Assessfy Capstone Lab Advanced 6 milestones 100 marks

Design and Retrofit of Regenerative Braking System for Electric Two-Wheelers

Branch: Automobile Engineering Type: Industry-applied final-year Major Project Standard: Mumbai University Rev-2019 'C' Scheme (Major Project I + II) Group: up to 4 students Assessment: 6 review-based milestones (100 marks)

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About this project

Objective: To develop and integrate a cost-effective regenerative braking retrofit kit for existing electric two-wheelers to improve energy efficiency and range.

Electric two-wheelers are rapidly growing in popularity in India, particularly for urban mobility, but their limited range and energy efficiency remain concerns for both individual users and fleet operators. Most low- and mid-range models lack advanced regenerative braking, leading to wasted kinetic energy during frequent stop-and-go traffic situations.

This project proposes the engineering and implementation of a modular regenerative braking system that can be retrofitted onto commercially available electric scooters and motorcycles. The approach includes designing a compatible power electronics interface, integrating with existing BLDC hub motors, and developing a microcontroller-based control strategy for energy recovery during braking events.

Key deliverables include a working prototype retrofit kit (including power electronics, sensors, and embedded controller), installation on a popular Indian electric two-wheeler model (e.g., Hero Electric Optima), bench and limited road testing, and a demonstrable increase in battery SOC after regenerative events. The system will feature CAN/LIN communication compatibility, safety interlocks, and user feedback via an LCD/phone dashboard.

Scalability lies in deploying this retrofit kit across the rapidly expanding electric two-wheeler market, reducing operational costs for users, extending vehicle range, and contributing to India's EV adoption and sustainability goals.

Milestones

1. Synopsis & Problem Definition (Stage-I Review-1)

7 marks 21d

Submit project synopsis outlining the need for regenerative braking retrofit in Indian electric two-wheelers, reviewed for clarity and relevance.

2. Literature / Market Survey & Requirement Analysis (Stage-I Review-2)

13 marks 27d

Present survey of existing regenerative braking solutions, market needs, and define precise technical requirements; reviewed by faculty and industry mentor.

3. System Design, Methodology & Cost Analysis (Stage-I close)

20 marks 34d

Deliver detailed system architecture, circuit and control design, and cost analysis; reviewed via design document and oral presentation.

4. Implementation / Fabrication of Working Model (Stage-II Review-1)

28 marks 40d

Fabricate and assemble the retrofit kit, integrate with selected two-wheeler, and demonstrate system operation to panel.

5. Testing, Results & Validation (Stage-II Review-2)

22 marks 31d

Conduct bench and road tests, analyze energy recovery, braking performance, and safety, and validate against requirements; reviewed through data and demo.

6. Report, Paper & Demonstration / Oral Defense (Stage-II final Oral & Practical)

10 marks 27d

Submit final report and research paper, and perform live demonstration with oral defense before examiner panel.

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Skills you'll learn

CapstoneFinal-year projectMajor projectAutomobile EngineeringAutomotive electrical and thermal systems integrationEmbedded systems programming and control algorithm developmentPower electronics circuit design and PCB fabricationVehicle dynamics and braking system analysisPrototypingassemblyand retrofit installationTestingvalidationand performance benchmarkingTechnical documentation and teamwork

Tools used

BLDC hub motor and controllerSTM32 or Arduino microcontrollerLTspice or MATLAB/Simulink for circuit and control simulationAltium Designer or Eagle for PCB designCAN/LIN interface modulesNI LabVIEW for data acquisition and test loggingIS 14664 (Indian braking performance standard)Battery SOC measurement hardware

Prerequisites

Automobile Electrical and ElectronicsPower Electronics and DrivesVehicle Dynamics and ControlMicrocontrollers and Embedded Systems

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