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Michigan >> BME >> 516 (Fall, 2009)
BME/EECS 516 (2004) FT Notes 1 Notes on the Fourier Transform Definition. The Fourier Transform (FT) relates a function to its frequency domain equivalent. The FT of a function g(x) is defined by the Fourier integral: G ( s ) = F{g ( x)} = fo...
Michigan >> BME >> 516 (Fall, 2009)
Noll (2004) US Notes 1: page 1 Ultrasound Notes, Part I The Basics Ultrasound imaging is a direct, non-reconstructive form of imaging where image formation is obtained by localizing an ultrasonic wave to a small volume in 3D space. Two dimen...
Michigan >> BME >> 516 (Fall, 2009)
Noll (2004) US Notes 3: page 1 Ultrasound Notes 3: Array Systems While early US systems used a single focus tranducer and mechanical sweeping of the transducer to different angles, nearly all modern US systems are array systems where focussing is n...
Michigan >> BME >> 516 (Fall, 2009)
Noll (2004) US Notes 4: page 1 Ultrasound Notes 4: Doppler Imaging of Blood Flow with US One of the more interesting and useful applications of US is for the imaging of flow in the body. One way to do this is track speckle patterns over time using...
Michigan >> BME >> 516 (Fall, 2009)
Noll (2004) MRI Notes 3: page 1 Notes on MRI, Part III The 3rd Dimension - Z The 3D signal equation can be written as follows: s (t ) = m( x, y, z ) exp(i 2 (k (t ) x + k y (t ) y + k z (t ) z )dxdydz x = M (u , v, w) u = k x ( t ),v = k y ( t )...
Michigan >> BME >> 516 (Fall, 2009)
Noll (2004) CT Notes 1: Page 1 Computed Tomography Notes, Part 1 Challenges with Projection X-ray Systems The equation that governs the image intensity in projection imaging is: I d ( x, y ) = I 0 exp ( x, y, z )dz there are some major drawback...
Auburn >> ENG >> 4860 (Fall, 2009)
CHEN 4860 - Unit Operations II Course Syllabus, Summer 2008 Catalog Description CHEN 4860: CHEMICAL ENGINEERING LABORATORY II (2). Lec. 1, Lab 2. Pr. CHEN 3660, CHEN 3820. Coreq. CHEN 3620, CHEN 3700. Experimental study of mass transfer, separations...
Auburn >> ENG >> 4860 (Fall, 2009)
CHEN4860: January 2006 Sunday 1 2 Monday 3 Tuesday 4 Wednesday 5 Thursday Friday 6 Saturday 7 8 9 10 11 12 13 14 Mills Out of Town 15 16 17 18 19 20 21 MLK HOLIDAY- UNIVERSITY CLOSED 22 23 24 Lect.(AE355, 1:00pm): Syllabus,class/lab s...
Michigan >> BME >> 516 (Fall, 2009)
BME/EECS 516 (Noll) 10/26/04 HW #4 Homework #4 Due Date: Nov. 4, 2004 1. For magnetization vector M and applied field B0 with an angle separating them, use the Bloch equations to show that the rate of precession of M around B0 is 0 = B0. 2. In c...
Michigan >> BME >> 516 (Fall, 2009)
BME/EECS 516 (Noll) 10/12/04 US Project: p. 1 Ultrasound Project Due Date: Nov. 7, 2004 65 Elements d (0,0) r z x In this project, you will implement the beamforming and scan conversion algorithms for a simulated ultrasound system (above). Thi...
Auburn >> MANS >> 486 (Fall, 2009)
Pressure reactor Exp. Mcmaster-Carr order for tubing 1/4 \" pipe to 1/8 swage nut front sleeve rear sleeve new belt 3/8 x 31\" 5182k805 5182k673 5182k651 5182k661 3044k708 4550k185 4500k31 4513k23 4513k13 Total $8.07 $3.03 $2.19 $1.99 $15.92 $4.23 $7.0...
Auburn >> MANS >> 486 (Fall, 2009)
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Auburn >> MANS >> 486 (Fall, 2009)
Cardinals...
Auburn >> MANS >> 486 (Fall, 2009)
Design of Experiment Project Meetings Schedule * Group Numbers M1-M3 R1-R3 M4-M5 Meeting # 1 Mon. 3/31: 4:00-5:30 pm Thurs. 4/3: 3:00-4:00 pm Mon. 4/7: 3:00-4:00 pm Meeting # 2 Mon. 4/7: 4:00-5:30 pm Thurs. 4/10: 3:00-4:00 pm Mon. 4/14: 3:00-4:00 pm...
Auburn >> MANS >> 486 (Fall, 2009)
Design of Experiments Assignment, Spring 07 1) You will be expected to develop an idea for a 2-factorial or Mixtures experiment. 2) You should use your weekly assigned meetings with the instructor during lab time to help refine your ideas and develop...
Auburn >> MANS >> 486 (Fall, 2009)
Design of Experiments Assignment, Spring `07 1) You will be expected to develop an idea for a 2-factorial or Mixtures experiment. 2) You should use your weekly assigned meetings with the instructor during lab time to help refine your ideas and develo...
Auburn >> MANS >> 486 (Fall, 2009)
Design of Experiments Lecture I Topics Today Review of Error Analysis Theory & Experimentation in Engineering Some Considerations in Planning Experiments Review of Statistical formulas and theory Begin Statistical Design of experiments (DOE or ...
Auburn >> MANS >> 486 (Fall, 2009)
Design of Experiments Lecture I 6/29/05 Topics Today Review of Error Analysis Theory & Experimentation in Engineering Some Considerations in Planning Experiments Review of Statistical formulas and theory Begin Statistical Design of experiments ...
Auburn >> MANS >> 486 (Fall, 2009)
Engineering Experimentation Functional Types of Experiments Determining Material Properties Viscosity Density Heat Capacity Strength Etc. Component Parameters and Performance Indices Process Unit Components Sensors Controls Etc. System Pa...
Auburn >> MANS >> 486 (Fall, 2009)
CHEN4860 2-Factorial Example All Slides in this presentation are copyrighted by StatEase, Inc. and used by permission Edme section 1 1 Two-Level Full Factorials DOE Process and design construction Step-by-step analysis (popcorn) Popcorn anal...
Auburn >> MANS >> 486 (Fall, 2009)
DOE It Yourself Fun science projects compiled by Mark J. Anderson, Principal, Stat-Ease, Inc. Give design of experiments a try! These are my favorites for doing at home or in classin no particular order. You dont need any unusual equipment. The detai...
Auburn >> MANS >> 486 (Fall, 2009)
Statistical Formulas from chapter 4 of Taylor Relationship of standard deviation to confidence intervals Determining Slope and Intercept In Linear Regression Confidence intervals (SD) on slope B and Intercept A Regression Output in Excel Simple ...
Auburn >> MANS >> 486 (Fall, 2009)
Statistical Formulas from chapter 4 of Taylor Relationship of standard deviation to confidence intervals Determining Slope and Intercept In Linear Regression Confidence intervals (SD) on slope B and Intercept A Regression Output in Excel Simple ...
Auburn >> MANS >> 486 (Fall, 2009)
Statistical Formulas from chapter 4 of Taylor Relationship of standard deviation to confidence intervals Determining Slope and Intercept In Linear Regression Confidence intervals (SD) on slope B and Intercept A Regression Output in Excel Simple ...
Auburn >> MANS >> 486 (Fall, 2009)
Name:_ CHEN4860 Quiz- 4/11/07 Tutorial 1) What are the two measured response variables in the Mixture Design Tutorial? 2) What three components are varied in the tutorial? 3) In the tutorial, the 3 components are varied a. b. c. d. Without constra...
Auburn >> MANS >> 486 (Fall, 2009)
1 Make Breakthrough Improvements with Design of Experiments Mark J. Anderson and Patrick J. Whitcomb Stat-Ease, Inc., http:/www.statease.com Executive summary In many rubber and plastics processes, powerful interactions affect final performance. You...
Auburn >> MANS >> 486 (Fall, 2009)
...
Auburn >> MANS >> 486 (Fall, 2009)
Reaction Vessel Heating Experiment V 0.500 L T,initial (before adding to reactor) 18 C reactor set point time (sec) 30 60 90 120 150 180 210 240 270 300 330 360 390 420 480 540 600 660 T, reactor 20.5 23.1 25 27.4 29 30.5 32 33 34.2 35.3 36 37 37.5 3...
Auburn >> CO >> 486 (Fall, 2009)
FOCUS www.rsc.org/greenchem Green chemical processing in the teaching laboratory: a convenient liquid CO2 extraction of natural products aDepartment GC Lallie C. McKenzie,a John E. Thompson,b Randy Sullivanc and James E. Hutchison*a of Chemistry ...
Auburn >> MANS >> 486 (Fall, 2009)
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Auburn >> MANS >> 486 (Fall, 2009)
Physical Property Molecular weight: kg/kmol Boiling point: C (at atmospheric pressure) Density kg/m at 20 C Heat of Vaporization kJ/kmol Heat capacity, cp J/(mol K) Vapour pressure: Methanol 32.04 64.6 791 37.4 79.5 a = 18.5875 b = 3626.55 c = -34.2...
Auburn >> MANS >> 486 (Fall, 2009)
Distillation Assignment, Spring `07 In this project you will be helping to develop our new bubble-cap distillation column experiment. You will have some latitude in determining just what work you will accomplish. Use the below as a guideline- meet wi...
Auburn >> MANS >> 486 (Fall, 2009)
Feed Pump With Size 14 tubing; C-Flex and Easy-Load head Setting min flow! 1.4 1.7 2.0 2.5 3.0 4.0 5.0 6.0 ml/min 0.4 1.35 1.8 3.1 4.3 6.7 8.9 11.5 0.030 0.052 0.072 0.112 0.148 0.191 6.9 11.4 4.3 6.7 8.9 9.6 3.83 3.65 1.00 1.00 1.00 0.84 ml/sec 0.00...
Auburn >> MANS >> 486 (Fall, 2009)
ul MeOH 1 1000 997 994 991 988 985 982 979 976 973 970 920 870 820 770 720 670 620 570 520 470 420 370 320 270 220 170 120 70 20 0 2 3 5 6 8 9 uls EtOH volume ratio, ME/ET fraction, MeOH mol 0.000 3.000 6.000 9.000 1.00 100.0% Methanol in Ethanol C...
Auburn >> MANS >> 486 (Fall, 2009)
ul MeOH 1 1000 997 994 991 988 985 982 979 976 973 970 920 870 820 770 720 670 620 570 520 470 420 370 320 270 220 170 120 70 20 0 2 3 5 6 8 9 uls EtOH volume ratio, ME/ET fraction, MeOH mol 0.000 3.000 6.000 9.000 1.00 100.0% Methanol in Ethanol C...
Auburn >> MANS >> 486 (Fall, 2009)
water Power to Boiler (K watts) 0.5 Boilup rate (mol/s) 0.01 heat loss 0.33 effeciency 0.34 Trial #2 (better insulation, flow control, etc) Power to Boiler (K watts) 0.59 Boilup rate (mol/s) 0.02 heat loss 0.39 effeciency 0.34 flow rate g/sec 5.89 He...
Auburn >> MANS >> 486 (Fall, 2009)
Monday Section (5 groups) Lab Week # / Group 1 2 3 4 5 6 7 8 9 10 11 M1 M2 M3 M4 M5 ...
Auburn >> MANS >> 486 (Fall, 2009)
Large Column Exercise 1. How many trays are on the large column? How many stages when operating? 2. Locate the reflux, product and vent condensers. What are the numbered labels on each? 3. Examine the bubble cap trays (visible in glass upper trays). ...
Auburn >> MANS >> 486 (Fall, 2009)
Physical Property Molecular weight: kg/kmol Boiling point: C (P = 1atm) Density kg/m at 20 C Heat of Vaporization kJ/kmol Heat capacity, cp J/(mol K) Vapour pressure: where ln(P) = a - b/(T+c) P: mmHg; T: K Methanol 32.04 64.6 791 37.4 79.5 a = 18.5...
Auburn >> MANS >> 486 (Fall, 2009)
ID,inch 0.06 ID,mm 1.59 Approx Flow mm^3/s 166.67 A,cs (mm) velocity mm/s mm/min 1.98 84.2 5052.22 minimum tube length 1500 mm transit time 17.81 sec ...
Auburn >> MANS >> 486 (Fall, 2009)
Drying Experiment (Summer 2007) The drying apparatus located Wilmore 191-building consists of an electrically heated tunnel dryer that is outfitted for on-line mass and temperature measurement. An insulated tray is used to hold beds of glass beads th...
Auburn >> MANS >> 486 (Fall, 2009)
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Auburn >> MANS >> 486 (Fall, 2009)
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Auburn >> MANS >> 486 (Fall, 2009)
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Auburn >> MANS >> 486 (Fall, 2009)
t(min) 0.2 0.4 0.7 0.9 1.2 1.4 1.7 1.9 2.2 2.4 2.7 3.0 3.3 3.6 3.9 4.2 4.5 4.8 5.1 5.4 5.7 6.0 6.3 6.5 6.8 7.0 7.3 7.5 7.8 8.0 8.3 8.5 8.8 9.0 9.3 9.6 9.9 10.2 10.5 10.8 11.1 11.4 11.7 12.0 12.3 12.6 12.9 13.2 13.4 13.7 13.9 14.2 C/Co mmols passed C...
Auburn >> MANS >> 486 (Fall, 2009)
Reactions Engineering Lab Part 1: Batch Reactions Setup Apparatus Detail Transmission Dip Probe Reactions Fast (indicator)Reaction: Ph + 2 OH- Ph2- (colorless to pink) Slow reaction we are studying: Ph2- + OH- Ph3- Pho = 2 x 10-5 ; OH- ...
Auburn >> MANS >> 486 (Fall, 2009)
Reactions Engineering Lab: Kinetics of dye-fading reactions (Updated 6/1/07) Introduction In this lab, you will determine the rate constants for the fading reaction of phenolphthalein with NaOH. Note, this is not the fast color-change reaction that ...
Auburn >> MANS >> 486 (Fall, 2009)
Reactions Engineering Lab: Kinetics of dye-fading reactions (phenolphthalein) Introduction In this lab, you will determine the rate constants for the fading reaction of phenolphthalein with NaOH. Note this is not the fast color-change reaction that o...
Auburn >> MANS >> 486 (Fall, 2009)
ms 3072 6144 9217 12289 15362 18435 21509 24580 27652 30725 33797 36870 39944 43015 46087 49160 52232 55305 58378 61450 64523 67595 abs 0.45 0.4 0.4 0.39 0.39 0.39 0.38 0.39 0.37 0.38 0.37 0.38 0.37 0.37 0.36 0.36 0.36 0.35 0.36 0.35 0.35 0.35 SUMMA...
Auburn >> MANS >> 486 (Fall, 2009)
DAY 2: CSTR (Draft 1) Background: In this part of the Reactions Engineering Lab you will use the batch data and a Polymath simulation to predict the performance of a single CSTR and compare the simulation to experimental results. You will also do a R...
Auburn >> MANS >> 486 (Fall, 2009)
DAY 2: CSTR (Draft 1) Background: In this part of the Reactions Experiment we will use the batch data we obtained in Part I to predict the performance of a single CSTR. Prior to lab you should have constructed a Polymath (or similar ODE model) to pre...
Auburn >> MANS >> 486 (Fall, 2009)
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Auburn >> MANS >> 486 (Fall, 2009)
26291ae3a8bacea95b1153d4f70764746ecfc950.xls C:\\TCWIN4\\CLIPBRD.PRN [LDR Peak] y=a+4bx^(-d-1)*c^(d+1)*d^2/(d-1+x^-d*c^d*(d+1)^2 ParametersValues Std Error T Value 95% Conf Lim Conf Lim 95% Eqn [LDR Peak]ay=a+4bx^(-d-1)*c^(d+1)*d^2/(d-1+x^-d*c^d*(d+1)^...
Auburn >> MANS >> 486 (Fall, 2009)
C1 = C0*exp(-t/) 68.4 ln(Ao) -1.2 F (L/s) 0.04 Ao 0.3 V (L) 2.85 C0 0 Time (ms) Time (s) C1/Co (model) Absorbance ln(A) A/Ao 0 0 1 1.49E-01 -1.91 4.94E-01 5121 5.12 0.93 9.60E-02 -2.34 3.19E-01 10241 10.24 0.86 2.38E-01 -1.43 7.92E-01 15362 15.36 ...
Auburn >> MANS >> 486 (Fall, 2009)
ms 0 3072 6144 9217 12289 15362 18435 21509 24580 27652 30725 33797 36870 39944 43015 46087 49160 52232 55305 58378 61450 64523 67595 70668 73740 76813 79885 82958 86030 89103 92176 95248 98321 101393 104466 107538 110611 113683 116756 119828 122901 ...
Auburn >> MANS >> 486 (Fall, 2009)
Channel : Master = Integration Period (ms) : 4000 Average : 1 Boxcar smoothing (pixels) : 1 calib Mode : Absorbance 2.84E-05 Time(ms) Time(s) Abs Data Time(s) C1data Model data 0 0 4.45E-03 0 1.26E-07 0 8193 8.19 -1.01E-03 8.19 -2.85E-08 0 16386 16.3...
Auburn >> MANS >> 486 (Fall, 2009)
half life For 0.2M Naoh and 2e-5 pth, the half life is about 2 minutes the total volume of CSTRs is 1.8+ 2.8 +2.8 = 7.4 liters If the residence time is to be 3min (half life) then: total rate: 2.5 L/min 2.47 Desired concentrations (to be like batch) ...
Auburn >> MANS >> 486 (Fall, 2009)
Channel : Master 1 Absorbance Integration Period (ms) : 1500 Average : 1 Boxcar smoothing (pixels) : 1 Mode : Absorbance Time(ms) 0 3071 6143 9216 12288 15361 18434 21506 24579 27649 30722 33794 36867 39939 43012 46084 49157 52229 55302 58376 614...
Auburn >> MANS >> 486 (Fall, 2009)
Sheet1 vti_encoding:SR|utf8-nl vti_timelastmodified:TR|26 Oct 2006 16:51:13 -0000 vti_extenderversion:SR|6.0.2.6551 vti_author:SR|AUBURN\\millsdr vti_modifiedby:SR|AUBURN\\millsdr vti_timecreated:TR|26 Oct 2006 16:51:13 -0000 vti_cacheddtm:TX|26 Oct 20...
Auburn >> MANS >> 486 (Fall, 2009)
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Auburn >> MANS >> 486 (Fall, 2009)
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Auburn >> MANS >> 486 (Fall, 2009)
ACETONE 35 f(x) = 0x + 15.26 R = 0.25 30 25 20 Column H Linear Regression for Column H RHS 15 10 5 0 0 10000 20000 30000 40000 50000 60000 70000 80000 90000 time (s) time 0 72 time 0 8398.8 21.55 77580 m (g) m (kg) Delta m (kg) Delta L (m) Zt (...
Auburn >> MANS >> 486 (Fall, 2009)
ACETONE 35 f(x) = 0x + 15.26 R = 0.25 30 25 20 Column H Linear Regression for Column H RHS 15 10 5 0 0 10000 20000 30000 40000 50000 60000 70000 80000 90000 time (s) time 0 72 time 0 8398.8 21.55 77580 m (g) m (kg) Delta m (kg) Delta L (m) Zt (...
Auburn >> MANS >> 486 (Fall, 2009)
ACETONE 35 f(x) = 0x + 15.26 R = 0.25 30 25 20 Column H Linear Regression for Column H RHS 15 10 5 0 0 10000 20000 30000 40000 50000 60000 70000 80000 90000 time (s) time 0 72 time 0 8398.8 21.55 77580 m (g) m (kg) Delta m (kg) Delta L (m) Zt (...
Auburn >> MANS >> 486 (Fall, 2009)
ACETONE 35 f(x) = 0x + 15.26 R = 0.25 30 25 20 Column H Linear Regression for Column H RHS 15 10 5 0 0 10000 20000 30000 40000 50000 60000 70000 80000 90000 time (s) time 0 72 time 0 8398.8 21.55 77580 m (g) m (kg) Delta m (kg) Delta L (m) Zt (...
Auburn >> MANS >> 486 (Fall, 2009)
ACETONE 35 f(x) = 0x + 15.26 R = 0.25 30 25 20 Column H Linear Regression for Column H RHS 15 10 5 0 0 10000 20000 30000 40000 50000 60000 70000 80000 90000 time (s) time 0 72 time 0 8398.8 21.55 77580 m (g) m (kg) Delta m (kg) Delta L (m) Zt (...
Auburn >> MANS >> 486 (Fall, 2009)
ACETONE 35 f(x) = 0x + 15.26 R = 0.25 30 25 20 Column H Linear Regression for Column H RHS 15 10 5 0 0 10000 20000 30000 40000 50000 60000 70000 80000 90000 time (s) time 0 72 time 0 8398.8 21.55 77580 m (g) m (kg) Delta m (kg) Delta L (m) Zt (...
Auburn >> MANS >> 486 (Fall, 2009)
0.1 0.06 0.09 0.19 4.76 ...
Auburn >> MANS >> 486 (Fall, 2009)
Antoine 1 Antoine 2 T (deg C) P,vap mm Hg % diff. 18 169.1 169.55 0.27% 19 176.88 177.4 0.30% 20 184.95 185.55 0.33% 21 193.32 194 0.35% 22 202 202.77 0.38% 23 211 211.86 0.41% 24 220.33 221.28 0.43% 25 229.99 231.04 0.45% 26 240 241.15 0.48% 27 250....
Auburn >> MANS >> 486 (Fall, 2009)
Diffusion Experiment Schedule Monday Section (20 C) Monday 2/19/07 @ 3:00 pm Meet in Ross 131/135 to practice taking readings and organize data collection schedule. Tuesday 2/20/07 1) Instructor or TA will load the diffusion tube with acetone and st...
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