IOT BASED AUTOMATED PETROL PUMP

International Research Journal of Engineering and Technology (IRJET) e-ISSN: 2395-0056
Volume: 10 Issue: 04 | Apr 2023 www.irjet.net p-ISSN: 2395-0072
© 2023, IRJET | Impact Factor value: 8.226 | ISO 9001:2008 Certified Journal | Page 995
IOT BASED AUTOMATED PETROL PUMP
Suraj Godse1, Namrata Khilari2, Pooja Tengle3, Prof. U.V. Pawar4
1,2,3B.E. Student, Department of Computer Engineering
4Professor, Computer engineering department Smt. Indira Gandhi college of engineering Mumbai, India
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Abstract - Almost all fuel pumps now feature a controlling
device that performs activities suchasmanagingtheelectrical
pump, operating the display, metering the flow, andswitching
the electrical pump off as needed. However, someonemuststill
collect the funds. The project's major purpose is to develop a
dispensing system that can automatically dispense petrol in
the amount chosen by the client. The bulk of the places we go
on a daily basis, such as workplaces, bus stops, railway
stations, and schools, have gasoline distribution networks. In
this section, we will argue for a petrol distribution technique
that is current. There have been various challenges in India as
a result of the dispensing of petrol to such a big number of
autos at fuel stations. The motorist must pay for petrol in cash
and may be required to pay more than the amount of fuel
given because the station owner does not have access to tiny
change. The RFID Based Automated Petrol Pump will
eliminate manual effort, build an auto-guiding system, and
perform each function in turn by utilizing RFID technology.
These gadgets are easy to use and dependable. RFID tags, an
8051 microcontroller, a power supply, anLCD display, amotor
driver, and an RFID reader are all utilized in this project.
Petroleum is a precious and unique invention of nature. It is
critical to utilize and distribute these items correctly if they
are to thrive.
Key Words: Microcontroller, Dispensing system,
Automated Petrol Pump system.
1. INTRODUCTION
There have been various challenges in India asa resultofthe
dispensing of petrol to such a big number of motor vehicles
at fuel stations. The vehicle driver must pay for fuel with
cash and may be required to pay more than the amount of
fuel provided owing to a scarcity of small change available
from the station operator. Petrol is one of the items that we
require in our daily lives, whether directly or indirectly.
Currently, fuel stations are run by hand. These gasoline
pumps require more time and effort to operate. It is quite
costly to locate fuel stations in remote places in ordertogive
outstanding customer service. All of these issues are
addressed by the use of unmanned fuel pumps, which take
less time to run, are effective, and can be located anywhere
the consumer self-goes to use the services. Payment is made
via an electronic clearance system.
All of these issues are addressedbytheuseofunmannedfuel
pumps, which take less time to run, are effective, and can be
located anywhere where the customer self-goes to use the
services. Payment is processed via an electronic
authorization system.
2. PROBLEM STATEMENT
Most people use credit or debit cards to pay at the gaspump,
which is one aspect of cashless payment, but it is a good
approach if you own a car. But what about How will you fill
the fuel if you have entrusted your car to a driver to fill the
petrol pump or if your automobile is working with a cab
service firm like OLA or UBER? So we propose a mechanism
in which you may make paymentsremotelywithouthanding
over cash to your driver. I hope this approach meets the
requirements of the preceding problem.
3. LITERATURE SURVEY
The ATmega328 is commonly used in projects and
autonomous systems that require a simple, low-cost
microcontroller. The ATmega328 (EEPROM) has 1KB of
ElectricallyErasableProgrammableRead-OnlyMemory. This
feature implies that even if the power is switched off, the
microcontroller can still store data and output results after
receiving an electric source.
In addition, the ATmega-328 includes 2KB of static random-
access memory (SRAM). The ATmega328 offers a variety of
capabilities that make it the most popular gadget on the
market today. Advanced RISC architecture, good
performance, low power consumption, real timer counter
with independent oscillator, 6 PWM pins, programmable
Serial USART, programming lock for software security,
throughput up to 20 MIPS, and so on are among the
characteristics.
Everything is now digital. In many modern systems, nearly
all petrol pumps have a controlling unit that manages the
electrical pump, runs the display, measures the flow, and
finally turns off the electrical pump. However, a person is
still required to collect the funds, and there is always the
possibility of human mistake. We may get gas at numerous
gas stations managed by various petroleum corporations
using this proposed Cash Less Petrol pump automation
system.

3. METHODOLOGY
The major goal of the project is to createa dispensingsystem
that can autonomously dispense fuel. The overall procedure
of delivering fuel involves the following steps: making
payments via an Android application, generating a random
unique code, and automatic delivery of petrol. The model's
unique code will be verified by the server by retrieving data
from the database.
(a) Android application.
To register, the user must first log in using an application.
After logging in, the user must pick thenearestpetrol station
offered by the application. The list was compiled using the
Global Positioning System (GPS). After selecting the desired
petrol pump, the user must choose the available timeperiod
and amount. The user must pay after picking a time slot and
quantity. A one-of-a-kind code will be producedandsaved in
the database. This code will be sent to the user's registered
cellphone number via SMS.
FIGURE I: Flowchart
(b) Hardware
The ATmega8 is a low-power 8-bit CMOS microcontroller
based on the AVR RISC architecture. By executing powerful
instructions in a single clock cycle, the ATmega8 achieves
throughputs approaching 1 MIPS per MHz, allowing the
system designer to balance power consumption versus
processing speed. We will utilize the ESP 12 as a WIFI
module to connect to the internet. The ESP8266 WIFI
Module is a self-contained SOC with an integrated TCP/IP
protocol stack that allows any microcontroller to connect to
your WIFI network. The ESP8266 may run programmers or
offload whole Wi-Fi networking activitiesfromanotherCPU.
FIGURE II: ESP8266EX Block Diagram
FIGURE III: Hardware Flowchart
Hardware requirement:
 At mega 328 Microcontroller
 Wi-Fi module
 LCD Display
 LED’s
 Power Supply
 Keypad 4X3
 Resistors
 Capacitors
 Relays
 Pump

Software Specifications:
 Arduino Compiler
 SQL database management System
5. Working
(a) Android application.
The user must sign in using the "Prepaid Petrol Pump"
application. If the user has notalreadyregistered,hemust do
so by supplying information such as his email address,
mobile phone number, and so on. Figure IV illustrates the
user login and registration interface.
FIGURE IV
After registering/logging in, the user must provide GPS
access to the application. The application will identify all
local gas stations based on the user's GPS position. gas
pumps must be manually entered into the database with
their exact coordinates, so that the applicationmaydisplaya
list of nearby gas pumps depending on the user's location.
Figure V illustrates the output of the specified fuel pumps
when used. The user must pick the nearest gas stationbased
on his or her convenience from the list supplied.
FIGURE V
After selecting the fuel pump, the user must input the date
and desired time slot to view the waiting list for that time
session. After entering a date and time, the application will
check the waiting list for that time slot and reporttheresults
to the user. After selecting the day and time, the user must
pick the needed fuel PETROL or DIESEL and input the
required amount in liters before proceeding to the payment
procedure. Figure V shows the result after selecting a petrol
pump.

FIGURE VI
Following payment processing, the applicationwill displaya
payment window where the user must input the card
number, card name, and any other payment requirements.
FIGURE VII
Following payment, the customer will get an RUC (Random
Unique Code) on their registered cellphone number. To
obtain the allotted quantity of fuel, the user must enter this
code.
(c) IOT Model
The user must input the cellphone number used to make the
booking as well as the code obtained after thebooking. All of
the primary operations are performed by the ATMEGA 328
Microcontroller. The credentialsentered will besenttoNode
MCU, which will establish a connection with the server and
confirm the input credentials. The server will send a
response to the Node MCU, which will then be sent to the
ATMEGA 328 microcontroller. The ATMEGA 328 will do the
needed job based on the response.
FIGURE VIII
The user must input the generated code at the gas station.
When the user inputs the code, the hardware device will
contact an internet server and obtain the amount of fuel
chosen by the user. Following that, the pump will discharge
the specified amount of fuel for that user. The flow sensor
will be used to compute the amount of petrol to be
dispensed, and relays will be utilized to start and stop the
pump.
The countdown will be displayed on the display, and when
the countdown is complete, the pump will be deactivated.

4. ADVANTAGES OF PROPUSED SYSTEM
This solution will allow the petrol pump to function
indefinitely without human intervention. The monetary
function of the system will be handled by a centralized
server with a database of the customer's details such as
name, random code, and so on. The programme brings to
reality the concept of a cashless India. This process can be
automated in the sense that the consumer pays money
online through a portal, following whichthesystemcreatesa
random code and sends it to the client. Smart petrol pumps
are automated petrol machines that address all of the faults
of the current system. A self-contained smart fuel pump has
a manual interface. The smart gasoline machine recognizes
the quantity entered by the user using a unique algorithm.
5. CONCLUSION
This project is intended for security systems that only
trusted authorities have access to. The appropriate amount
is computed and debited from his gas card. The electrical
pump is then activated based on the quantity input, fills the
tank, and then shuts off automatically. Ourelectronicsystem
worked as it should. We were able to carry out all of the
functions outlined in our proposal. The most difficult
challenge with this project was integrating the
microcontroller with the hardware components. We believe
that this electrical system is extremely marketable owing to
its ease of use, low power consumption, and great reliability.
This project allows you to create a secure system. The user
will provide their cellphone number and passwordtoaccess
the online platform. After logging in, he will enter the
amount of fuel in liters, which will be subtracted
automatically, and he will be given a secret code. He must
input that code at the petrol pump, afterwhichthehardware
unit will contact an internet server to obtain the amount for
the petrol pump for that user and release that quantity of
petrol for that user. Each user will have their own private
key. The flow sensor will be used to compute the amount of
petrol to be dispensed, and relays will be utilizedtostartand
stop the pump.
6. FUTURE SCOPE
Over the years, an unmanned fuel station was necessary to
meet the needs of consumers across a vast region. The
notion of an unmanned petrol station is not restricted to gas
stations, but it may also be applied to the availability of food
grades over a wide region. The usage of plastic money can
protect humans from robbery, fraud, and other undesired
incidents. The project's major goal is to minimize waiting
time and give a more quick way to purchase gas at a petrol
station. The suggested solution has been found to be
incredibly helpful since it gives a safe and cashless digital
system, which prevents fuel fts in thelatestdigital India idea.
REFERENCES
[1]. O. O. Edward, “A research using remote monitoring
technology for pump output monitoring in distributed fuel
station in Nigeria,” International journal of Advances in
Engineering & Technology, vol. 6, no. 6, pp. 2408-2415,
January 2014.
[2]. Z. Cekerevac, S. Matic, D. Duric and D. Celebic, “Fuel
dispenser control system as the technical solution for
preventing non-authorized fuelling,” in 11th International
Scientific Conference devotedtoCrisesSituationsSolutionin
Specific Environment, Zilina, 2006.
[3]. Patil Aishwarya M., Phuke sayali J., Tapase Snehal B.,
“College access and student attendance using ‘RFID’
technology.
[4] A. H. Jadhav, R. S. Pawar, P. M. Pathare, K. D. Pawar and P.
Patil, “Multi-Automized fuel pump with user security,
“International Journal of Scientific & Technology Research,
vol. 3, no. 5, May 2014.
[5]. P. Jaska, D. B. A. Johnson, J. Nalla, N. V. K. Reddy and R.
Tadisina, “Improved customer service using RFID
technology, “Review of business Information Systems, vol.
14, no. 3, 2010.
[6] O. O. Edward, “A research using remote monitoring
technology for pump output monitoring in distributed fuel
stations” International journal of Advances inEngineering&
Technology, held on January 2014.
[7] F. Don, “Electronic Prepaid Car Parking: An Introduction
and Brief Look at Potential Vulnerabilities,”inSANSInstitute
infoSec Reading Room, 1.4b ed. 2004. [8] N. Jeevagan, P.
Santosh, R. Berlia and S. Kandoi, “RFID based vehicle
identificationduringcollisions,”inIEEE Global Humanitarian
Technology Conference San Jose, CA, 2014.
[9] Patil Aishwarya M., Phuke sayali J., Tapase snehal B.,
“College access and student attendance using ‘RFID’
technology.
BIOGRAPHIES
Suraj Godse is pursuing the Bachelor degree
(B.E.) in Computer Engineering from Smt.
Indira Gandhi college Of Engineering, Navi
Mumbai.
Pooja Tengle is pursuing the Bachelordegree
(B.E.) in Computer Engineering from Smt.
Indira Gandhi college Of Engineering, Navi
Mumbai.

Namrata Khilari is pursuing the Bachelor
degree (B.E.) in Computer Engineering from
Smt. Indira Gandhi college Of Engineering,
Navi Mumbai.
PROF. Uday Pawar, Obtained the Bachelor
degree (B.E. Instrumental) in the year 2000
from Gangamai College Of Engineering,
Nagaon, Dhule and Master Degree (M.E.
Instrumental )From Government College Of
Engineering Pune .He is Asst. Prof in Smt. Indira Gandhi
college Of Engg. Of Mumbai University and having about 15
years of experience.

IOT BASED AUTOMATED PETROL PUMP

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