Abasyn - BEEE - SDP FYP - 3798.pptx

Piezoelectric Generator for Recharging Battery
Abid Kamal AUIC-19FL-BEEE-3798
Waheed Alam Khan AUIC-19FL-BEEE-3797
Junaid Khan Khattak AUIC-19FL-BEEE-2040
Supervisor: Engr. Rashida Khalid
FYP PERPOASL
DEFENCE
PRESENTATION
1
AUIC - EED - FYP Proposal Defence Presentation

Motivation
• To promote non-conventional energy
• Produce electricity at cheapest cost for domestic use
AUIC - EED - FYP Proposal Defence Presentation 2

Introduction
• The word originates from the Greek word
"piezein", which means "to press". Discovered
in 1880 by Pierre Curie in quartz crystals.
• Piezoelectric are materials that can create
electricity when subjected to a mechanical
stress.
• The word piezoelectricity means electricity
resulting from pressure.

Problem Statement
• In Pakistan the demand of electrical energy is
more than the daily energy produced so we are
facing shortfall of electricity. People use
rechargeable batteries (UPS) or diesel/petrol
engine(generators) to fulfill their demands, but
the fuel for these generators are too much
expensive.
4
AUIC - EED - FYP Proposal Defence Presentation

Problem Solution
• To overcome this issue we will use the
cheapest way to generate electrical energy
using piezoelectric material (convert
Mechanical stress into Electrical Energy).

Objectives
• Simulate the circuit using Matlab/ proteus
• To produce electricity using piezoelectric sensors

Application
• In gyms where people
can exercise and create
more power.
• In shopping malls where
people can walk and
generate power.
• In train stations because
there’s usually high
density of people, so it
can be effective.

Top level diagram
Mechanical stress
(footstep)
Piezo sensors Bridge Rectifier
DC-DC Converter Storage device Load

Project flow diagram
Start
End
Background
understanding
Literature review
Results verification
Assembling of
components to get
desired results
Components choice
Hardware
Report Writing
Comparison
Simulation
Modeling
Software
Study piezoelectric
sensor
Desired
Response
Yes No
Background
understanding
Literature review
Results verification
Assembling of
components to get
desired results
Components choice
Hardware
Report Writing
Comparison
Simulation
Modeling
Software
Study piezoelectric
sensor
Desired
Response
No

Project Milestones
Sr # Milestones Deliverable Estimated
Time
Completion in
percentage
1 Basic Knowledge Knowledge about the basic and working of CCV 1st Month 100%
2 Understanding Background theory Learing project essentials 2nd Month 100%
3 Literature Review Knowledge about the previous done work in
similar area
3rd Month 20%
4 Designing the energy harvesting circuit Simulate dc-dc boost converter 5th Month 10%
5 Hardware Design and measurements 6th Month 0%
6 Designing hardware Comparision between simulated and measured
result
7th Month 0%
7 Accumulate all details and compose a
Project Report
Project Report 10th Month 0%

Progress
Footstep piezo generator by prince Muhammad bin Fahd university Issue: 03 | Mar -2017
PAPER # 1
Footstep piezo generator

Progress
PAPER # 2
International Journal of Innovative Research in Science, Engineering and Technology Vol. 7, Issue 5, May 2018
Footstep power generation using piezo
electric crystal
Rectifier circuit

References
• [1]. V. Sunil Kumar, T.V. Sai Kalyani, CH. Srinivas.
International Journal of Innovative Research in
Science, Engineering and Technology (“Foot Step
Power Generation Using Piezo Electric Crystals”) Vol.
7, Issue 5, May 2018.
• [2]. Niu P, Chapman P, Riemer R and Zhang X, 2004
“Evaluation of motions and actuation methods for
biomechanical energy harvesting”, Proc. IEEE 35th
Annual Power Electronics Specialists Conf. (Aachen)
pp 2100–2106.

Abasyn - BEEE - SDP FYP - 3798.pptx

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Abasyn - BEEE - SDP FYP - 3798.pptx