1. Rishitha Dias (IE): Team Manager Kevin Klucher (ME): Technical Lead John Hayles (ME): Design Engineer Reme Meck (ME): Turbomachinery Expert P09454

2. Customer Needs Assessment P09454 Customer Need # ImportanceDescription CN11 Product must be intuitive and possible to be operated by student with the help of a teaching assistant or lab instructor CN22 Swapping pump components must be accomplished using a few standard tools CN32 Materials used during operation (sealant etc) must be commercially available and safe to use without any specialized material handling equipment CN41 Changeover and startup procedures must be short enough to repeat many times over in a lab period CN51 The product must be robust and durable while requiring minimal maintenance over its lifecycle CN63 Relevance to industrial design practices is desirable CN72 Projects should be relevant to the curriculum followed by mechanical engineering students CN82 The concepts demonstrated by the project must be easy to grasp for the students CN93 Project should enable the comparison of experimental results with CFD models CN102 Team must deliver lecture material relevant to the design to help the student better grasp the concepts CN111 Projects should demonstrate the value of good turbo-machinery design CN121 Projects must be able to characterize a variety of different flows by varying different parameters CN131 System must be adaptable enough to be used for future projects and research CN141 System must enable performing PIV readings on the flows CN152 System must be easy to use and deminstrate for the lab instructor

3. Preliminary Design Specifications Final System Design must allow for minimum of 3 impeller and diffuser combination changes and flow mapping in a standard RIT Lab session (2 hrs) Components must be able to withstand drop from 50” (hand level / cart level) Design must be able to withstand maximum system back pressure (TBD) at maximum motor speed (currently 1750RPM, desired out put is 3400RPM) Create a laboratory system capable of demonstrating proper and improper centrifugal pump design (Demonstrate pump efficiencies both greater than 85% and less than 60%) Impellers and Diffusers must allow for line of sight of flow for PIV system and High Speed Camera – Pump centerline to have a height of 44” – Pump Components must allow for view of a minimum of one impeller passage Pump components should follow Industry Standards (i.e. Radial, Francis- Vane, Mixed-Flow etc) P09454

4. Work Breakdown Structure P09454 Team MemberWeek 1Week 2Week 3 Rishitha Dias ISE Set up meeting times, inform everyone of their tasks and establish team values and norms Ensure team members have access to necessary resources to begin allocated tasks Manage the finalizing of customer needs and coordinate effrots towards concept generation Kevin Klucher ME Begin examination of lab test stand and lay out engineering objectives Develop study plan for engineers to learn the necessary skills set required for the project Work with Design Engineer in devising impeller and diffuser designs to outsource Reme Meck ME Thoroughly examine EDGE and become familiarized with the project & predecessors Benchmark existing system and become familiarized with the system Examine the existing system and identify components that are critical to the project John Hayles ME Thoroughly examine EDGE and become familiarized with the project & predecessors Review/study turbomachinery technical material related to project Review/study turbo-machinery technical material related to project

5. Benchmark of Current System  Poor tool clearance in the proximity of impeller mounting block  Non-standardized force and torque required for impeller switching  Reassembly of mounting plates without sufficient force results in leakage  System drainage is not sufficient; water remains in the impeller compartment during the switching process  Seals are not fully uniform and have sealant build-up  Motor and impeller drive shafts are not lined up appropriately, a flexible connector compensates for this  Water tank capacity is much larger than used within the pump system  Water tank height relative to pump system is opposite of what is desired  Time required to take the mounting block apart and remove impeller and reverse the process is ~10 minutes, only leaving one full hour in the lab period to actually perform flow measurements and visualizations  Tight dowel rods for mounting of the impeller along with the central screw prevent quicker swapping and will not facilitate any impeller changes if the blades are of a more delicate design Engineering Analysis of Preexisting Platform