Best, average and worst cases) 10 Lecture Notes
BSc. Mechanical Engineering Technology (Session 2015) rd Semester B.Sc. Mechanical Engineering Technology Course Skeleton Course: Thermodynamics for Technologists Name of Instructor: Adnan Qamar, M.Sc. Class 2015 Semester rd Duration Sep-Jan, 2016-17 Credit hours: (Theory) Class Timings: Monday 0:00 am 0:00 am Tuesday 0:00 am 0:00 am Course Outline: Thermodynamic systems, Thermodynamic properties, Energy and work, Properties of vapor and steam, Properties of ideal and real fluid and their relationships, Applications of thermodynamic principles to these fluids First Law of Thermodynamics and applications Closed and Open systems, Steady flow energy equation applications to Nozzles, Diffusers, Compressors and, Turbines and Second Law of Thermodynamics, Irreversibility, Application to heat engines performance, Entropy Use in heat engines calculations. Recommended Books 1. Applied Thermodynamics for Engineering &Technologist by T.D. Eastop & A. McConkey 5 th Ed. 2. Basic Engineering Thermodynamics by Rayner Joel rd Ed. Components of Assessment: Assessment during the semester = 0 marks Quizzes = 10 Assignments/ Course Work = 10 Class Participation / Attendance / Semester Project / Presentations = 10
Mid Term End Term Examination Total = 0 marks = 40 marks = 100 marks
# Course Learning Outcomes Programme Learning Objectives (PLOs) 1 2 4 5 6 7 8 9 10 11 12 1 To be able to understand the basics of engineering thermodynamics, types of systems and processes, difference between various forms of energy, energy exchange processes and thermodynamic laws. 2 Apply the first law of thermodynamics to closed systems and compute the thermodynamic properties of fluids. Understand implications of the second law of thermodynamics and limitations placed by the second law on the performance of thermodynamic systems. 4 Construct thermodynamic processes on appropriate diagrams and apply the second law of thermodynamics in view of entropy balance. Apply the second law of thermodynamics to refrigeration and heat engine cycles with a view to improve their performance. 5 To be able to apply ideal cycle analysis to simple heat engine cycles to estimate thermal efficiency and work as a function of pressures and temperatures at various points in the cycle.
Course Outline (Week and Lecture Wise) Week No. Lecture No. 1 hour each Course Content to be Covered --- --- Description Objectives CLO s Mapping 1 1-2 Introduction to basic concepts of thermodynamics Understand the basic concepts about heat, work and system. The students shall be able to identify various states of working fluid and reversible and irreversible processes. 1 2-4 First law of thermodynamics To understand the law of conservation of energy and formulation of non-flow energy equation and steady flow energy equation. The students shall be able to apply the energy equations to control mass and control volume systems. 5 5-6 Phases of a pure substance and Property diagrams for phase-change processes Differentiate between the liquid, vapor and gas. The students shall be able to draw the phase diagram of pure water and identify the various state point w.r.t. change in temperature and pressure. 2 4 7-8 Use of vapor tables Understand the steam tables and their application in phase change processes. The students shall be able to use the steam tables to calculate various state points in saturated and superheated regions. 5 9-10 The ideal gas equation of state Differentiate between the real gases and ideal gases. The student shall be able to understand the behavior of real and ideal gases, the relationship between specifics heat capacities and the applications of ideal gas equation. 6 11-12 Reversible non-flow processes (Quiz 1) Differentiate between the constant volume, constant pressure and isothermal processes and to formulate the equations to calculate energy and work during these processes. 7 1-14 Reversible non-flow Reversible flow processes and Understand and to formulate the equations to calculate energy and work in reversible adiabatic and polytrophic control mass systems. The students shall be able to understand the mechanisms of energy transfer in control volume systems. 8 15-16 irreversible and non-steady flow processes Differentiate between free expansion, throttling and adiabatic mixing of fluids. The students shall be able to find the work and energy transfer during non-steady flow processes. 4
9 Mid Term Examination 10 17-18 Introduction to second law of thermodynamics, Entropy and the change of entropy principle Understand the second law of thermodynamics concept of entropy in thermodynamic systems.. The students shall be differentiating between the working principle of Heat engines, refrigerators, and heat pumps and to find out the change in entropy for vapors and ideal gases. 4 11 19-20 Entropy and Reversible processes Calculate the change in entropy and heat for reversible processes. The students shall be able to sketch T-S diagrams for reversible isothermal, isentropic and polytropic processes. 12 21-22 Entropy and Reversible and irreversible processes Calculate the change in entropy and heat for irreversible processes. The students shall be able to sketch T-S diagrams for irreversible processes. 2, 1 2-24 Exergy Understand the concept of exergy. The students shall be able to do the exergy analysis of steady flow and non-steady flow systems 2,,4 14 25-26 Heat Engine Cycles (Carnot Cycle) Basic consideration in the analysis of power cycle. The students shall be able to understand the ideal Carnot cycle and its application in real heat engines. 15 27-28 Air standard cycles (Otto cycle, Diesel Cycle) Differentiate between various air standards cycles. The students shall be able to understand the working principle of spark ignition engine and compression ignition engine. 2 16 29-0 Stirling and Ericsson Cycles for engines (Quiz 2) Understand the stirling and ericsson cycles. The students shall be able to differentiate between the working principles of stirling and ericcon cycles from otto and diesel cycles. 2, 17 1-2 Revision/Queries of the whole course Open discussion of the whole syllabus 18 End Term Examination
University of Engineering and Technology Lahore, (KSK Campus) Department of Mechanical engineering Calendar Year 2016-2017 Fall 2016 Commencement of Semester: 01-09-2016 Mid Term exam: 21-11-2016 to 25-11-2016 Final Term exam: 16-01-2017 to 20-01-2017 Spring 2017 Commencement of Semester: 0-01-2017 Mid Term exam: 27-0-2017 to 1-0-2017 Final Term exam: 29-06-2017 to 02-06-2017 Summer break for students: 08-06-2017 to 01-09-2017