1. Gravity Fed System Team Members: James Brinkerhoff, Christopher Kulbago, Patrick O’Connell, Lauren Pahls, Ted Rakiewicz, Sarah Salmon Group Number: P13631 1

2. Table of Contents 1.Team Roles 2.Project Background 3.Schedule MSD II 4.High Level Customer Needs 5.Budget and Costs 6.Bill of Materials 7.Engineering Specifications 8.Concept Generation 9.Feasibility Analysis 10.Original System Architecture 11.Original P&ID 12.Original Cart Layout 13.MSD I vs. MSD II Comparison 14.Final P&ID 15.Final Cart Layout 16.Test Results Data 17.Labview Layout 18.Risk Assessment 19.Successes and Failures 20.Issues and Actions MSD I 21.Issues and Actions MSD II 22.Questions 2

3. Team Roles Chris Kulbago- Project Manager James Brinkerhoff- Lead Engineer Lauren Pahls- Fluids Specialist Sarah Salmon- Group Facilitator Patrick O’Connell- Lead Mechanical Ted Rakiewicz- Lead Electrical 3

4. Project Background Task Demonstrate process control in a lab environment using a gravity fed loop with a control valve with an existing flow cart as reference. Customer and Sponsor RIT’s Chemical Engineering Department Other Support Kodak’s Steve Possanza was our guide through this process. Kodak also donated old parts to make our cart fully functional. Product Stakeholders Students who will use the machine, the Department, Dr. Sanchez, Dr. Richter, and staff who will maintain the machine. Collaboration Two other groups are designing similar process control machines whose aesthetic appearances must match ours. 4

5. Schedule MSD II 5

6. Customer Needs Did we meet them? Customer need:Does project fulfill need? SafetyYes ErgonomicsYes MobilityYes Teaching ManuallyYes Teaching Auto-ControlsYes Ease of AssemblyYes Low CostYes Use of LabVIEWYes Drained Tank DynamicsYes 6

7. High Level Customer Needs Machine Design Needs: A way for students to manually manipulate flow. A way to manually measure flow. Easily operated by 3 students. A safely operating machine. Interface of machine with LabVIEW. A way to demonstrate main concepts of process control. A way to demonstrate noise and time lag in sensors. Student Learning Needs: A lab manual that guides students through lab in a way that engenders learning. Discussion questions within lab manual that test understanding of process control. Lab manual that focuses on PID control, noise, filtration, data modeling, disturbances, and/or hysteresis. 7

8. Budget & Costs 8

9. Bill of Materials 9 Grouping of items: Items were first divided into three main subsections: 1. Donated by Kodak 2. Donated by RIT 3. Bought ourselves Items purchased were further divided: 1. Cart construction equipment 2. Electrical equipment 3. Miscellaneous Lowe’s items Dimensions, part numbers, price, location, and arrival were all listed to better inform team of item status. Budget was tracked by entering an estimated cost for items not yet purchased and confirming the cost when the items arrived. Our bill of materials is very large and can be viewed on our Edge site.

10. Engineering Specifications In order to complete the project, the group had to translate customer needs into technical specifications. How well the group did in staying within the 19 specifications is summarized below: 10

11. Specifications Met: Part 1 11

12. Specifications Met: Part 2 12

13. Specifications Met: Part 3 13

14. Specification Assumed Met 14

15. Contingency Plan for Assumed Specification Contact 4 th year Chemical Engineering students to test cart. Conduct time and operation trials on all contacted persons with cart and lab manual. 15

16. Concept Generation 16

17. Feasibility Analysis Line pressure confirmation With one faucet received around 50 psi With all faucets on decreased to about 45 psi 17

18. Original System Architecture 18

19. Original P&ID 19

20. Original Cart Layout 20

21. MSD I vs. MSD II Comparison ItemMSD IMSD II Overall goalConcept GenerationBuilding and Integration DeliverablesTheoretical; Organization and charts As-built final documents Time10 weeks16 weeks Individual ContributionsAbout equalMore work from EE and ME GradingThroughout; Several milestones Only a Functional Review and a Final Review 21

22. Final P&ID 22

23. Final Cart Layout 23

24. Test Results Data 24

25. Labview Layout 25

26. Risk Assessment 26

27. Successes & Failures Successes Cart is aesthetically constructed, and highly functional. LabVIEW provides accurate data collection and adequately allows for student interaction for real-time process control of a dynamic system. Group overcame an equipment failure, and adapted to prevent project hindrance. Project is under budget. All deliverables submitted on time. Failures Digital-to-Analog Converter operation is deviated from design intent (as of right now). Cart water usage is not optimized. 27

28. Issues/Actions MSD I Gravity fed to line feed We initially were going to have a project that was “gravity fed to a line feed,” where we had a permanent height for a gravity feed stream. Instead of this, we decided to use a second control loop and set of code in order to be able to be more versatile and mimic different heights with different water pressures from a water line. Coordinating cart purchase We discussed a cart design that fits the needs of all three groups. After negotiating, we came up with a final cart to be used by all three groups. Slow start to project Edge was not readily available for students at the start of MSD I. The lab learning portion was in progress 28

29. Issues/Actions MSD II Misinterpreted Pressure Loss Water pressure loss across flow tube was greater than calculated, and therefore the water flow rate out in preliminary testing was too low. We rearranged the cart layout to use potential energy to make our cart drain at the required flow rate. Delicate Level Transmitter The original mounting design for the level transmitter damaged it. After mounting, it gave erroneous readings. A new level transmitter was rush delivered and mounted with electrical tape. Special handling instructions were noted in manual. Interface Issues The equipment given to us by Kodak was very used and worn. At first, we did not know how to properly control the 2 I/P circuits, preventing control valve operation. Through rigorous testing, this problem was solved and our I/P’s are now fully functional as anticipated. 29

30. Future Suggestions Recycle Loop Install a pump with a recycle stream and an additional tank or vessel in order to reduce water usage. Time Study Have 4 th year Chemical Engineering students perform the lab procedure and measure time it takes for students to complete the lab. Switch Microcontroller Replace the msp430 Microcontroller with a more reliable National Instruments Data Acquisition for increased accuracy, ease of assembly and use. Newer and More Robust Parts The Level Transmitter we purchased was low in cost but carries a risk. A differential pressure cell would minimize this risk. Parts donated by Kodak are used and worn, and if these are replaced the robustness of the cart can improve. 30

31. Questions? 31