2. INTRODUCTION
Interest in supercapacitors has increased significantly in recent years due to Its
potential for utilisation in a wide range of applications.
Traditionally , supercapacitors consists of carbon based electrodes, an aqueous or
organic electrolyte and an ion-permeable separator.
High-Surface area carbons, such as activated carbons, carbon fiber and carbon
aerogel are used as electrode material in super capacitors.
3. ABSTRACT
An electricity storage device that utilizes coirpith, a natural and renewable
resource, as a key component. Coirpith, a byproduct of the coconut industry, has
gained attention as a potential material for energy storage due to its unique
properties, low cost, and environmental benefits. The proposed electricity storage
device involves the integration of coirpith-based electrodes within a suitable
electrochemical system. The electrodes are designed to facilitate the storage and
release of electrical energy through reversible redox reactions. Coirpith, being rich
in lignocellulosic fibers, offers a high suimpace. Moreover, the utilization of
coirpith as an energy storage material contributes to waste valorization by
repurposing an agricultural by product. The potential advantages of using coir
pith for electricity storage include its abundance, biodegradability, and negligible
environmental impact compared to conventional storage materials. The outcome
of this research could pave the way storage sustainable, cost-effective, and
environmentally friendly alternative for energy storage.
4. OBJECTIVES
The main need of electricity storage device using coirpith is to provide a product
with alternative way to store in electricity using coirpith.
5. PROBLEM
IDENTIFICATION
Most of the battery are using only in lithium phosphate.
In a certain period of time, the lithium phosphate will be depected and will not able
to make current storage.
6. LITERATURE REVIEW
Title of Paper Technology Journal Name Year
Multifunctional
bio carbon: a coir
pith waste
derived electrode
for extensive
energy storage
device
applications
Electrochemical
energy storage
devices
seamlessly
occupy the
position of
sustainable
solution offering
devices and
required
immediate
attention.
RSC advance 2017
7. SCOPE OF THE IDEA
Once we can store the electricity in coirpith and then we can take it out
whenever we needed it.
Cost-effective
Having less maintenance
8. BLOCK DIAGRAM
AC /DC Input Power Positive Electrolite Chamber Coirpith
Electrolite
Output Power Load AC/DC Negative Electrolite
Chamber
9. COMPONENTS REQUIRED
Electrode
Copper plate
Aluminium foil sheet
Digital Multimeter
RPS
LED
Wall clock
Caton cloth
Alovera gel
10. APPLICATION
It’s very useful into the Local rural areas.
Easily to store the electricity.
Easy to operate and the less effect.
11. ADVANTAGES
The electricity storage device using coirpith is Cost-effective.
It is eco friendly.
It can be easy to moved to another location.
It is required less maintenance.
13. CONCLUSION
In order of the electricity storage device using coirpith to be accepted in the
community, Its must be inexpensive and easy to build. I recognised this need and
designed the storage device from the start with low cost in mind.
The storage device with build using part is readily available in rural areas .
Therefore there is no need to import components should they wear out. A
functional prototype of electricity storage device using coirpith was built.
14. REFERENCE
S.Yuliang, X. Lifen, L. S. Maria, W. Wei, S.B. Biragit, X. Jie, Z. Nie, V.S.
Laxmikant, Y.Zhenhhuo and L.jun, Nano Lett., 2012, 12, 3783 – 3787.
2S. Fei, Z. Hongli, L. Wei, W. Jiaya, Z. Lihui, D. Jiagui, Z.Bin, H. Xiaogang, F. Kun
and H. Liangbing, ACS Appl Mater . Interface, 2015 , 17, 23291-23296.