Master's Degree of Science in Mechatronics Engineering Philadelphia University Faculty of Engineering
Water Level monitoring and Control for Domestic Applications
Prepared by: Mahmoud abu-nemreh Supervised By: Prof. Kasim Al-Aubidy
Index
1.
Introduction and Overview
2.
Objectives
3.
Theoretical Framework
4.
Software Design
5.
Hardware Design
6.
Conclusion
7.
Thanks
Introduction and Overview
Introduction
Because of concerns with the challenges like limited accessibility to measurement sites and the potential for human error in water level measurements, water Level monitoring and control system were the best solutions used to improve accurate and real-time information about the water level in a tank and automate the process of refilling or preventing overflow.
Introduction
The project aims to develop a water level monitoring and control system specifically designed for domestic applications. The system utilizes an Arduino Uno microcontroller, an ultrasonic sensor, an LCD screen, and a pump equipped with a relay.
General block diagram of the Water Level monitoring and Control for Domestic Applications
OBJECTIVES
The aims of the project
1. Accurate water level measurement using an ultrasonic sensor
2. Real-time monitoring of water level displayed on an LCD screen.
3. Threshold-based control to activate the pump when water level is below a lower threshold and deactivate it when the water level reaches an upper threshold.
5. Energy efficiency through optimized pump activation based on water level, resulting in cost savings and environmental benefits
4. Automation and convenience by eliminating the need for manual intervention
Study Objectives
2. To build a hardware model for a Water Level monitoring and Control for Domestic Applications.
1. To build model and simulate the Water Level monitoring and Control for Domestic Applications.
3. To provide the results and findings of the analysis.
4. Discuss results and their impact.
THEORETICAL FRAMEWORK
General Operation
The ultrasonic sensor measures the water tank level and provides depth information, which can be used to establish minimum and maximum levels. The ultrasonic sensor also sends data to the Arduino. The relay that is linked to the Arduino is used to control the pump.
Work steps
+ info
Software design
Flowchart of Arduino program
Project Software model
Hardware design
Conclusion
questions?
Thank you!
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Transcript
Master's Degree of Science in Mechatronics Engineering Philadelphia University Faculty of Engineering
Water Level monitoring and Control for Domestic Applications
Prepared by: Mahmoud abu-nemreh Supervised By: Prof. Kasim Al-Aubidy
Index
1.
Introduction and Overview
2.
Objectives
3.
Theoretical Framework
4.
Software Design
5.
Hardware Design
6.
Conclusion
7.
Thanks
Introduction and Overview
Introduction
Because of concerns with the challenges like limited accessibility to measurement sites and the potential for human error in water level measurements, water Level monitoring and control system were the best solutions used to improve accurate and real-time information about the water level in a tank and automate the process of refilling or preventing overflow.
Introduction
The project aims to develop a water level monitoring and control system specifically designed for domestic applications. The system utilizes an Arduino Uno microcontroller, an ultrasonic sensor, an LCD screen, and a pump equipped with a relay.
General block diagram of the Water Level monitoring and Control for Domestic Applications
OBJECTIVES
The aims of the project
1. Accurate water level measurement using an ultrasonic sensor
2. Real-time monitoring of water level displayed on an LCD screen.
3. Threshold-based control to activate the pump when water level is below a lower threshold and deactivate it when the water level reaches an upper threshold.
5. Energy efficiency through optimized pump activation based on water level, resulting in cost savings and environmental benefits
4. Automation and convenience by eliminating the need for manual intervention
Study Objectives
2. To build a hardware model for a Water Level monitoring and Control for Domestic Applications.
1. To build model and simulate the Water Level monitoring and Control for Domestic Applications.
3. To provide the results and findings of the analysis.
4. Discuss results and their impact.
THEORETICAL FRAMEWORK
General Operation
The ultrasonic sensor measures the water tank level and provides depth information, which can be used to establish minimum and maximum levels. The ultrasonic sensor also sends data to the Arduino. The relay that is linked to the Arduino is used to control the pump.
Work steps
+ info
Software design
Flowchart of Arduino program
Project Software model
Hardware design
Conclusion
questions?
Thank you!