Presentation is loading. Please wait.

Presentation is loading. Please wait.

P16081: SYSTEMIC CIRCULATION MODEL Jacob Zaremski – Lead Engineer Mallory Lennon – Project Manager John Ray – Communications Manager Fabian Perez – Purchasing.

Published byGabriel Riley Modified over 8 years ago

Similar presentations

Presentation on theme: "P16081: SYSTEMIC CIRCULATION MODEL Jacob Zaremski – Lead Engineer Mallory Lennon – Project Manager John Ray – Communications Manager Fabian Perez – Purchasing."— Presentation transcript:

1 P16081: SYSTEMIC CIRCULATION MODEL Jacob Zaremski – Lead Engineer Mallory Lennon – Project Manager John Ray – Communications Manager Fabian Perez – Purchasing Coordinator Robert Kelley – Document Control/EDGE Coordinator

2 Our goals for this review Updates from Phase I Review (Background) Engineering Requirements Customer Requirements Market Analysis Functional Decomposition Concept Development System Architecture Engineering Analysis Risk Assessment Project Plans Agenda 10 minutes 5 minutes 10 minutes 5 minutes 15 minutes 5 minutes 2 minutes

3 Goals 1.Receive feedback 2.Identify obstacles between current state and desired end goal 3.Clarify feedback 4.Create action plan for each

4 Project Statement Develop a physical model of systemic circulation Provide a teaching tool that will validate theoretical models from Chapter 5 of Feher Measure relevant outputs: pressure and flow Interface with P16080 project

5 Use Scenario

6 Marketing Potential Quantitative Human Physiology: An Introduction by Joseph J. Feher ($119.95 @ RIT B&N) Add lab fee $15/student/semester Average 70 students/semester Covers ability to build new system each semester (if desired) Add model as addition to purchasing textbook Add lab experiment and computer program as additional costs 1

7 Customer Requirements (1 of 2)

8 Customer Requirements (2 of 2)

9 Engineering Requirements (1 of 2)

10 Engineering Requirements (2 of 2)

11 System Architecture

12 Flow Diagram

13 Functional Decomposition

14 Morph Chart (1 of 2)

15 Morph Chart (2 of 2)

16 Concept Selection Criteria

17 Design Concepts

18 Pugh Chart (1 of 3)

19 Pugh Chart (2 of 3)

20 Pugh Chart (3 of 3)

21 Preliminary Engineering Analysis Lumped Parameter Model Governing Equations Critical Parameters and Ranges

22 Lumped Parameter Model

23 QcQc QRQR Resistance, R C Resistance, R A Resistance, R V Pressure, P A Pressure, P C Pressure, P V Cardiac Output Venous Return v P16081 Pump Arterial Compliance, C A Venous Compliance, C V Capillary Compliance,C

24 Subsystem Model

25 Measured Defined 2 Governing Equations: Flow

26 Governing Equations: Resistance Poiseuille’s Law

27 Governing Equations: Compliance Tygon Tubing - has been shown to have physiologically relevant compliance - higher wall hardness for arterial, softer for venous 7

28 Fluid Capacitors Spring piston Air chamber acts as spring

29 Spring piston (Woodruff et al, 1997) For A = 10 in 2 :

30 P Cylindrical Tank Compliance Range: 1-200 mL/mmHg

31 Rectangular Prism Tanks PP C Arterial C Venous Compliance Range: 1-200 mL/mmHg

32 Concept Risks

33 Technical Risks

34 Resource Risks

35 Safety Risks

36 Environmental Risks

37 Theoretical Risk Assessment

38 Project Plans Phase 2

39 Project Plan Phase 3

40 Next Steps Engineering Analysis Budget Feasibility Iterate Pugh Chart Collaboration with P16080 PASCO sensors

41 Concerns 1. Lacking sufficient background knowledge to make supported decisions about system components 2. Accurately modeling textbook models and what precision we will be able to achieve 3. Creating the software interface to run system and/or record desired outputs 4. Possible sources of error that are neglected in calculations

42 Acknowledgements RIT Faculty Dr. Jennifer Bailey Dr. Steven Day U of R Faculty Dr. Schwartz Dr. Doran Mix Guide Gerald Garavuso

43 Sources 1. http://www.amazon.com/Quantitative-Human-Physiology-Introduction-Engineering/dp/0123821630 2. Feher, Joseph J. Quantitative Human Physiology: An Introduction. Amsterdam: Elsevier/Academic, 2012. Print. 3. F. M. Donovan. Design of a Hydraulic Analog of the Circulatory System for Evaluating Artificial Hearts, Biomaterials, Medical Devices, and Artificial Organs, 1975, 3:4, 439-449. 4. https://www.google.com/search?q=needle+valve&espv=2&biw=1149&bih=659&source=lnms&tbm=is ch&sa=X&ved=0CAYQ_AUoAWoVChMIjIOY0-ieyAIVCqYeCh2pJwgr#imgrc=WwAmF7IltMl6-M%3A 5. http://www.terrybookers.co.uk/35mm-gate-valve-2226-p.asp 6. http://www.hassmfg.com/search.pl/1213638750-2927?keyword=1165 7. Varble N, et al. In vitro hemodynamic model of the arm arteriovenous circulation to study hemodynamics of native arteriovenous fistula and the distal revascularization and interval ligation procedure, Journal of Vascular Surgery, 2013, 59:5, 1410-1417. 8. Linearization and nonlinear fluid elements - Dartmouth College http://www.dartmouth.edu/~sullivan/22files/linearization_and_fluid.pdf 9. Woodruff, Stewart J., Keith M. Sharp, and George M. Pantalos. "Compact Compliance Chamber Design for the Study of Cardiac Performance in Microgravity." ASAIO Journal (1997): 316-20. Web. 30 Sept. 2015.

44 ADDITIONAL SLIDES

45 Customer Requirements Mapping (1 of 2)

46 Customer Requirements Mapping (2 of 2)

Download ppt "P16081: SYSTEMIC CIRCULATION MODEL Jacob Zaremski – Lead Engineer Mallory Lennon – Project Manager John Ray – Communications Manager Fabian Perez – Purchasing."

Similar presentations

Douglas Christensen Department of Bioengineering University of Utah Salt Lake City, Utah 84121 Bringing an Integrative Modeling Experience to Freshman.

Douglas Christensen Department of Bioengineering University of Utah Salt Lake City, Utah Bringing an Integrative Modeling Experience to Freshman.
AAT Injector Nozzle Test Chamber P15681 Calibration Fluid Exhaust System Zach Huston, Hayden Cummings, Adam Farnung, Tim Nichols, Robert Moshier, Andrew.

AAT Injector Nozzle Test Chamber P15681 Calibration Fluid Exhaust System Zach Huston, Hayden Cummings, Adam Farnung, Tim Nichols, Robert Moshier, Andrew.
P08026: Modular Hemodynamic Flow Simulator Jason Brown Mechanical Engineering Amanda Clark Mechanical Engineering Matthew Hicks Electrical Engineering.

P08026: Modular Hemodynamic Flow Simulator Jason Brown Mechanical Engineering Amanda Clark Mechanical Engineering Matthew Hicks Electrical Engineering.
Computational Mechanics & Numerical Mathematics University of Groningen Multi-scale modeling of the carotid artery G. Rozema, A.E.P. Veldman, N.M. Maurits.

Computational Mechanics & Numerical Mathematics University of Groningen Multi-scale modeling of the carotid artery G. Rozema, A.E.P. Veldman, N.M. Maurits.
Chapter 2 Succeeding as a Systems Analyst

Chapter 2 Succeeding as a Systems Analyst
Information Systems Development Lecture 2: the idea of the Life Cycle.

Information Systems Development Lecture 2: the idea of the Life Cycle.
06411 Micro Nucleating Bubble Engine Team Members Steven Nathenson Joseph Pawelski Joaquin Pelaez Andrew Pionessa Brian Thomson Project Sponsors Dr. Crassidis.

06411 Micro Nucleating Bubble Engine Team Members Steven Nathenson Joseph Pawelski Joaquin Pelaez Andrew Pionessa Brian Thomson Project Sponsors Dr. Crassidis.
Design Reviews.1 KGCOE Multidisciplinary Sr. Design Borkholder 2006 R I T Design Reviews Objectives of the Design Review Participants for a successful.

Design Reviews.1 KGCOE Multidisciplinary Sr. Design Borkholder 2006 R I T Design Reviews Objectives of the Design Review Participants for a successful.
Megan Foran, Danny Jones, & Frank Moynihan Dr. Bob Wilkinson, Ph.D.

Megan Foran, Danny Jones, & Frank Moynihan Dr. Bob Wilkinson, Ph.D.
P13625 – Indoor AIR Quality Monitor

P13625 – Indoor AIR Quality Monitor
Software Verification and Validation (V&V) By Roger U. Fujii Presented by Donovan Faustino.

Software Verification and Validation (V&V) By Roger U. Fujii Presented by Donovan Faustino.
Mechanical Engineers: Brian Church Tyler Breitung Michael Oplinger Electrical Engineers: Anthony Salmin Ross Bluth Stephen Mroz Sponsor: Dr. Roman Press.

Mechanical Engineers: Brian Church Tyler Breitung Michael Oplinger Electrical Engineers: Anthony Salmin Ross Bluth Stephen Mroz Sponsor: Dr. Roman Press.
1 Analytical Tools, Data & Scenarios Workshop July 29, 2004 California Water Plan Update 2004.

1 Analytical Tools, Data & Scenarios Workshop July 29, 2004 California Water Plan Update 2004.
The Software Development Cycle 9.2.1 Defining and understanding the problem.

The Software Development Cycle Defining and understanding the problem.
CS 8532: Adv. Software Eng. – Spring 2007 Dr. Hisham Haddad 03-27-2007-Tuesday Class will start momentarily. Please Stand By … CS 8532: Advanced Software.

CS 8532: Adv. Software Eng. – Spring 2007 Dr. Hisham Haddad Tuesday Class will start momentarily. Please Stand By … CS 8532: Advanced Software.
Hemodynamic Analysis of Arteriovenous Fistula Configurations

Hemodynamic Analysis of Arteriovenous Fistula Configurations
A N A RTERIOVENOUS M ODEL OF THE A RM C IRCULATION, AN A RTERIOVENOUS F ISTULA AND D ISTAL R EVASCULARIZATION AND I NTERVAL L IGATION Nicole Varble BS/MS.

A N A RTERIOVENOUS M ODEL OF THE A RM C IRCULATION, AN A RTERIOVENOUS F ISTULA AND D ISTAL R EVASCULARIZATION AND I NTERVAL L IGATION Nicole Varble BS/MS.
Identification of Time Varying Cardiac Disease State Using a Minimal Cardiac Model with Reflex Actions 14 th IFAC SYMPOSIUM ON SYSTEM IDENTIFICATION, SYSID-2006.

Identification of Time Varying Cardiac Disease State Using a Minimal Cardiac Model with Reflex Actions 14 th IFAC SYMPOSIUM ON SYSTEM IDENTIFICATION, SYSID-2006.
Introduction to SDLC: System Development Life Cycle Dr. Dania Bilal IS 582 Spring 2009.

Introduction to SDLC: System Development Life Cycle Dr. Dania Bilal IS 582 Spring 2009.
Jon KleinISEProject Manager Nguyen VuMETechnical Lead Kyle MengesMETechnical Lead Christine LowryMEDesign Engineer Chris SteinMEDesign Engineer Priya NarasimhanEEElectrical.

Jon KleinISEProject Manager Nguyen VuMETechnical Lead Kyle MengesMETechnical Lead Christine LowryMEDesign Engineer Chris SteinMEDesign Engineer Priya NarasimhanEEElectrical.

Similar presentations

Ads by Google