student working on senior design project

Industrial and Entrepreneurial Engineering and Engineering Management

Presentations will be held at Floyd Hall in room D-208.

Enhancing Material Handling Efficiency Using Lean Concepts

11 to 11:25 a.m.

Team Members:  
Zack Hubbard  
Jasmine Joseph 
Tom Orzech 
Tatenda Zindoga

Sponsors:  
Alexandria Orzel, Parker Hannifin FSC
Zachary Prahl, Parker Hannifin FSC

Faculty Advisor:  
Dr. Lee Wells

The project aimed to enhance material handling efficiency by addressing issues related to excess material, which created storage challenges and interrupted the material flow. By applying lean manufacturing principles, the team focused on reducing various forms of waste, including motion and transportation. Utilizing tools such as value stream mapping and spaghetti diagrams, the team identified key inefficiencies. A comprehensive inventory assessment was conducted to uncover discrepancies and optimize storage capacity, using techniques like 5-Why analysis to pinpoint root causes of issues. A significant improvement involved designing specialized carts for transport vehicles, which facilitated the efficient movement of materials, ultimately reducing handling time and effort. These initiatives led to a more organized and streamlined material handling process, minimizing risks for workers and eliminating wasteful practices, thereby enhancing overall efficiency.

Presentations will be held at Floyd Hall in room D-212. You can also  (meeting number: 2631 245 7873 password: broncoengineer).

ÃÛÌÒÉçÇø Student Center Space Utilization 

9 to 9:25 a.m.
 
Team Members:
Trevor Christoson
Anthony Oviedo
Amir Starkey
 
Sponsor:
Lenore Yaeger, ÃÛÌÒÉçÇø Michigan University Student Affairs 
 
Faculty Advisors:
Dr. Larry Mallak
Dr. Ying Thaviphoke
 
The new ÃÛÌÒÉçÇø Student Center opens opportunities for student growth and interaction, understanding these factors can create a better environment for increased use. Engineering management tools including work sampling and qualitative data analysis were used to evaluate utilization, capacity, and flow of selected areas within the Student Center. These analyses were used to identify potential improvements in space usage and revenue. Completion of this project will help ÃÛÌÒÉçÇø faculty better understand the potential of the Student Center. Understanding the Student Center opportunities can offer improvements to campus and community.  
 

Enhancing Warranty Operations for an Aviation Manufacturer

9:30 to 9:55 a.m.
 
Team Members:
Noah Miller
Dakota Ryan
Dylan Tate
 
Sponsor:
Holly Schubert, B.S.E.’15, L3Harris Technologies 
 
Faculty Advisor:
Dr. Jim Burns
 
L3Harris manufactures highly engineered aircraft transponders, which require a robust warranty system. The nature of the warranty portion of the business makes it difficult to fully understand the capacity of the process, complicating process improvement and investment initiatives. The goal of this project is to understand process flow and capacity so that meaningful process improvements can be undertaken. Engineering management tools were used to document process flow, analyze capacity, and provide cost-benefit analyses to L3Harris. Through interviews and observations of the process, along with tools such as flow charting, data visualization, and production planning and control methods, a thorough understanding of process capacity was obtained. This work resulted in tools that will allow L3Harris to make strategic capital equipment decisions.
 

Improving Warehouse Capacity and Inventory Strategy

10 to 10:25 a.m.
 
Team Members:
Harley Seelbinder
Nathan Wenke
Sebastian Wolf
 
Sponsor:
Holly Schubert, B.S.E.’15, L3Harris Technologies
 
Faculty Advisors:
Dana Hammond
Dr. Jim Burns
 
L3Harris is experiencing inventory and space constraints in their warehousing department, leading management to seek an effective inventory strategy. Currently, inventory is stored in multiple locations and does not take advantage of modern storage and retrieval technology. This project aimed to assess the impact of rationalizing inventory storage and integrating advanced warehousing systems. By applying facilities planning and design methods, SKU count, bin size, physical space, and inventory needs were used to develop alternative inventory strategies that included automation and traditional technology. Cost-benefit analysis and corresponding layout design and requirements were delivered to L3Harris.
 

Efficient Scheduling for a Nonprofit Organization

10:30 to 10:55 a.m.
 
Team Members:
Julia Haas
Sam Ryzewicz
Raffen Purta
 
Sponsors:
Lucas Brinks, YMCA of Greater Grand Rapids
Jamie Scaffidi, YMCA of Greater Grand Rapids

Faculty Advisors:
Dr. Ilgin Acar
Eren Darici
 
The YMCA of Greater Grand Rapids is a nonprofit organization that does not have a uniform room reservation system. A space assessment determined the maximum capacity for each room according to different activity types. A system analysis, using operational research, if-then statements, was conducted to create an applicable room model. Scheduling software was researched to accommodate the variable constraints and finalize a standardized room reservation system. YMCA employees can effectively schedule activities while meeting customer needs.
 

Improving the Xplore.0 Lab with MES Integration

11 to 11:25 a.m.
 
Team Members: 
Mallory Hammill
David Houck
Nathan Snyder
 
Sponsor: 
Shawn Waltz, ÃÛÌÒÉçÇø Michigan University 
 
Faculty Advisors: 
Dr. Jim Burns
Dr. Lee Wells
 
Currently, ÃÛÌÒÉçÇø’s Xplore.0 lab does not reflect modern manufacturing technologies in data collection and modular system interfaces. To resolve this issue, the Xplore.0 Lab has been reworked to include dynamic product part flow with simulated quality control elements monitored by a Manufacturing Execution System (MES). Based on industry insight, tools including website scripting and SQL were used to track manufacturing times and manage data across five workstations. The lab now provides an enhanced hands-on learning experience for industrial engineering students.
 

Enhancing Housekeeping Operations in Healthcare

11:30 to 11:55 a.m.
 
Team Members:
Diana Diaz
Jaime Garcia
Seth Paige
Autumn Piper
 
Sponsors:
Ryan Howrigon, Ascension Borgess
Darren Bentson, Touchpoint
 
Faculty Advisors:
Dr. Tycho Fredericks
Dr. Ying Thaviphoke
 
Standardized cleaning processes and quick room turnaround times are essential to hospital operation proficiencies. The housekeeping (EVS) team at Ascension Borgess face challenges in their current workflow and inventory management. To examine this, industrial engineering tools including time studies, stakeholder interviews, and flow diagrams were examined. A simulation was then developed to further investigate the EVS throughput. Additionally, an inventory analysis was conducted to discover inefficiencies and recommend best practices when ordering and restocking supplies. From the simulation and observational data, a cost analysis was performed to recommend improvements in housekeeping operations.

Presentations will be held at Floyd Hall in room D-208. You can also (meeting number: 2632 544 6398 password: broncoengineer).

Investigation into Process Improvements and Automation

10 to 10:25 a.m.

Team Members:
Abdul Al Kiyumi
Kaden Jacobson
Theisshanth Muralidharan

Sponsor:
Robert Doran, B.S.E.’22, Sigma Machining 

Faculty Advisors:
Dr. Lee Wells
Dana Hammond

The growing demand for electric vehicles (EV) and associated components has increased the need to enhance related manufacturing processes. To address the increased demand, industrial engineering tools, including man-machine charts, process flow diagrams, and insightful employee interviews were used to analyze the current flow of material for specific EV components.  Additionally, a review of alternatives and cost analysis led to recommendations to streamline the production processes. As a result, the proposed recommendations offer improved productivity through a reduction in overtime and increase in throughput.

Optimizing a Facility Expansion

10:30 to 10:55 a.m.

Team Members:
Amanda Kosasih
Noah Tanguay
Tyler Braet

Sponsor:
Jason Woodard, Geislinger Corporation

Faculty Advisors:
Dr. Azim Houshyar
Dr. Bob White

Geislinger Corporation is a leading manufacturer of dampers and couplings for high-powered vehicles. Geislinger is expanding its Battle Creek facility by 28,000 square feet. Using IE flow optimization techniques, a layout that maximizes cost-effectiveness and material flow was created. The data-driven approach included a well thought out and comprehensive cost analysis of the additional machinery and equipment relocation for the projected layout. With this information, Geislinger can make informed, strategic decisions as they embark on their facility expansion in 2025.

Presentations will be held at Floyd Hall in room D-212.

 

Business Plan for a Center of Excellence in Materials Science and Physical Research

9 to 9:25 a.m.

Team members

  • Trevor Dendel
  • Fares Khaberi
  • Gaby Polit

Sponsor

  • Brian Montgomery, Bronco Construction Research Center

Faculty advisor

  • Azim Houshyar, Ph.D.
  • Bob White, Ph.D.

With college enrollment declining, there is an increased need for colleges to provide innovative and industry-based research opportunities to attract and retain students. The development of a materials science and physical research center at ÃÛÌÒÉçÇø Michigan University (ÃÛÌÒÉçÇø) would allow students to practice technical skills and gain hands-on experience. Applying engineering economic analysis principles, the plan will detail operating and startup costs, cashflows, and overall profitability of the facility. This project includes a proposed layout for necessary equipment to support the center’s anticipated research areas. The Bronco Construction Research Center’s director will submit to the state of Michigan for funding.


A  Comprehensive Model of Battery Swapping for BEVS

9:30 to 9:55 a.m.

Project team

  • Khalil Dia
  • Aarush Gupta
  • Taleen Kawouk

Sponsor

  • Audi Kalamazoo

Faculty advisors

  • Azim Houshyar, Ph.D.
  • Bob White, Ph.D.

As Battery Electric Vehicles (BEVs) become more prevalent, and lithium battery technology continues to demonstrate limitations, the concept of batter swapping stations was explored as an alternative to fast charging.  The team developed a simulation that determines the feasibility and operation of battery swapping stations along route US-101 from Los Angeles to San Francisco. This was done by using Inventory, cost, and optimum location analysis. The model shows the benefits of battery swapping by reducing cost to consumers and manufacturers, while reducing the harmful environmental impact of BEVs.


Optimized Material Flow of Woodshop Through layout Redesign 

10 to 10:25 a.m.

Team members

  • Echo Sorensen
  • Jason Thayer
  • Madison Wegner

Sponsor

  • Jerimiah West, Landscape Forms

Faculty advisors

  • Azim Houshyar, Ph.D.
  • Bob White, Ph.D.

A local outdoor furniture company has experienced a continued increase in demand for products and is concerned with the functionality of their woodshop. To improve material flow and worker utilization, the team tracked worker movements, conducted stakeholder interviews, and analyzed an equipment utilization study. Multiple layouts were developed and analyzed using simulation software and layout optimization software while considering company constraints. Based on an economic analysis, cost-effective layouts concerning short-, medium-, and long-term change have been created with the goal of sustaining company growth.


Layout Redesign of industrial Door Production Cell

10:30 to 10:55 a.m.

Team members

  • Andres A. Blaubach
  • Nick Seurynck
  • Collin Monville

Sponsors

  • Jonathan Shay, B.S.’21, Senneca Holdings

Faculty advisors

  • Ilgin Acar, Ph.D.
  • Tycho Fredericks, Ph.D.

Senneca Holdings Corporation is a high-mix-low-volume manufacturer of specialty doors. Production cells within the facility were below management standards and had a high volume of material handling. Spatial constraints were considered when developing an optimized layout for the production cell. ProModel Simulation, VIP-PlanOpt software, and facilities logistics planning methods were explored to optimize the layout, subject to the project constraints. The final layout decreased material handling while increasing space utilization. The ergonomic design accommodated workers and decreased risk factors, thus decreasing employee injuries and turnover.


Improving Inventory Management by Redesigning Control System and Layout

11 to 11:25 a.m.

Team members

  • Averil Crocker
  • Emily Mouat
  • Noor Tufail

Sponsors

  • Rob Irby, Reyes Coca Cola Bottling

Faculty advisors

  • Azim Houshyar, Ph.D.
  • Bob White, Ph.D.

Reyes Coca Cola Bottling wants to improve inventory processes and manage raw material inventory. Historical data including demand of various beverages, shelf life of ordered material, and daily production rates was analyzed to design an inventory management system, which considers lead times and reduces the occurrences of excess stock in inventory. Facility layout optimization techniques, in conjunction with the updated inventory management system, provide a method to manage storage space more efficiently.


Analysis of an Aseptic Manufacturing System

11:30 to 11:55 a.m.

Team members

  • Matthew Baker
  • Bridgitt Cornish
  • Caleb Norder

Sponsors

  • Jason Cassiday, Pfizer
  • Robyn Cornish, B.S.’98, Pfizer 

Faculty advisor

  • Azim Houshyar, Ph.D.
  • Bob White, Ph.D.

Pfizer is the global leader in vaccine production. Each injectable product manufactured includes a rubber stopper to seal every vial transported worldwide. Various vial capacity scenarios were investigated to determine if Pfizer’s process for sterilizing and utilizing stoppers could be improved. The investigation used flow charts, value stream mapping, and simulation to determine equipment and facility requirements and utilization. A cost analysis investigated the economic attractiveness of implementing various capacity alternatives. The analysis will enable Pfizer to more effectively utilize plant resources to meet varying demand.

Industrial and Entrepreneurial Engineering
Session Chair – Dana Hammond
Room D-212

Understanding CNC capacity through production time estimation

Student team: Kaitlin Bluhm, Patrick Shoemaker and Slava Vorobyov
Sponsor: Benjamin Pitsch, Miguel Santos, Charles Washburn and Zachary Yambrach, Landscape Forms Inc.
Faculty Advisors: Jim Burns, Ph.D., and Lee Wells, Ph.D.
11 a.m. – 11:25 a.m.

Recent disruptions in the labor and material markets have emphasized the importance of machine utilization. For high-mix, low volume manufacturers especially, accurate estimates for production times are necessary to decrease wasted resources and reduce product lead times. For this project, machine run-time, set-up time, and product characteristics were studied and incorporated into a mathematical capacity model. The capacity model was integrated into Excel to assist the manufacturer in scheduling operations resulting in an increased equipment utilization, a reduction of costs, and shorter lead times.

Cost Model of Aluminum Extrusion and Processing

Aluminum extrusion is a process that forces an aluminum billet through a die using a press, which creates a part with a desired cross-sectional profile. At the request of a company that outsources aluminum extrusion and fabrication, a cost model that accounts for the machine, labor, and other cost drivers to support make/buy decisions was built. Development included communication with existing suppliers, research of existing manufacturing models, and evaluation of historical expenses. Industrial engineering tools such as root cause analysis and Ishikawa diagrams were applied to identify the most influential cost drivers. Ultimately components from existing cost models were combined to depict on a per-part basis, expected supplier costs. This cost model will assist procurement teams to identify suitable outsourcing suppliers, processes to outsource, and the competitiveness of existing operations.

Team members

  • Mohammed Aitzaz
  • Robet Doran
  • Brennon Pelland
  • Benjamin Sawn

Sponsors

  • Edward Vanderbilt, Steelcase
  • John Lucius, Steelcase
  • Thomas Dawson, Steelcase

Faculty advisor

  • Dr. Lee Wells

Trimming Room Process Improvement

Curating cannabis is a new and growing industry in West Michigan, with many small businesses seeking to simultaneously grow market share and control costs. Ahki Canna is a new company that curates cannabis, involves the growing, drying, trimming, and packaging the product. Ahki Canna’s methodologies were studied to identify potential bottlenecks and improvement opportunities using the principles of work design and root cause analysis. The trimming process was identified as the bottleneck in operations. Applying knowledge of the cannabis industry, principles of ergonomics, and material flow, the process was improved. The recommended improvements will reduce trimming costs and improve the consistency of the finished product, thereby helping Ahki Canna maintain their competitiveness.

Team members

  • Megan Gesler
  • Anthony Mastro
  • Conor Mulhearn

Sponsor

  • Ahki Canna

Faculty advisor

  • Dr. Jim Burns

Revitalization of Parkview Study Areas

Well-designed study spaces are important to the academic, social, and physical well-being of engineering students. Improved layouts of the study areas at Parkview Campus were created utilizing principles of ergonomics, work design, and facility design to accommodate dynamic student needs. The revitalized design allows students to work more comfortably and effectively. This led to an environment more conducive to learning than the previous space, which will help promote physiological, safety, and academic needs of the students.

Team members

  • Sophia Ehlers
  • Carlie Moon

Sponsor

  • Dr. Matthew Cavalli, P.E., Associate Dean, ÃÛÌÒÉçÇø College of Engineering and Applied Sciences

Faculty advisors

  • Dana Hammond
  • Dr. Jim Burns

Xplore 4.0 at ÃÛÌÒÉçÇø: The Future of Manufacturing

As industrial and manufacturing processes rapidly advance into the 21st century, ÃÛÌÒÉçÇø identified an immediate need to update the lab experience of Industrial Engineering students. Previous lab experiences relied on using hand counted inventory control, pen and paper documentation, and manual stopwatch timing methods. The completely redesigned and modernized lab allows students to build functional RC cars through a multiple step assembly process including digital timing systems, smart tooling and data tracking, real time inventory control, and imaging-based quality control checks. In collaboration with a computer science senior design team, students at the College of Engineering will now be exposed to both modern and traditional industrial practices, ensuring ÃÛÌÒÉçÇø graduates have a wider range of experience and knowledge in both manufacturing practices. The IEE team and CS team worked closely to bring the fourth industrial revolution to the classroom.

Team members

  • Pete Stodola
  • C.J. Vaughn
  • Nicholas Wendling
  • Roman Zwierzchowski

Sponsor

  • ÃÛÌÒÉçÇø Michigan University

Faculty advisors

  • Dr. Jim Burns
  • Dr. Lee Wells

Analysis and Improvement of Industrial Door Production

An industrial door production supplier, Senneca Holdings, recently acquired the shipping bay screen door line from another facility. Facing bottleneck and throughput challenges, the production line required improvements to meet increasing demand. The production facility was analyzed using ergonomic assessment and time studies to create a computer simulation that tested significant variables within the production line. Combining the computer simulation, financial analysis, and other Industrial Engineering tools, a new process was developed optimizing throughput.

Team members

  • Noah Franchak
  • Anthony Kemp
  • Josh Morris

Sponsor

  • John Early, Senneca Holdings

Faculty advisors

  • Dr. Azim Houshyar
  • Dr. Bob White

Optimization of Evaporator Tank Assembly for Scrap Reduction

Highly repetitive manual assembly processes can lead to excess scrap caused by improper procedures. This was the case in the evaporator core side tank assembly lines at DENSO Manufacturing. Time studies, ergonomic analysis, and facility layouts were used to conclude that developing a guided jig may address the current issues best. The jig meets manufacturing requirements while assisting the operators by removing inconsistent procedures; ultimately reducing the amount of scrap produced. The design solution may be the new standard for DENSO and could later be applied to their other core tank assemble stations on different lines.

Team members

  • Sean Ahmed
  • Tyler Skibicki
  • Logan Stover

Sponsors

  • Chris McDermott, DENSO Manufacturing
  • Jasen Grant, DENSO Manufacturing
  • Michelle Haviland, DENSO Manufacturing

Faculty advisors

  • Dana Hammond
  • Dr. Tycho Fredericks

Improving a Fluid-Air Coffee Roasting Manufacturer

JavaMaster, a Detroit-based coffee air roaster manufacturer, entered the roasted coffee industry in early 2021. The facility’s capacity has recently been exceeded due to an increase in demand for roasted coffee. The manufacturer was evaluated utilizing root cause analysis, value-stream mapping, and facility layout methods.  Lean manufacturing techniques were introduced to further improve current operations. Facility layout optimization, implementing a quality control system for green beans and roasted coffee beans, and a demand forecasting model allowed the company to adjust to market fluctuations.

Team members

  • Charlie Burian
  • Caroline Konstant
  • Maren Rischer

Sponsors

  • Mark Duhaime, JavaMaster International, LLC
  • Robert Gumber, JavaMaster International, LLC
  • Larry Granger, JavaMaster International, LLC

Faculty advisors

  • Dr. Bob White
  • Dr. Azim Houshyar