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Difference between revisions of "WetLand water meter"

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(Design)
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File:Flow_Gauge.jpg| The flow meter
 
File:Flow_Gauge.jpg| The flow meter
 
File:Ibctote.jpg| The IBC Tote  
 
File:Ibctote.jpg| The IBC Tote  
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File:LCDscreen.jpg| The LCD screen
 
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=== Arduino ===
 
=== Arduino ===
  
The entire system runs off of an Arduino programmable microchip.   
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The entire system runs off of an Arduino Uno programmable microchip. The Arduino is programmed with a specific code located here: http://www.appropedia.org/Team_X_Water_Meter_Arduino_CodeDue to the limited amount of input pins on the Arduino a sensor shield is incorporated to expand the amount of sensors that can be utilized.
  
  

Revision as of 21:00, 8 December 2013

ENGR215 Project Page in Progress
This page is a project page in progress by students in Engr215. Please refrain from making edits unless you are a member of the project team, but feel free to make comments using the discussion tab. Check back for the finished version on December 15th, 2013.

Sample photo caption.
ABSTRACT: The Water Meter is a water quality meter designed by the Humboldt State University Engineering 215 - Intro to Design class, and implemented on the WetLand mobile habitat.


Water Meter

Project Background

WetLand is a mobile self-sustainable island-based ecosystem started in summer of 2014 on a barge located on the Delaware River in Philadelphia, PA. The goal of WetLand is to offer a workspace for artists; a stage for forums on our shared future; and to combine art, life on the water, architecture, and environmental technologies.

OBJECTIVE

The water meter is designed to monitor the volume, flow, and quality of water which is collected and stored on the WetLand habitat. Water on the WetLands habitat is collected through desalination of water from the Delaware river and through rainwater catchment. This water is filtered for use onboard, but requires monitoring to insure its quality for use.

Criteria

Criteria Constraint
Budget less than 400.00
Reliability Must be reliable.
Safe Must pose no threat to the occupants of the WetLands barge.
Aesthetics Must look concise and simple.
Durability Must with stand weather and day to day use by the passengers.
Maintainability Easily maintained and accessed
Reproducibility Has the ability to be reproduced by using the design plans
Ease of Use Able to be used by the everyday citizen
Power Consumption Consumes as little power as possible

Design

The water meter, designed by Team X, tests the water quality for the WetLands project. The design is composed of five sensors that read the volume, pH, salt water content via conductivity, temperature (Fahrenheit), and the flow of the water into the water tank of the drinking water on the barge. All of the values the sensors take are read by an Arduino programmable microchip and displayed on a liquid crystal display (LCD) screen. While displaying these values it will be saving those values to an SD card that is incorporated into the Arduino microchip.


Flow Meter

The flow meter is to be placed at the inlet of the water take so the amount of water the barge is taking on is known in liters/hour. Another flow meter will be placed near the outlet and used to trigger the monitoring system to test quality of water while being the water is being pumped through the pipes.

IBC Tote

The IBC tote (intermediate bulk container) is where the water for the WetLands Habitat is stored. The tank can hold a total of 275 gallons.

Volume Sensor

The volume sensor is an ultrasonic ping sensor. The sensor emits ultrasonic sound waves that bounces of the water in the tank and reflects back to the sensor. From the time it takes to be emitted and the time it takes to return to the sensor depends on how far away the water is from the sensor. using a conversion factor that varies depending on the distance the volume is calculated and displayed to the LCD screen. All measurements will be displayed in gallons.

pH Sensor

The pH sensor is an Atlas pH sensor that tests for acidity or basicity of the water in the tank. This sensor MUST be constantly stored in water or else it will break and need to be replaced. Also this sensor needs to be calibrated approximately once a week because it is constantly being stored in the testing solution and will need to be cleaned; however, if it is not being constantly used it can be stored and may last up to a year with out being calibrated.

Saline Sensor

The saline sensor is derived from a small volume/conductivity sensor. The probe will read a conductivity value and through a conversion find the parts per million of the salt concentration on the barge.

Temperature

The temperature sensor is used to display the temperature of the water when it is being stored. This will be displayed in Fahrenheit.

Arduino

The entire system runs off of an Arduino Uno programmable microchip. The Arduino is programmed with a specific code located here: http://www.appropedia.org/Team_X_Water_Meter_Arduino_Code. Due to the limited amount of input pins on the Arduino a sensor shield is incorporated to expand the amount of sensors that can be utilized.


LCD Screen

The LCD screen is where all of the data that is read and calculated by the Arduino is displayed. This is designed to be easy to read and comprehend. the reader should right away know if that water they have is potable or if it needs to further be purified.

Data Shield

The Data Storage Shield uses an SD or micro SD memory card to track and store data trends that are being measured by each sensor.

Costs

You may describe your costs here.

Material Cost ($)
Arduino Uno Microchip 25.00
LCD Screen 11.00
Sensor Shield 10.00
Salinity Sensor 9.00
Temperature Sensor 6.50
pH Sensor 112.00
Flow Rate Sensor(2) 24.00
Data Storage Shield 8.50
Sonar Sensor 5.50
Wiring 12.00
Plumbing 47.00
Total 249.50

File:Piechart.png

Instructions

The instructions on how to build the water meter can be found here:

The code for the Arduino can be found here: http://www.appropedia.org/Team_X_Water_Meter_Arduino_Code

Conclusions

The water meter designed by Team X for the WetLand Project has fulfilled the criteria as laid out above

References


Contact details

Add your contact information.