Iot based three phase voltage regulator

Project Title

Iot based three phase voltage regulator

Project Area of Specialization Internet of ThingsProject Summary This Three phase IoT Based Monitorirng  is a prototype of real-life industry controllers. The 3-phase controller has the ability to determine the 3-phases at input on your smart phones via an android application known as BLYNK. After Smart city, now it’s time for us to work on industries as industries are the ones which generates power that can be used for mechanical work. This generation of power requires a serious attention, the load at the output of power generation needs a proper power to operate, and this whole system in industries needs to be monitored by people to prevent power losses and system failures. In Addition, A solution has been identified to prevent the system failures. We have designed a 3-phase Monitoring system that prevents the system failure by monitoring 3-phases on internet connected with your smart phones, this system is smart because it provides you an alarm whenever any of your phases gets down .In the Internet of Things, platforms are designed to deploy applications that monitor, manage, and control connected devices. The biggest usage of this project is in power generation and transmission  industries which are running 24 hours a day .In Induction motor there are several problems arising like heating , voltage imbalance , speed and power factor issues . That's why  these large a synchronous induction motors needs to be monitored in a hourly bases which is very difficult for facilty members. There comes our project that is filled with electric sensors connected with NODMCU ESP8266 integrated with arduino and connected with mobile application Blynk wirelessly. IoT platforms must handle problems like connecting and extracting data from a potentially vast number and variety of endpoints, which are sometimes in inconvenient locations with spotty connectivity.   Project Objectives

1. Study and Analysis Of Internet Of Things(IoT)
2. Data Acquisition of running relevant devices
3. Designing Of  Hardware
4. Designing Of Software(Blink) And Hardware(3-phase controller)
5. Application In Industries Especially in power generating plants and telecommunication industries
6. Measurement Of electric parameters(voltage , current , Power , Power factor) with the help of Blynk from remote areas .

Project Implementation Method What we are doing in our project is that we are actually solving a problem of electric motors (especially a synchronous induction motor) .We will deploy our first prototype in Induction motors. This Induction Motor will be connected with NODMCU and other sensors and if there arise a problem in any phase of motor like  voltage/power imbalance .The notification will be sent to our mobile app through email or  sms. Notification is upto us how we need to be informed. The same prototype can also be implemented into Active harmonic rectifiers which are actively used in Radar system . These rectifiers are need to be planted very far areas for reception of signals. So it is very difficult for workers to monitor all of the  recitifiers . And with the help of this 3-phase IoT based system we can also monitor this system as well .  Benefits of the Project

There are several benefits of our project listed below.

• Advanced fault-detection and protection through high-speed disconnection in the case of: overcurrent, overvoltage, leakage current and electric arc;
• Real-time monitoring by sending recorded events to a Web server where the information is accessible through an online Web-based interface or mobile app data base system.

• Real-time notifications by android application  to designated persons
• measurements of electric(voltage, current , power, frequency) and environmental parameters(temperature, humidity , speed) from a very remote areas 

• Flexible and scalable communication infrastructure supporting easy integration in smart environments and with other utility service operators.

Technical Details of Final Deliverable Our Project is divided into 2 parts hardware and software . The hardware part is consist of Arduino board built-in in NODMCU ESP8266 and electric and environmental sensors which include voltage , current , temperature sensors . Software part is consist of a blynk  application  connected with arduino software. In additon to that this blynk is also responsible for all the measurements and graphs of parameters . Here 3-phase motors and other machines will be connected with NODMCU and that NODMCU will be connected with Blynk application wirelessly . All the sensors will be connected with NODMCU and source voltage .  Final Deliverable of the Project HW/SW integrated systemCore Industry TelecommunicationOther Industries IT , Energy , Others , Security Core Technology Internet of Things (IoT)Other TechnologiesSustainable Development Goals Affordable and Clean Energy, Decent Work and Economic Growth, Industry, Innovation and InfrastructureRequired Resources

Item Name	Type	No. of Units	Per Unit Cost (in Rs)	Total (in Rs)
			Total in (Rs)	49540
NODMCU ESP8266 wireless board	Equipment	3	1970	5910
Bread Board	Equipment	4	150	600
Printed Circuit Board(12*4.4) copper single side	Equipment	10	180	1800
GOT TQ-77 20/200W quick heat up soldering iron	Equipment	1	5800	5800
Soldering Wire 100GM	Equipment	3	190	570
Arduino Nano cable	Equipment	4	70	280
Arduino female to female wire	Equipment	100	5	500
female to female	Equipment	2	120	240
male to male wires	Equipment	2	120	240
digital-multimeter/UNI-UTI 16	Equipment	1	4000	4000
htc-2-temperature-and-humidity-meter	Equipment	1	1000	1000
12V 22000 RPM DC motor	Equipment	3	1500	4500
Electric (Induction) Motors	Equipment	1	10000	10000
Acs712 current sensor interfacing with Arduino for ac and dc current m	Equipment	5	340	1700
AC voltage sensor	Equipment	5	400	2000
Smart Electricity Energy meter using Arduino and ESP8266	Equipment	4	500	2000
Arduino UN0	Equipment	2	700	1400
Resisters and Capacitors	Equipment	2	500	1000
Printing and Stationary	Miscellaneous	100	20	2000
Blynk(Buying Energy)	Equipment	1	4000	4000