ENTC 370 – Thermodynamics Lab Fall 2012 Syllabus COURSE OBJECTIVES: (1) To learn and understand the principles of thermal and mechanical energy. This includes the study of energy transformations and thermodynamic relationships applied to flow and non-flow processes in power and refrigeration cycles. (2) To provide the student the necessary analytical skills to solve and analyze a variety of energy related problems. Lab Lecture Room: INSTRUCTOR: Email: Office: Phone: Office Hours: Thompson 008 and 115b Dr. Jorge L. Alvarado alvarado@entc.tamu.edu Thompson 118 C (979) 458-1900 Tuesday at 1 PM and Thursday at 11 AM Teaching Assistant: Taolue Zhang E-mail: chamtalent@hotmail.com Office: WERC 160 GRADING: Reports Final Project TOTAL 20 Points each; Total Report Grade is 80% of Lab Grade (12% of Overall Course Grade) 20% of Lab Grade (3% of Overall Course Grade) 100% (15% of Overall Course Grade) NOTES: 1. Late work will not be accepted except for authorized absences per TAMU regulations. 2. Laboratory theory may be included in the exams. 3. Attendance is as per university regulations. Week 1 2 3 4 5 6 7 8 9 10 11 12 13 14 Topic Lab introduction, safety and rules, Word and Excel tutorial EES introduction (20-point report, Individual) Temperature sensor calibration (20-point report, Team effort) EES- Energy transfer (20- point report, Individual) Calorimeter (20-point report, Team effort) EES- First law of Thermodynamics (20-point report, Individual) Energy balance experiment (20-point report, Team effort) EES- Second law of Thermodynamics (20-point report, Individual) Second Law Experiment (20-point report, Team effort) EES- Refrigeration Cycle, Internal Combustion Engine Simulation (20-point report, Individual) Assign final lab activity. Refrigeration cycle (20-point report, Team effort) Refrigeration cycle Part 2 (20-point report, Team effort) No labs Submit Final Report and Presentation (20% of Lab Grade, Team effort) Relation between ENTC 370 Course Objectives and MMET Program Outcomes The Manufacturing and Mechanical ET program is designed to provide the student with several skills at the time of graduation. These skills and abilities are stated in the following MMET Program Outcomes: A Manufacturing and Mechanical Engineering Technology graduate has the following abilities at the time of graduation: (a) An appropriate mastery of the knowledge, techniques, skills and modern tools of manufacturing and mechanical systems and processes. (b) An ability to apply current knowledge and adapt to emerging applications of mathematics, science, engineering and technology. (c) An ability to conduct, analyze and interpret experiments and apply experimental results to improve processes. (d) An ability to apply creativity in the design of systems, components or processes appropriate to program objectives. (e) (f) An ability to function effectively on teams. An ability to identify, analyze and solve technical problems. (g) An ability to communicate effectively. (h) A recognition of the need for, and an ability to engage in lifelong learning. (i) An ability to understand professional, ethical and social responsibilities. (j) A respect for diversity and a knowledge of contemporary professional, societal and global issues. (k) A commitment to quality, timeliness, and continuous improvement. (l) An ability to apply the technologies of engineering materials, manufacturing processes, automation, production operations, quality, statics, dynamics, strength of materials, fluid power or fluid mechanics, thermodynamics, and either electrical power or electronics, and statistics to the solution of manufacturing problems. (m) An ability to apply with an added technical depth: manufacturing processes, mechanical design, electro-mechanical devices and controls (automation), and production operations. (n) An ability to apply physics having an emphasis in applied mechanics, plus added technical topics in physics and inorganic chemistry principles related to manufacturing and mechanical systems and processes. (o) An ability to successfully complete a comprehensive design project related to mechanical or manufacturing fields. The following table indicates how this course contributes to the achievement of the overall programmatic educational outcomes. Entries with an “H”, “M”, and “L”, refer to high, medium, and low relevancy, respectively. COURSE OBJECTIVE (1) To learn and understand the principles of thermal and mechanical energy. This includes the study of energy transformations and thermodynamic relationships applied to flow and non-flow processes in power and refrigeration cycles. Equipment studied includes compressors, steam turbines, gas turbines, heat exchangers, nozzles, diffusers, pumps and piston-cylinder devices. (2) To provide the student the necessary analytical skills to solve and analyze a variety of energy related problems. a b c MMET Program Educational Outcome d e f g h i j k l H H M L H H H H M H L L m n L H M L H M o IMPORTANT The Handouts used in this course are copyrighted. By “handouts,” I mean all materials generated for this class, which include but are not limited to syllabi, quizzes, exams, lab problems, in-class materials, review sheets, and additional problem sets. Because these materials are copyrighted, you do not have the right to copy the handouts, unless I expressly grant permission. AMERICANS WITH DISABILITIES ACT POLICY STATEMENT: The Americans with Disabilities Act (ADA) is a Federal anti-discrimination statute that provides comprehensive civil rights protection for persons with disabilities. Among other things, this legislation requires that all students with disabilities be guaranteed a learning environment that provides for reasonable accommodation of their disabilities. If you believe that you have disability requiring accommodation, please contact the Department of Student Life, Services for Students with Disabilities, in room 126 of the Koldus Building, or call 845-1637. ACADEMIC DISHONESTY: For many years Aggies have followed a Code of Honor, which is stated as: “Aggies do not lie, cheat, or steal, nor do they tolerate those who do.” The Aggie Code of Honor is an effort to unify the aims of all Texas A&M men and women toward a high code of ethics and personal dignity. For most, living under this code will be no problem, as it asks nothing of a person that is beyond reason. It only calls for honesty and integrity, characteristics that Aggies have always exemplified. The Aggie Code of Honor functions as a symbol to all Aggies, promoting understanding and loyalty to truth and confidence in each other. Effective September 1, 2004, the Office of the Aggie Honor System is operational; see http://www.tamu.edu/aggiehonor. There is a zero tolerance for academic dishonesty. Violations will be addressed by the Aggie Honor System Office and in compliance with Texas A&M Student Rules, http://student-rules.tamu.edu/rules20.htm