capstone project mechanical engineering

150+ Best Engineering Capstone Project Ideas for 2025

Capstone projects represent the pinnacle of an engineering student’s academic journey, serving as a comprehensive exercise in problem-solving, innovation, and technical expertise. These projects typically involve the application of learned theories, principles, and methodologies to address real-world engineering challenges. By engaging in capstone projects, students are not only able to demonstrate their competency in engineering but also gain hands-on experience that prepares them for the professional world.

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The primary goal of this article is to provide a detailed and expansive list of 150 engineering capstone project ideas. These ideas are carefully curated to cater to various branches of engineering , ensuring that students from different specializations find relevant and inspiring project topics. This article serves as a resource for students who may be overwhelmed by the prospect of choosing a capstone project, offering guidance on how to align their interests and strengths with current industry needs.

Engineering Capstone Project Ideas

A capstone project is a culminating academic assignment that requires students to use their engineering knowledge to design and implement a solution to a specific problem. These projects are significant because they simulate real-world engineering challenges, allowing students to gain practical experience and develop critical thinking, problem-solving, and project management skills.

Engineering capstone projects are significant undertakings that require students to integrate their academic knowledge with practical skills to solve real-world problems. These projects often involve collaboration, research, and the application of engineering principles to design, build, and test prototypes or systems.

Factors to Consider When Choosing a Project

When selecting a capstone project, students should consider several factors:

Interest and Passion: Choose a topic that aligns with your interests and passion, as this will keep you motivated throughout the project.
Relevance: Ensure that the project is relevant to your field of study and reflects current trends in technology and industry.
Feasibility: Consider the resources available, including time, budget, and materials, to ensure that the project is achievable.
Innovation: Opt for a project that offers scope for innovation and can potentially contribute new knowledge or solutions to the field.
Impact: Consider the potential impact of the project on society, the environment, or the industry.

Criteria for the Best Projects

Relevance to current technology and industry trends.

The best capstone projects are those that are relevant to current technology and industry trends. These projects often involve emerging technologies such as artificial intelligence , renewable energy, or smart systems. Staying up-to-date with industry trends ensures that the project is both innovative and valuable to potential employers.

Innovation and Impact

Innovation is a key criterion for a successful capstone project. The project should offer a novel solution to a problem, whether through the development of a new technology, an improvement to an existing process, or the creation of a more efficient system. Additionally, the project should have a measurable impact, whether on a local community, the environment, or the engineering industry as a whole.

Mechanical Engineering Capstone Project Ideas

Design and Development of a Multi-functional Drone: A drone capable of performing multiple tasks such as surveillance, delivery, and data collection.
Automated Waste Segregation System: A system that automatically sorts waste into recyclable and non-recyclable categories.
Solar-Powered Water Purification System: A portable system that purifies water using solar energy .
Hybrid Electric-Pneumatic Vehicle: A vehicle that combines electric and pneumatic power for enhanced efficiency.
Mechanical Exoskeleton for Rehabilitation: A wearable exoskeleton designed to assist in physical rehabilitation.
Smart HVAC System: A heating, ventilation, and air conditioning system that adjusts settings based on occupancy and weather conditions.
Wind-Powered Water Pump: A pump that uses wind energy to draw water from deep wells.
Modular Robotic Arm: A robotic arm with interchangeable modules for different tasks.
Automated Vertical Farming System: A system for growing crops in vertical stacks with automated watering and lighting.
Thermal Energy Storage System: A system that stores excess thermal energy for later use.
Portable Wind Turbine: A small, portable wind turbine designed for use in remote areas.
Human-Powered Electricity Generator: A device that generates electricity from human movement.
Smart Prosthetic Limb: A prosthetic limb that adjusts its movements based on user intent.
Energy-Efficient Cooling System for Electric Vehicles: A system that improves the cooling efficiency of electric vehicle batteries.
Automated Vehicle Suspension System: A suspension system that adjusts automatically based on road conditions.

Electrical Engineering Capstone Project Ideas

Smart Grid System for Renewable Energy Integration: A smart grid that seamlessly integrates renewable energy sources into the main power grid.
Energy Harvesting from Ambient Sources: Devices that capture and convert ambient energy (such as light or heat) into electricity.
Advanced Battery Management System: A system that optimizes the performance and longevity of batteries in electric vehicles.
Wireless Power Transfer System: A system for wirelessly charging devices over short distances.
Smart Lighting System: Lighting that adjusts its intensity and color based on the time of day and occupancy.
IoT-Based Home Automation System: A system that allows users to control home appliances remotely via a smartphone app.
Microgrid for Remote Communities: A small-scale power grid that operates independently from the main grid, using renewable energy sources.
Wearable Health Monitoring Device: A device that monitors vital signs and alerts users to potential health issues.
Smart Metering System: A system that tracks and reports energy usage in real-time, helping users reduce consumption.
Automated Energy Management System for Smart Homes: A system that optimizes energy usage in smart homes by controlling devices based on user habits.
Fault Detection System for Power Lines: A system that detects and reports faults in power lines before they cause outages.
Energy-Efficient Motor Controller: A motor controller that reduces energy consumption in industrial applications.
Solar-Powered Charging Station for Electric Vehicles: A charging station powered entirely by solar energy.
Smart Traffic Light System: A traffic light system that adjusts signals based on real-time traffic conditions.
Electric Vehicle Charging Optimization: A system that optimizes the charging process for electric vehicles, reducing wait times and energy consumption.

Design Capstone Project Topics

User-Centric Smart Home Interface: A user-friendly interface that integrates all smart home devices into a single platform.
Ergonomic Office Furniture Design: Office furniture designed to reduce strain and improve comfort for long hours of work.
Innovative Bicycle Design: A bicycle with enhanced safety features, such as built-in lights and reflective materials.
Sustainable Packaging Solutions: Packaging designs that minimize waste and use eco-friendly materials.
Modular Furniture for Small Spaces: Furniture that can be easily reconfigured to fit small living spaces.
Smart Wearable Fitness Tracker: A fitness tracker that offers personalized exercise recommendations and tracks progress in real-time.
Eco-Friendly Building Materials: Development of sustainable building materials that reduce environmental impact.
Smart Kitchen Appliances: Appliances that offer features like voice control, automatic cooking adjustments, and energy efficiency.
Biodegradable Consumer Products: Design of everyday products, such as cutlery or packaging, that biodegrade quickly and safely.
Redesign of Public Transportation Seating: Seats designed to enhance comfort and accessibility for all users, including those with disabilities .
Solar-Powered Outdoor Lighting: Design of aesthetically pleasing and energy-efficient outdoor lighting solutions.
User-Friendly Medical Devices: Devices designed to be easily used by patients and healthcare providers, reducing the risk of user error.
Portable Water Filtration System: A compact and efficient water filtration system for use in disaster relief or outdoor activities.
Energy-Efficient Architectural Design: Building designs that maximize energy efficiency through natural lighting, ventilation, and insulation.
Interactive Educational Tools: Design of tools that enhance learning through interaction, such as touch-sensitive displays or augmented reality applications.

Computer and Software Engineering Capstone Project Ideas

AI-Powered Personal Assistant: A virtual assistant that learns user preferences and automates routine tasks.
Blockchain-Based Voting System: A secure and transparent voting system that uses blockchain technology.
Cybersecurity Threat Detection System: A system that uses machine learning to detect and respond to cybersecurity threats in real-time.
Smart Inventory Management System: A system that tracks inventory levels in real-time and predicts future needs using AI.
Augmented Reality for Remote Collaboration: An AR platform that allows teams to collaborate on projects remotely with real-time visualizations.
AI-Driven Medical Diagnosis Tool: A tool that uses AI to analyze medical data and provide diagnostic recommendations.
IoT-Based Environmental Monitoring System: A system that monitors environmental conditions like air quality and temperature, providing real-time data and alerts.
Predictive Maintenance System for Manufacturing: A system that predicts equipment failures before they occur, reducing downtime and maintenance costs.
Smart Classroom Management System: A system that automates attendance, assignment submission, and grading in educational institutions.
Virtual Reality-Based Training Platform: A VR platform for training employees in high-risk environments, such as firefighting or hazardous materials handling.
Automated Content Moderation System: A system that uses AI to detect and remove inappropriate content from online platforms.
Voice-Controlled Smart Home System: A system that allows users to control home devices using voice commands, integrating with AI for personalized responses.
AI-Enhanced Video Surveillance System: A system that uses AI to analyze video footage in real-time, detecting potential security threats.
Mobile App for Mental Health Monitoring: An app that tracks mental health indicators and provides users with personalized support and resources.
Energy-Efficient Cloud Computing Solutions: Development of algorithms and architectures that reduce the energy consumption of cloud data centers.

Technology and Knowledge in Engineering Projects

IoT-Enabled Smart Agriculture System: A system that uses IoT devices to monitor and optimize agricultural processes, improving yield and reducing waste.
Blockchain for Supply Chain Transparency: A system that uses blockchain to track products through the supply chain, ensuring transparency and reducing fraud.
AI-Driven Predictive Analytics for Manufacturing: A tool that uses AI to analyze manufacturing data and predict future trends or potential issues.
Digital Twin for Industrial Processes: A virtual model of an industrial process that allows for real-time monitoring and optimization.
Autonomous Delivery Drone System: A drone system that autonomously delivers packages to specified locations, using AI for navigation and obstacle avoidance.
IoT-Based Energy Management System: A system that optimizes energy usage in buildings by controlling devices based on occupancy and usage patterns.
Advanced Simulation Tools for Engineering Design: Development of simulation software that allows engineers to test designs under various conditions before physical prototyping.
AI-Powered Traffic Management System: A system that uses AI to optimize traffic flow in urban areas, reducing congestion and emissions.
Smart Grid Technology Integration: Integration of smart grid technologies to enhance the reliability and efficiency of electrical grids.
Predictive Maintenance for Renewable Energy Systems: A system that predicts and prevents failures in renewable energy systems, such as wind turbines or solar panels.
AI-Driven Financial Risk Management Tool: A tool that analyzes financial data to predict and mitigate risks in investment portfolios.
IoT-Based Water Management System: A system that monitors and manages water usage in residential or agricultural settings, optimizing consumption and reducing waste.
Smart Waste Management System: A system that uses IoT and AI to optimize waste collection and processing, reducing costs and environmental impact.
Automated Quality Control System: A system that uses machine learning to inspect and ensure the quality of products during manufacturing.
AI-Enhanced Educational Platforms: Development of online educational platforms that use AI to provide personalized learning experiences for students.

Device and Material Focused Projects

Development of Bio-Based Polymers: Research and development of polymers derived from biological sources for use in various industries.
Design of a Low-Cost 3D Printer: A 3D printer that is affordable and accessible, aimed at educational institutions or small businesses.
Smart Fabrics for Wearable Technology: Development of fabrics that can monitor health indicators or interact with other smart devices.
Self-Healing Materials for Infrastructure: Materials that can repair themselves after damage, reducing maintenance costs and extending the lifespan of infrastructure.
Development of Supercapacitors for Energy Storage: Research on supercapacitors that can store and release large amounts of energy quickly, useful in applications like electric vehicles.
High-Performance Insulation Materials: Development of insulation materials that improve energy efficiency in buildings or vehicles.
Design of a Modular Prosthetic Limb: A prosthetic limb that can be easily modified or upgraded as needed.
Smart Glass with Adjustable Transparency: Development of glass that can change its transparency based on external conditions, useful for privacy or energy efficiency.
Lightweight Composite Materials for Aerospace Applications: Research on materials that reduce the weight of aircraft while maintaining strength and durability.
Advanced Coatings for Corrosion Resistance: Development of coatings that protect materials from corrosion in harsh environments, extending their lifespan.
Development of Biodegradable Electronics: Research on electronic components that can degrade safely after use, reducing electronic waste.
Smart Packaging Solutions for Perishable Goods: Packaging that monitors the condition of perishable goods and alerts users when they are about to spoil.
High-Strength, Low-Weight Alloys: Development of alloys that offer high strength while being lightweight, useful in automotive or aerospace industries.
Design of an Energy-Efficient Water Heater: A water heater that uses less energy by optimizing heat transfer and reducing heat loss.
Nanomaterials for Enhanced Thermal Conductivity: Research on nanomaterials that improve the thermal conductivity of materials, useful in electronics or energy systems.

Real-World Applications and Impact

Solar-Powered Desalination Plant: A desalination plant that uses solar energy to convert seawater into potable water, addressing water scarcity issues.
Automated Urban Waste Collection System: A system that uses robots or autonomous vehicles to collect waste in urban areas, reducing labor costs and improving efficiency.
Smart Traffic Management System for Emergency Vehicles: A system that prioritizes emergency vehicles at traffic lights, reducing response times.
Affordable Housing Solutions Using Recycled Materials: Development of housing units made from recycled materials, aimed at providing affordable housing in developing areas.
Water Purification System for Rural Areas: A low-cost water purification system designed for use in rural or remote areas, improving access to clean water .
Electric Vehicle Charging Network for Urban Areas: Design of a network of charging stations for electric vehicles, integrated into existing urban infrastructure.
IoT-Based Disaster Monitoring System: A system that uses IoT devices to monitor environmental conditions and provide early warnings for natural disasters.
Sustainable Urban Farming Solutions: Development of urban farming systems that use minimal resources and provide fresh produce to city dwellers.
Renewable Energy Solutions for Off-Grid Communities: Design of renewable energy systems, such as solar or wind power, for communities not connected to the main power grid.
Smart Healthcare Monitoring System: A system that monitors patients’ vital signs and provides real-time data to healthcare providers, improving patient outcomes.
Automated Traffic Incident Detection System: A system that detects traffic incidents in real-time and alerts authorities, reducing response times and improving road safety.
Sustainable Transport Solutions for Urban Areas: Development of sustainable transport systems, such as electric buses or bike-sharing schemes, to reduce congestion and emissions.
Smart City Infrastructure Planning Tool: A tool that uses AI to optimize the planning and development of smart city infrastructure, improving efficiency and sustainability.
Water Management System for Agriculture : A system that optimizes water usage in agriculture, reducing waste and improving crop yields.
Low-Cost, High-Efficiency Solar Panels: Development of solar panels that are affordable and efficient, making solar energy accessible to a wider audience.

Data Science and Engineering Capstone Ideas

Predictive Maintenance for Industrial Equipment: Use of data analytics to predict equipment failures before they occur, reducing downtime and maintenance costs.
Data-Driven Optimization of Manufacturing Processes: Analysis of manufacturing data to identify inefficiencies and optimize processes, improving productivity and reducing waste.
AI-Powered Quality Control System: A system that uses AI to analyze product quality in real-time, identifying defects and ensuring consistent quality.
Smart Grid Data Analytics: Analysis of smart grid data to optimize energy distribution and reduce costs.
Predictive Analytics for Traffic Management: Use of data analytics to predict traffic patterns and optimize traffic management, reducing congestion and emissions.
Data-Driven Design Optimization for Aerospace Engineering: Use of data analytics to optimize the design of aerospace components, improving performance and reducing costs.
Real-Time Data Monitoring for Smart Cities: Development of a system that monitors and analyzes data from various sources in real-time to optimize city operations.
Data-Driven Decision Support System for Healthcare: A system that uses data analytics to support decision-making in healthcare, improving patient outcomes.
AI-Powered Fraud Detection System: Use of AI and data analytics to detect and prevent fraud in financial transactions.
Smart Agriculture Data Analytics: Analysis of agricultural data to optimize farming practices, improving yield and reducing resource usage.
Data-Driven Urban Planning Tool: A tool that uses data analytics to support urban planning decisions, improving efficiency and sustainability.
Real-Time Data Analytics for Environmental Monitoring: Development of a system that monitors environmental conditions in real-time and provides data for decision-making.
Predictive Analytics for Renewable Energy Systems: Use of data analytics to predict and optimize the performance of renewable energy systems, such as wind or solar power.
AI-Powered Predictive Maintenance for Transportation Systems: A system that uses AI to predict and prevent failures in transportation systems, reducing downtime and maintenance costs.
Data-Driven Marketing Optimization for E-Commerce : Use of data analytics to optimize marketing strategies for e-commerce platforms, improving customer engagement and sales.

Additional Capstone Project Ideas

Autonomous Underwater Vehicle for Marine Research: Design an underwater robot capable of collecting oceanographic data and mapping the sea floor.
Smart Parking System for Urban Areas: Develop a system that uses sensors and mobile apps to guide drivers to available parking spaces.
Biometric Authentication System for Secure Access: Create a multi-factor biometric authentication system for high-security applications.
Drone-Based Precision Agriculture System: Design a drone system for crop monitoring, pesticide application, and yield prediction.
Smart Recycling Bin: Develop a recycling bin that automatically sorts different types of recyclable materials.
Wearable Air Quality Monitor: Create a wearable device that monitors air quality and provides real-time alerts to users.
AI-Powered Language Translation Earbuds: Design earbuds that provide real-time language translation using AI and natural language processing.
Earthquake-Resistant Building Design: Develop innovative building designs or materials that enhance structural integrity during earthquakes.
Automated Vertical Gardening System: Create a system for urban environments that automates plant care in vertical gardens.
Smart Home Energy Management System: Design a system that optimizes energy usage in homes by learning occupant behavior and preferences.
Robotic Assistant for Elderly Care: Develop a robot that can assist elderly individuals with daily tasks and provide companionship.
Augmented Reality Navigation System: Create an AR system that overlays navigation information onto the real world for pedestrians or drivers.
Noise-Cancelling Windows for Urban Environments: Design windows that actively cancel out external noise for improved quality of life in cities.
AI-Powered Personal Nutrition Advisor: Develop an app that uses AI to provide personalized nutrition advice based on an individual’s health data and goals.
Modular and Scalable Energy Storage System: Create an energy storage system that can be easily scaled for different applications, from home use to grid-level storage.
Smart Textile for Health Monitoring: Develop a fabric that can monitor vital signs and transmit data to healthcare providers.
Autonomous Snow Removal System: Design a system for automatically clearing snow from roads and sidewalks in urban areas.
AI-Enhanced Music Composition Tool: Create a software tool that uses AI to assist musicians in composing and arranging music.
Hybrid Renewable Energy System: Develop a system that combines multiple renewable energy sources (solar, wind, geothermal) for improved efficiency and reliability.
Smart Water Quality Monitoring System: Design a network of sensors for real-time monitoring of water quality in rivers, lakes, and municipal water systems.
AI-Powered Personal Finance Manager: Create an app that uses AI to provide personalized financial advice and automate savings and investments.
Robotic System for Automated Construction: Develop robots capable of performing construction tasks autonomously or in collaboration with human workers.
Smart Contact Lenses for Augmented Reality: Design contact lenses that can display digital information directly in the wearer’s field of vision.
Intelligent Traffic Light System for Pedestrian Safety: Create a traffic light system that uses AI and sensors to improve pedestrian safety at crosswalks.
Blockchain-Based Voting System: Develop a secure and transparent voting system using blockchain technology for elections.
Self-Healing Concrete for Infrastructure: Create a type of concrete that can automatically repair small cracks to extend the lifespan of structures.
AI-Powered Personal Stylist: Design an app that uses AI to provide personalized fashion advice based on body type, personal style, and current trends.
Smart Pill Dispenser for Medication Management: Develop a device that automatically dispenses medication at scheduled times and tracks patient adherence.
Drone-Based Emergency Response System: Create a network of drones for rapid response to emergencies, providing real-time information to first responders.
AI-Enhanced Language Learning Platform: Develop an adaptive language learning system that uses AI to personalize lessons based on individual progress and learning style.

How to Choose the Right Capstone Project Topic

Selecting the right capstone project topic is a crucial step in ensuring the success of your engineering capstone project. The process involves careful consideration of several factors, including your personal interests, the feasibility of the project, available resources, and the alignment of the project with your career goals. Below, we’ll explore these factors in detail and provide tips to help you choose the best topic for your capstone project.

Personal Interests and Strengths

One of the most important factors to consider when selecting a capstone project topic is your personal interests and strengths. Your capstone project is an opportunity to dive deep into a subject area that excites you. Choosing a topic that aligns with your passions will not only make the project more engaging but will also keep you motivated throughout the research and development process.

Assess Your Interests: Reflect on the areas of engineering that you find most fascinating. Do you have a keen interest in renewable energy, robotics, or software development ? Identifying what excites you will help narrow down potential topics.
Leverage Your Strengths: Consider your academic strengths and technical skills. If you excel in certain areas, such as programming, mechanical design, or data analysis, choosing a topic that leverages these strengths will give you a competitive advantage.
Personal Passion: A project aligned with your passion is likely to yield better results because you’ll be more inclined to invest the necessary time and effort.

Project Feasibility and Resources

Feasibility is another critical factor to consider when selecting a capstone project topic. Even if you’re passionate about a particular subject, you must ensure that the project is realistic and achievable within the given timeframe and with the resources at your disposal.

Time Constraints: Evaluate the amount of time you have to complete the project. Capstone projects typically span several months, but the complexity of your chosen topic should match the available time.
Resource Availability: Consider the resources required for your project, including materials, equipment, software, and access to laboratories or workshops. Ensure that you have access to these resources or can acquire them within your budget.
Technical Challenges: Assess the technical challenges associated with the project. While challenging projects can be rewarding, it’s essential to ensure that the challenges are not insurmountable given your current skill level and the resources available.

Tips for Selecting the Best Topic

Aligning with career goals.

Your capstone project is not just an academic exercise; it can also serve as a stepping stone to your future career. When selecting a topic, think about how it aligns with your long-term career aspirations.

Industry Relevance: Choose a topic that is relevant to the industry or field you wish to enter. For example, if you’re interested in a career in renewable energy , consider a project related to solar power, wind energy, or energy storage solutions.
Showcase Your Skills: Select a project that allows you to showcase the skills and knowledge you’ve acquired during your studies. This will make your project an impressive addition to your resume or portfolio, demonstrating to potential employers that you have practical experience in your chosen field.
Networking Opportunities: Some topics may offer opportunities to collaborate with industry professionals or organizations. Such collaborations can provide valuable networking opportunities and potentially lead to job offers upon graduation.

Seeking Guidance from Mentors and Industry Experts

Seeking advice from mentors, professors, and industry experts is invaluable when choosing a capstone project topic. These individuals can provide insights, suggest topics, and help you refine your ideas to ensure that your project is both challenging and achievable.

Consult with Professors: Your professors have a wealth of knowledge and experience in their respective fields. Discuss your interests and ideas with them, and they can guide you towards topics that are academically rigorous and feasible.
Engage with Industry Experts: If you have connections in the industry, reach out to professionals who can provide practical insights into current industry trends and challenges. Their advice can help you choose a topic that is relevant and impactful.
Peer Feedback: Don’t underestimate the value of discussing your ideas with peers. Fellow students may offer different perspectives and ideas that can help you refine your topic.

Choosing the right capstone project topic is a critical decision that will shape your engineering capstone experience. By considering factors such as personal interests, strengths, project feasibility, and career alignment, you can select a topic that is both challenging and rewarding.

If you need further assistance in developing your capstone project or require help with nursing assignments, consider seeking professional our academic writing services . Our team of experts is here to support you at every stage of your academic journey, helping you achieve your goals with confidence.

What makes a good engineering capstone project? A good engineering capstone project should be challenging, innovative, and relevant to current industry trends. It should also align with your interests and career goals while being feasible within the given timeframe and resources.
How long does it typically take to complete an engineering capstone project? Most engineering capstone projects span one academic year, allowing students to thoroughly research , design, implement, and test their solutions. However, the exact duration can vary depending on the project’s complexity and the specific requirements of your academic program.
Can I collaborate with industry partners on my capstone project? Many universities encourage collaboration with industry partners for capstone projects. This can provide valuable real-world experience and networking opportunities, but be sure to check with your supervisor about any restrictions or guidelines for such collaborations.
How important is the capstone project for my future career? A well-executed capstone project can be a significant asset for your future career. It demonstrates your ability to apply theoretical knowledge to practical problems, showcases your skills to potential employers, and can even lead to job opportunities or further research in your chosen field.

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All mechanical and materials engineering students are required to complete a capstone project in their senior year. Below you will find a list of past capstone projects from our engineering students.

2023 Fall Semester Projects

Rapid Solidification Machine (PDF) Team Members: Anthony Carver, Jesse Potts, Landon Tuck, Courtney Wuilleumier
Design and Development of an Extrusion-Based 2.5D/3D Printer for Electronic Packaging (PDF) Team Members: Alex Adams, Dylan Hall, Jacob Harrison, Jeet Patel
Development of a Grease Lubrication Mechanism for a Two-Disk Contact Set-Up (PDF) Team Members: Devin Blankenship, Braden Russell, Kevin Kemp, Austin Sherwood, Alex Plas
Green Automated Aquaponics System (PDF) Team Members: Intissar Elhani, Alan Whiting, Kevin Grubb, Evan Gehret
CFD Modeling of Formula 600 Race Car (PDF) Team Members: Sean Barber, Ethan Cornell, Bailey Hoelscher, Tamal Kambarov, Viswanathan Ramesh
Low Head Ocean Energy Storage (PDF) Team Members: Adam Hume, Cameron Floyd, Carson Estep, Dustin Leonard, Samuel Boys

2023 Spring Semester Projects

Convertible Home Gym Apparatus (PDF) Team Members: Connor Schock, Noah Bledsoe, Jackson Nix
Battlefield Model Design (PDF) Team Members: Hameed Juma, Jeff Denton, Lemuel Duncan, Zach Baker
Metal Air Batteries for EVs and Electronic Devices (PDF) Team Members: Alexis Burt, Logan Nielsen, Ian Thompson
Wave Power Conversion (PDF) Team Members: Luke Banks, Bryce Ullman, Emma Vuckovich
SAE Baja Collegiate Design Series (PDF) Team Members: Clay Minor, Logan Rowland, Elliot Wiggins, Julia Sentman, Dominic Manns, Stephanie Gangl
Hybrid UAV Power System (PDF) Team Members: Lucas Duncan, Riley Hall, Abigail Kerestes, James Schmitz
Optimization of Joining Methods for Generator Converter Chassis (PDF) Team Members: Tyriek Craigs, Seth Perkins, Robert Hall, Jacob Evans
Optimization of Temperature Gradient in Magnetic Inductors (PDF) Team Members: Kyle Schroder, Alan Hingsbergen, Blake Martin, Jordan Stanley
Optimized Wire Coiler for GE Aviation (PDF) Team Members: Connor Allen, Bradley Jones, Alex Strack, Kaitlin Willi
Solar Splash Electric Boat Competition (PDF) Team Members: Brice Prigge, Bryar Powell, Chase Mansell, Evan Hannon
Ultralight Copper Current Collectors for Flexible Batteries (PDF) Team Members: Connor Wyckoff, Branen Bussey, Dryana Russell, Mashuj Alshammari

2022 Fall Semester Projects

Modular Vibration Testing Kit for Vibrations Lab Course (PDF) Team Members: Michael Ahlers, Seth Madison Tyler Motzko
Design of Complex Fluid Electrical Conductivity Cell (PDF) Team Members: Bradley Cripe, Garrett Gniazdowski, Gaspard Matondo, Scott Osborne
Structural Optimization of Quadcopter Landing Gear (PDF) Team Members: Taha Etekbali, Jilian Sollars, Katrina Knight
Convertible Home Gym (PDF) Team Members: Max Carnevale, Randa Richards, Kevin Hall, Michael Orengo
IDC Spring Crimping Tool (PDF) Team Members: Aleni Burcham, Samuel Sowers, Alexander Smith, and Luke Lieghley
Ocean Wave Energy Generation (PDF) Team Members: Cameron Slater, Ben Ferree, Daniel Ploss, Austin Shurlow

Past Capstone Projects

Micro Turbine Engine Design Competition
Additive Manufacturing Process Design
SAE Baja Competition
Fluid Viscosity Measurement
Folding UAV
Wheel Life Prediction
Dual-Plane Airfoil
Resonance Wave Power
Autonomous Aerial Remote-Sensing Drone
Serial Grinder and Imaging System to Create 3-D Images of Vertebrate Rich Sedimentary Rock Cores
Customizable and Low-Cost Water Quality Monitoring Platform for Grand Lake St. Marys
Robotic Football Competition
Wood Materials Project
Self-Learning Targeting System
Convertible Home Gym
Additive Manufacturing Welding
Programming & Optimization
Characterizing the Performance of a UAV for a Future Hybrid Powertrain
Configurable Bike
Mechanical Tester for Printed Electronics
Porous Testing Medium
SAE Aero Design Competition
Solar Splash Design Competition

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