Documents about Applied Thermodynamics
Lect_1_intro_163B_W07_HO
UCSC, CHEM 163
Excerpt: ... Chemistry 163B, Winter 2007 Lecture 1 rules of science Chemistry 163B Thermodynamics Winter 2007 observations guiding principles predictions and applications based on principles 1 2 observations observations: thermo heat Count Rumford, 179 ...
|
|
ae405_white_paper_presentation
Michigan, AE 405
Excerpt: ... Thermal Protection System Testing in High Enthalpy Facility White Paper Richard French Vitaliy Grigoriev September 27, 2005 TPS Study Description Construct rudimentary high enthalpy facility Obtain test materials, woods, ceramics, composites, meta ...
|
|
MECH-320ABET2009
Kettering, ME 320
Excerpt: ... MECH-320 2005 Catalog Data: Credit: (4-0-4) Thermodynamics Four Lecture Hours Prerequisite: PHYS-222, Electricity and Magnetism Corequisite: None A study of the first and second laws of thermodynamics and their application to energy conservation l ...
|
|
Lect_1_intro_163B_W08_HO
UCSC, CHEM 163
Excerpt: ... Chemistry 163B, Winter 2008 Introductory Lecture rules of science Chemistry 163B Thermodynamics Winter 2008 observations guiding principles predictions and applications based on principles 1 2 observations observations: thermo heat Count ...
|
|
HW08Soln
WVU, MAE 321
Excerpt: ... MAE 321 Applied Thermodynamics HW 8 Assignment April 29, 2009 The homework is due Friday May 1, 2009. Each problem is worth the points indicated. I encourage you to work in small groups to learn this material. However, copying of the solution from another is not acceptable. 1. Butane (C4H10) is burned with stoichiometric air. Determine (a) the air-to-fuel ratio (massbased) and (b) the exhaust dew point temperature. Assume that the exhaust products are at 1 atm. (33 points) 2. A solid fuel has an ultimate analysis (by mass) of 40% C, 20% H2, and 40% O2. Write the balanced equation for stoichiometric combustion with air. (33 points) 3. Methane is burned with air and the exhaust products are measured (on a dry, volumetric basis) to be 4.8% CO2, 0.12% CO, 12.25% O2, and balance N2. Determine the air-to-fuel ratio (massbased). Note that this is not stoichiometric combustion since oxygen appears in the exhaust. (34 points) 4. Hydrogen, at 25 C and 1 atm, is burned with stoichiometric air, also at 25 C and 1 atm ...
|
|
Lecture4-FlowingSystems
Stanford, CHEMENG 120
Excerpt: ... Lecture 4: Phase Equilibrium in Flowing Systems Last lecture primarily focused on the thermodynamics of separations. We covered: Phase Stability and the Gibbs phase rule. A simple separation based on a vapor-liquid phase diagram. The lever rule. ...
|
|
Lecture4-FlowingSystems
Virginia Tech, CH 001001
Excerpt: ... Lecture 4: Phase Equilibrium in Flowing Systems Last lecture primarily focused on the thermodynamics of separations. We covered: Phase Stability and the Gibbs phase rule. A simple separation based on a vapor-liquid phase diagram. The lever rule. ...
|
|
Lect_1_intro_163B_W09_HO
UCSC, CHEM 163
Excerpt: ... Chemistry 163B, Winter 2009 Introductory Lecture Chemistry 163B Thermodynamics Winter 2009 Thermodynamics is a really beautiful scientific story ! 1 2 rules of science observations observations guiding principles predictions and application ...
|
|
Pressure Reduction Mike
Oakland University, ME 463
Excerpt: ... Mike McConnell 19 September 2006 AME 40463 Senior Design, Group A6 Design Optimization Study of Pressure Reduction System Purpose/Influence on Design Decisions: The purpose of this optimization study is to quantify how a pressure reduction system wo ...
|
|
Pressure Reduction Mike
Oakland University, ME 463
Excerpt: ... Mike McConnell 19 September 2006 AME 40463 Senior Design, Group A6 Design Optimization Study of Pressure Reduction System Purpose/Influence on Design Decisions: The purpose of this optimization study is to quantify how a pressure reduction system wo ...
|
|
SampMidEx
University of Texas, ME 320
Excerpt: ... Name: ME 320 - Applied Thermodynamics Midterm Exam - Summer '01 Open Book, Closed Notes 1. (20 pts) (a) A tank is needed to contain 10 kg of propane at a pressure of 3 MPa and temperature of 134 C. At these conditions, it cannot necessarily be assumed that propane behaves as an ideal gas. Determine the required volume of the tank. (b) At an altitude of 30,000 feet, air has a temperature of -50 C and pressure of 5 psia. At these conditions, air behaves as an ideal gas and has an enthalpy of 95 Btu/lbm. How much energy (including kinetic and potential energy) is associated with 1 lbm of air entering the inlet of a jet engine which is cruising at a speed of 750 ft/s? 2. (30 pts) A frictionless piston-cylinder device with a set of stops on the top contains 5 lbm of saturated liquid water at 20 psia (State 1). Heat is transferred to the water, causing some of it to evaporate and raise the piston. When the piston reaches the stops (State 2), its volume is 1.5 ft 3. Heating continues until the pressure doubles ...
|
|
faculty AEEM 576
Cincinnati, AEEM 576
Excerpt: ... Faculty Summary 120-AEEM-576 Faculty_ Year_ Course Objectives Name of Quarter_ Rocket Propulsion Number of students 5 4 3 2 1 Faculty Assessment The student will be able to: 1. 2. Appreciate rocket history and general operating principles. Apply ...
|
|
l3t
St. Mary MD, PHYS 4360
Excerpt: ... Equation of State Physics 4360, Lecture #3 Thermodynamic system Thermodynamic system The part of the universe treated at a given problem, which state can be completely determined by given thermodynamic variables. 1 Macroscopic approach Treats sys ...
|
|
course introduction
Los Angeles Southwest College, ECHE 311
Excerpt: ... ECHE 311 CHEMICAL ENGINEERING THERMODYNAMICS Fall 2007, 11:00 AM. -12:15 PM TTH, SWGN 2A 21 Professor: Office: Tel: Email: Web site: Office Hrs: Dr. Branko N. Popov 2C19 777-7314 popov@engr.sc.edu http:/www.che.sc.edu Monday 11-12 am, Fri. 11-12 am and by appointment at 777-7314 or by email. Teaching Assistants: Textbook: Smith, Van Ness, and Abbott, "Introduction to Chemical Engineering Thermodynamics" 7th ed., McGraw-Hill, 2005. Ref. Textbooks: Elliot and Lira, "Introduction to Applied Thermodynamics ," Prentice Hall PTR, 1999. K. S. Pitzer, "Thermodynamics," 3rd Edition, Mc. Graw-Hill, 1995. Prerequisite: ENGR 290, Thermodynamic Fundamentals Course Objectives: The students will learn the concepts of chemical engineering systems, evaluation of thermodynamic property changes of pure materials, solution thermodynamics of single-phase multicomponent systems, phase and chemical and electrochemical reaction equilibrium, electrochemical equilibrium. Computer Usage: Extensive use of spreadsheets, MathCad o ...
|
|
Exam02Soln
WVU, MAE 321
Excerpt: ... Name _ MAE 321 Applied Thermodynamics Exam 2 March 11, 2009 Each problem is worth the points indicated. Closed book and closed notes. Cell phone must be turned off. No group work. You must be completed by 10:55 AM with the exam and appendix tables turned in. 1. For the following problems, place the correct answer next to the problem number in the space provided. No other credit will be given. Each problem is worth 5 points each. 1a. B The second law of thermodynamics is a statement about (A) energy conservation. (B) the direction a thermodynamic process can proceed. (C) ideal gas behavior. (D) mass conservation. 1b. A The second law of thermodynamics Kelvin-Planck statement can be summarized as (A) a heat engine cycle must be less than 100% efficient. (B) work must be put into a cycle to transfer energy from a low temperature reservoir to a high temperature reservoir. (C) a reversible steady flow device can be modeled using Bernoulli's equation. (D) all real devices have an isent ...
|
|
KtTables
Purdue, AAE 539
Excerpt: ... AAE 539 Chapter 3: 1-D Incompressible Flow Friction Factor and Kt Tables All figures and tables below are from: SAE Aerospace Applied Thermodynamics Manual, Developed by SAE Committee AC-9, Aircraft Environmental Systems, Society of Automotive Engineers, Inc., New York, 1969. Moody Diagram Fig. 1A-5 shows variation in friction factor, f, with Reynolds number, Re, and relative roughness, /D. Here f = Fanning Friction Factor (4f = Darcy Friction Factor) Kt Losses for 90 Bends (Circular Pipe) Fig. 1A-9 shows combined effect of friction and Kt loss in a 90 elbow for Re = 106. Note minimum loss at bend radius to pipe diameter ratio, r/D, of approximately 3. Fig. 1A-10 shows effects of Re and r/D on Kt for 90 bend (Kt90). Kt Losses for Bends of Arbitrary Angle (Circular Pipe) Fig. 1A-11 shows effects of bend angle, , on Kt in terms of a correction factor, C. C is defined as the ratio of Kt, for bend angle , to Kt90. Kt Losses for Gradual and Sudden Contractions (Circular Pipe) Table 1A ...
|
|
CHEE 5383
U. Houston, CHEE 5383
Excerpt: ... CHEE 5383, Advanced Unit Operations Spring 2005 Catalog Data: 5383 Advanced Unit Operations Cr. 3 (3-0). Prerequisites: Senior standing in ChE or consent of instructor. Property prediction of multicomponent fluid. Advanced principles of multi-compone ...
|
|
l4t
St. Mary MD, PHYS 4360
Excerpt: ... Mathematics and Thermodynamics Physics 4360, Lecture #4 Thermodynamic system Macroscopic approach Treats system as a whole Macroscopic variables 1 Thermodynamic state Thermodynamic variables are well defined for all volume elements of the system ...
|
|
l2t
St. Mary MD, PHYS 4360
Excerpt: ... Thermodynamics Lecture #2 Thermodynamics Classical Statistical Kinetic Theory The description of a physical system Macroscopic Microscopic 1 Classical Thermodynamics Macroscopic approach General properties of the system Macroscopic variables Sta ...
|
|
301
University of Illinois, Urbana Champaign, ATMOS 301
Excerpt: ... Course Schedule - Fall 2008 Atmospheric Sciences 301 Atmospheric Thermodynamics credit: 3 hours. Introduction to fundamental thermodynamic processes that occur in Earth's atmosphere. Defines, describes, and derives various thermodynamic concepts incl ...
|
|
FinalSoln
WVU, MAE 321
Excerpt: ... Name _ MAE 321 Applied Thermodynamics Final May 6, 2009 Do any FIVE (5) problems, clearly indicate the problem NOT to be graded by marking the problem number with an X and write Do Not Grade at the top of the page. Each problem is worth the points indicated. Closed book and closed notes. Cell phone must be turned off. No group work. You must be completed by 1:00 PM with the exam and appendix tables turned in. Clearly state any assumptions or unknowns. 1. Steam is throttled from 8 MPa and 450 C to 6 MPa. If the mass flow rate through the system is 1 kg/s, determine the exergy destruction rate (kW). (20 points) Name _ 2. Consider the ideal Otto cycle operating between the temperature limits of 290 K and 1600 K. For a compression ratio of 8, (a) determine the thermal efficiency and (b) draw a T-s diagram of this cycle. (20 points) Name _ 3. A steam power plant operates between the pressure limits of 15 MPa i ...
|
|
9 - ATP Synthase Energetics
Michigan, BIOMEDE 418
Excerpt: ... BME 418, Quantitative Cell Biology Alan J. Hunt 9 - energetics of ATP-synthase ATP synthase structural points: - F0 stoichiometry and arrangement determination. - What happens of b subunit cut? - Consists of two opposed reversible motors. Character ...
|