1 / 17

The Pet Waterer

The Pet Waterer . FluiDivas Lindsey Ehinger, Laura Mar, Stephanie Wedekind, Kimberly Wilson CEE 454 Design Project. Objectives. Produce a constant head Maintain a constant flow Allow the operator to change the flow rate to achieve the desired rate of flow

hall
Télécharger la présentation

The Pet Waterer

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. The Pet Waterer FluiDivas Lindsey Ehinger, Laura Mar, Stephanie Wedekind, Kimberly Wilson CEE 454 Design Project

  2. Objectives • Produce a constant head • Maintain a constant flow • Allow the operator to change the flow rate to achieve the desired rate of flow • Function independent of the application • Materials should be compatible with chemicals like chlorine and alum, etc. • Simple to use and maintain

  3. Our Inspiration: Pet Self-Waterer • Holds 3L of water • Airtight seal • Maintains constant supply of water in the dish for pets when the owner is away! • When the water in the dish rises to the level of the feedhole, flow stops.

  4. Design Goals • Constant flow into and out of the waterer to make refilling the tank easy • Connect the tank to an elevated raw water supply • Allow the water in the dish to feed vertically downward into the desired POU system • Maintain a vacuum inside the tank

  5. Our Design • Two additional holes drilled into the tank. One hole controlled by a valve that will allow water from the elevated storage tank to refill the water tank. The air hole will let air out of the tank when the water tank is being refilled. • A third hole drilled into the bottom of the dish. Small flexible tubing equipped with an IV drip roller feeds out of this hole. • The IV drip roller provides constant and adjustable flow into a POU system of interest. • Plugs inserted at the feed hole and the air hole to maintain vacuum inside the water tank during refill

  6. Dimensions

  7. Operation • Filling tank up • Place plug in feed hole • Open air plug and valve • Close valve and air plug when water level in tank is a couple centimeters from the top • Remove plug from feed hole • Wash hands when finished

  8. Maintenance • Particles will clog the IV and reduce the flow • Unclogging the IV valve—every 1-2 hours • Open and close the IV valve until water is flowing out of the tubing • Re-open the IV valve to the correctly marked place and adjust to a flow rate of 13 mL/min

  9. Maintenance • Cleaning the system • Make sure valve is closed • Detach pet waterer system from storage tank • Remove pet tank and wash with clean water to remove sediment • Wash trough with clean water • Reassemble system • Wash hands with clean water

  10. Experimental Procedures • Goal: • Determine if there was a constant flow rate • Effect and time of clogging • Clean and dirty water trials • Measured flow rate over several hours • Flow was measure using a watch and a graduated cylinder • Accurate enough for application • Used in practice • Simple

  11. Clean Water Trial • Ran 2 trials. Results similar. • In longer second trial (130 minutes) flow rate fluctuated between 0.18 to 0.16 ml/sec • Decrease not significant

  12. Dirty Water Results • Cayuga Lake sediment and tap water (~ 100 NTU) • Trial 1: 23 hours, start with clean system • Trial 2: 2 hours, no cleaning • Significant Decrease over Time

  13. Design Benefits • Control flow by maintaining a constant head • Easy to use • Little maintenance: cleaning requires moving roller to clear the tube of any obstructions • Materials: common, inexpensive, durable, one time cost. • Prototype: $32.44 • Flow is adjustable • Increase Demand • Varying Influent Characteristics • Flexibility of the system • Alum/Chlorine Feed

  14. Design Flaws • Need for refilling every few hours • IV roller has no quantifiable settings • Changes in the roller setting and the location of the roller on the tube both affect the flow rate • How will the user measure and maintain a constant flow rate? • Suggest marked container and stop watch

  15. Recommended Modifications • Build a similar device using the same principles but different materials • a large plastic bucket attached to a paint tray with an IV • Use a large pet waterer as originally designed • Neither device requires refilling

  16. Further Research • Use filtration screen or cloth to prevent clogs • More data needed to determine rate and method of clogging • Determine how often IV roller should be adjusted to maintain constant flow • Determine how often system requires cleaning

  17. Conclusion • With a few slight modifications, our design is a simple, effective device that provides a constant flow rate for a variety of applications

More Related