This document describes the design of an automatic water dispenser to reduce water wastage and improve efficiency. The system uses an ultrasonic sensor and Arduino UNO microcontroller to detect objects and trigger a solenoid valve to dispense water when an object is present. Water flow is controlled to prevent excessive spillage before the valve closes once the desired amount is dispensed. The design aims to develop a more advanced water dispenser with potential applications in homes and factories.
Smart and automated control of water level, temperature and purification (1)Upamanyu Ray
Water is the most important of Nature’s gift to mankind, especially now with endangerment of freshwater. Without water, there is no life. So, water management should reduce its wastage. As a first step, this controller will automatically switch ON and OFF the domestic water pump system depending on the water tank and underground sump levels (to prevent dry run). Along with that, the system purifies and heats the water (to a soothing lukewarm). In this paperwork, we made an effort to design a costeffective and complete system using Arduino, Ultrasonic transducers, Zeolite Solution, Temperature and Humidity transducers, for water level indication, temperature control and water purification. The Arduino controls the storage level of water in a tank, its heating and the amount of zeolite mixed through SPST relays, without any wastage of water or power.
Keywords: Water, Management, Arduino, Ultrasonic, Relay, Temperature, Zeolite, Purification
Title: Automatic Water Irrigation System: Efficient and Sustainable Solutions for Smart Water Management
This presentation explores the advancements and benefits of automatic water irrigation systems in achieving efficient and sustainable water management. With the increasing need to conserve water resources and optimize agricultural practices, automatic water irrigation systems offer innovative solutions for smart water management in various fields, including agriculture, landscaping, and gardening.
Water lavel detector and motor controlling by android mobile appsJiaul Hasan Jony
This is hardware and software base computer interfacing project..We can save those amounts of drinking water for better future by our device.The total amount of water available on Earth has been estimated at 1.4 billion cubic kilometers, enough to cover the planet with a layer of about 3 km. About 95% of the Earth's water is in the oceans, which is unfit for human consumption. About 4% is locked in the polar ice caps, and the rest 1% constitutes all fresh water found in rivers, streams and lakes which are suitable for our consumption. A study estimated that a person in India consumes an average of 135 liters per day. This consumption would rise by 40% by the year 2025. This signifies the need to preserve our fresh water resources.
Detailed description of the background for developing Smart Water Valve, as well as details on the types of water leak problems that can be solved. Also, details on the unique patented technology and how it works
Smart and automated control of water level, temperature and purification (1)Upamanyu Ray
Water is the most important of Nature’s gift to mankind, especially now with endangerment of freshwater. Without water, there is no life. So, water management should reduce its wastage. As a first step, this controller will automatically switch ON and OFF the domestic water pump system depending on the water tank and underground sump levels (to prevent dry run). Along with that, the system purifies and heats the water (to a soothing lukewarm). In this paperwork, we made an effort to design a costeffective and complete system using Arduino, Ultrasonic transducers, Zeolite Solution, Temperature and Humidity transducers, for water level indication, temperature control and water purification. The Arduino controls the storage level of water in a tank, its heating and the amount of zeolite mixed through SPST relays, without any wastage of water or power.
Keywords: Water, Management, Arduino, Ultrasonic, Relay, Temperature, Zeolite, Purification
Title: Automatic Water Irrigation System: Efficient and Sustainable Solutions for Smart Water Management
This presentation explores the advancements and benefits of automatic water irrigation systems in achieving efficient and sustainable water management. With the increasing need to conserve water resources and optimize agricultural practices, automatic water irrigation systems offer innovative solutions for smart water management in various fields, including agriculture, landscaping, and gardening.
Water lavel detector and motor controlling by android mobile appsJiaul Hasan Jony
This is hardware and software base computer interfacing project..We can save those amounts of drinking water for better future by our device.The total amount of water available on Earth has been estimated at 1.4 billion cubic kilometers, enough to cover the planet with a layer of about 3 km. About 95% of the Earth's water is in the oceans, which is unfit for human consumption. About 4% is locked in the polar ice caps, and the rest 1% constitutes all fresh water found in rivers, streams and lakes which are suitable for our consumption. A study estimated that a person in India consumes an average of 135 liters per day. This consumption would rise by 40% by the year 2025. This signifies the need to preserve our fresh water resources.
Detailed description of the background for developing Smart Water Valve, as well as details on the types of water leak problems that can be solved. Also, details on the unique patented technology and how it works
Home Automation Water Tank Level Control Upamanyu Ray
Using Arduino Mega (only to simplify the connections, otherwise, Uno or Nano would have sufficed) tank level control to prevent overflow and absence of water in the tank, and also to make sure that the pump does not dry run in the sump.
oT in Hydroponics. IoT refers to the Internet of things towards connecting people, things by means of the Internet and store the data in the cloud for analysis. The emergence of IoT has allowed farmers to automate the hydroponic culture.
The hydroponics system is a new and popular method of growing plants without soil using an inert medium.
Automatic tank level control using arduino mega convertedKunal Adhikari
Water is the most important Nature’s gift to mankind. Without water there is no life, especially now that fresh water is endangered. So, water management should reduce its wastage. As a first step, this controller will automatically switch ON and OFF the domestic water pump system depending on the water tank and underground sump levels (to prevent dry run of pump). In this paperwork an effort is made to design a cost-effective circuit and complete system using Arduino and Ultrasonic transducers, to be used in water level indication. It will control the storage level of water in a tank through SPST relay to provide water thoroughly, without any wastage of water or power.
Arduino based intelligent greenhouse ProjectAmit Saini
Final Year Project : - Arduino based ‘Intelligent Green House'
A complete greenhouse monitoring and controlling system ,that is automated, updating each and every detail on internet that can be accessed from anywhere. For sensors, it uses a light sensor, temperature sensor, moisture sensor, humidity sensor and all the updates will be available on internet through Ethernet shield through which the user can take care of the garden even when not at home.
Plant Watering System Automation
User
User
Plant watering system file uploading long description
ChatGPT
The plant watering system is an innovative solution designed to automate and optimize the process of watering plants. It incorporates a combination of sensors, actuators, and a control system to ensure that plants receive the appropriate amount of water at the right time, promoting healthy growth and conserving water resources.
This system offers convenience and efficiency by eliminating the need for manual watering, especially in situations where plants are located in hard-to-reach areas or when the user is away from home for an extended period. It is particularly useful for individuals who may have a large number of plants or struggle to maintain a consistent watering schedule.
The plant watering system operates based on a set of pre-defined parameters and user preferences. These parameters can be customized to suit the specific needs of different plant species or environmental conditions. The system can be programmed to monitor factors such as soil moisture levels, temperature, and ambient light to determine the optimal watering schedule for each plant.
The core components of the plant watering system include:
Sensors: These sensors are responsible for collecting data about the plant's environment. Soil moisture sensors measure the moisture content in the soil, ensuring that plants receive water when needed. Temperature and light sensors provide additional information for adjusting watering schedules based on environmental conditions.
Control System: The control system processes the data collected by the sensors and makes decisions regarding watering. It compares the current environmental data with the desired parameters and triggers the watering process when necessary. The control system can be programmed to adjust watering frequency, duration, and intensity.
Actuators: The actuators are responsible for delivering water to the plants. They can be connected to irrigation systems or water reservoirs. The control system activates the actuators based on the watering schedule, ensuring that the plants receive the appropriate amount of water.
User Interface: The plant watering system typically includes a user interface that allows users to interact with the system. This interface can be in the form of a mobile application or a web-based platform. Users can monitor the system's status, adjust settings, and receive notifications about watering activities.
In addition to automating the watering process, some advanced plant watering systems may offer additional features, such as:
Integration with weather forecast data: The system can access weather forecast information to make more informed watering decisions. It can adjust the watering schedule based on predicted rainfall or changes in temperature.
Connectivity and remote control: Users can control and monitor the system remotely through a smartphone or computer. This feature enables
Automatic Irrigation System is a prototype for a system of irrigation or watering automatically based on the Arduino microcontroller integrated with proximity sensors (Ultrasonic Sensor), the DC motor and the pump using LED indicator lights.
Made by :
Andika Jamal Nurganda 151611004
Putri Sintia Sari 151611021
Rizki Verdian 151611025
Refrigeration and Air Conditioning Engineering
Polytechnic State of Bandung
2016
White wonder, Work developed by Eva TschoppMansi Shah
White Wonder by Eva Tschopp
A tale about our culture around the use of fertilizers and pesticides visiting small farms around Ahmedabad in Matar and Shilaj.
Home Automation Water Tank Level Control Upamanyu Ray
Using Arduino Mega (only to simplify the connections, otherwise, Uno or Nano would have sufficed) tank level control to prevent overflow and absence of water in the tank, and also to make sure that the pump does not dry run in the sump.
oT in Hydroponics. IoT refers to the Internet of things towards connecting people, things by means of the Internet and store the data in the cloud for analysis. The emergence of IoT has allowed farmers to automate the hydroponic culture.
The hydroponics system is a new and popular method of growing plants without soil using an inert medium.
Automatic tank level control using arduino mega convertedKunal Adhikari
Water is the most important Nature’s gift to mankind. Without water there is no life, especially now that fresh water is endangered. So, water management should reduce its wastage. As a first step, this controller will automatically switch ON and OFF the domestic water pump system depending on the water tank and underground sump levels (to prevent dry run of pump). In this paperwork an effort is made to design a cost-effective circuit and complete system using Arduino and Ultrasonic transducers, to be used in water level indication. It will control the storage level of water in a tank through SPST relay to provide water thoroughly, without any wastage of water or power.
Arduino based intelligent greenhouse ProjectAmit Saini
Final Year Project : - Arduino based ‘Intelligent Green House'
A complete greenhouse monitoring and controlling system ,that is automated, updating each and every detail on internet that can be accessed from anywhere. For sensors, it uses a light sensor, temperature sensor, moisture sensor, humidity sensor and all the updates will be available on internet through Ethernet shield through which the user can take care of the garden even when not at home.
Plant Watering System Automation
User
User
Plant watering system file uploading long description
ChatGPT
The plant watering system is an innovative solution designed to automate and optimize the process of watering plants. It incorporates a combination of sensors, actuators, and a control system to ensure that plants receive the appropriate amount of water at the right time, promoting healthy growth and conserving water resources.
This system offers convenience and efficiency by eliminating the need for manual watering, especially in situations where plants are located in hard-to-reach areas or when the user is away from home for an extended period. It is particularly useful for individuals who may have a large number of plants or struggle to maintain a consistent watering schedule.
The plant watering system operates based on a set of pre-defined parameters and user preferences. These parameters can be customized to suit the specific needs of different plant species or environmental conditions. The system can be programmed to monitor factors such as soil moisture levels, temperature, and ambient light to determine the optimal watering schedule for each plant.
The core components of the plant watering system include:
Sensors: These sensors are responsible for collecting data about the plant's environment. Soil moisture sensors measure the moisture content in the soil, ensuring that plants receive water when needed. Temperature and light sensors provide additional information for adjusting watering schedules based on environmental conditions.
Control System: The control system processes the data collected by the sensors and makes decisions regarding watering. It compares the current environmental data with the desired parameters and triggers the watering process when necessary. The control system can be programmed to adjust watering frequency, duration, and intensity.
Actuators: The actuators are responsible for delivering water to the plants. They can be connected to irrigation systems or water reservoirs. The control system activates the actuators based on the watering schedule, ensuring that the plants receive the appropriate amount of water.
User Interface: The plant watering system typically includes a user interface that allows users to interact with the system. This interface can be in the form of a mobile application or a web-based platform. Users can monitor the system's status, adjust settings, and receive notifications about watering activities.
In addition to automating the watering process, some advanced plant watering systems may offer additional features, such as:
Integration with weather forecast data: The system can access weather forecast information to make more informed watering decisions. It can adjust the watering schedule based on predicted rainfall or changes in temperature.
Connectivity and remote control: Users can control and monitor the system remotely through a smartphone or computer. This feature enables
Automatic Irrigation System is a prototype for a system of irrigation or watering automatically based on the Arduino microcontroller integrated with proximity sensors (Ultrasonic Sensor), the DC motor and the pump using LED indicator lights.
Made by :
Andika Jamal Nurganda 151611004
Putri Sintia Sari 151611021
Rizki Verdian 151611025
Refrigeration and Air Conditioning Engineering
Polytechnic State of Bandung
2016
White wonder, Work developed by Eva TschoppMansi Shah
White Wonder by Eva Tschopp
A tale about our culture around the use of fertilizers and pesticides visiting small farms around Ahmedabad in Matar and Shilaj.
Dive into the innovative world of smart garages with our insightful presentation, "Exploring the Future of Smart Garages." This comprehensive guide covers the latest advancements in garage technology, including automated systems, smart security features, energy efficiency solutions, and seamless integration with smart home ecosystems. Learn how these technologies are transforming traditional garages into high-tech, efficient spaces that enhance convenience, safety, and sustainability.
Ideal for homeowners, tech enthusiasts, and industry professionals, this presentation provides valuable insights into the trends, benefits, and future developments in smart garage technology. Stay ahead of the curve with our expert analysis and practical tips on implementing smart garage solutions.
Top 5 Indian Style Modular Kitchen DesignsFinzo Kitchens
Get the perfect modular kitchen in Gurgaon at Finzo! We offer high-quality, custom-designed kitchens at the best prices. Wardrobes and home & office furniture are also available. Free consultation! Best Quality Luxury Modular kitchen in Gurgaon available at best price. All types of Modular Kitchens are available U Shaped Modular kitchens, L Shaped Modular Kitchen, G Shaped Modular Kitchens, Inline Modular Kitchens and Italian Modular Kitchen.
Transforming Brand Perception and Boosting Profitabilityaaryangarg12
In today's digital era, the dynamics of brand perception, consumer behavior, and profitability have been profoundly reshaped by the synergy of branding, social media, and website design. This research paper investigates the transformative power of these elements in influencing how individuals perceive brands and products and how this transformation can be harnessed to drive sales and profitability for businesses.
Through an exploration of brand psychology and consumer behavior, this study sheds light on the intricate ways in which effective branding strategies, strategic social media engagement, and user-centric website design contribute to altering consumers' perceptions. We delve into the principles that underlie successful brand transformations, examining how visual identity, messaging, and storytelling can captivate and resonate with target audiences.
Methodologically, this research employs a comprehensive approach, combining qualitative and quantitative analyses. Real-world case studies illustrate the impact of branding, social media campaigns, and website redesigns on consumer perception, sales figures, and profitability. We assess the various metrics, including brand awareness, customer engagement, conversion rates, and revenue growth, to measure the effectiveness of these strategies.
The results underscore the pivotal role of cohesive branding, social media influence, and website usability in shaping positive brand perceptions, influencing consumer decisions, and ultimately bolstering sales and profitability. This paper provides actionable insights and strategic recommendations for businesses seeking to leverage branding, social media, and website design as potent tools to enhance their market position and financial success.
Hello everyone! I am thrilled to present my latest portfolio on LinkedIn, marking the culmination of my architectural journey thus far. Over the span of five years, I've been fortunate to acquire a wealth of knowledge under the guidance of esteemed professors and industry mentors. From rigorous academic pursuits to practical engagements, each experience has contributed to my growth and refinement as an architecture student. This portfolio not only showcases my projects but also underscores my attention to detail and to innovative architecture as a profession.
You could be a professional graphic designer and still make mistakes. There is always the possibility of human error. On the other hand if you’re not a designer, the chances of making some common graphic design mistakes are even higher. Because you don’t know what you don’t know. That’s where this blog comes in. To make your job easier and help you create better designs, we have put together a list of common graphic design mistakes that you need to avoid.
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1.To reduce water wastage
2.To increase the efficiency of the work
3.To improve time-consuming when do
the mass production
INTRODUCTION
• Provide to every house that need to reduce
excessive water usage
• Some factories that main on producing water
product daily
2
Problem Statement
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ResearchObjective
• The main objective of this project are to improvise the present water dispenser, so it could be the more efficient
• The project is to achieve the completion of designing in implementing of automatic water dispenser
• To study the characteristic and importance of pump motor and censor.
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Scope of Work
• Developed by using Arduino UNO
• Solenoid valve ½ 12V
• HCSR04 Ultrasonic sensor
• IFR540 MOSFET
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ARDUINOUNO
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1. As a microcontroller
2. Has 14 digital I/O pins (six capable of
PWM output)
3. Has 6 Analog I/O pins
4. Can be programmed with the Arduino.
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HCSR04Ultrasonic
Sensor
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1. Device that can generate or sense
ultrasonic
2. Divisible into three broad categories
Transmitter, Receiver, Transceivers.
3. Transmitter can translate electrical signal
into ultrasound.
4. Receive can convert ultrasound into
electrical signal
5. Transceivers can send ultrasound as well
as receive it .
6. Used as detection.
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LED-RED
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1. Will be connected to pin13 and toggle it
along with the MOSFET so that we can
use to ensure if the MOSFET is it turned
on or off state.
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DISCUSSION
• The Automatic water dispenser can be replaces some old Manual Water Dispenser. This is because the Automatic
water dispenser is more easier then the old Manual Water Dispenser.
• The Automatic water dispenser detect a motion of an object when being put under the dispenser.
• When sense a presence of certain distance of the object then Automatic water dispenser will trigger to switch on.
• Solenoid valve is open, the water will flow out into the object.
• The water will flow out certain limit distance that has been code in the Arduino UNO avoid the excessive spill of
water.
• The sensor detect that water has been filled, then the solenoid valve will closed.
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Conclusion
• Improve the clean and healthy daily life nowdays, because we need to adapt to our new daily lifestyle after the
world virus pandemic
• Create a better technology for our future
• Avoid wastage of water
• Can be applied to a larger concept to ease a certain factory based on water package production
• The student will be able to understand on how to use Proteus app and learn about the c programming language.
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