Difference between revisions of "Cycle Charger"
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Metal Brackets for attaching the dynamo and battery to the bicycle <br/> | Metal Brackets for attaching the dynamo and battery to the bicycle <br/> | ||
| − | + | = <big>'''Design and Solutions'''</big> = | |
| + | == <big>'''Procedure'''</big> == | ||
| − | + | = <big>'''Final Results'''</big> = | |
| + | == <big>'''Outcome'''</big> == | ||
| + | |||
| + | == <big>'''Potential Improvements'''</big> == | ||
== <big>'''Relevant Tutorials'''</big>== | == <big>'''Relevant Tutorials'''</big>== | ||
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*[https://classes.engineering.wustl.edu/ese205/core/index.php?title=Full_Bridge_Rectifier_Assembly#Assembly|Full Bridge Rectifier Assembly] | *[https://classes.engineering.wustl.edu/ese205/core/index.php?title=Full_Bridge_Rectifier_Assembly#Assembly|Full Bridge Rectifier Assembly] | ||
| − | + | = <big>'''Weekly Log Link'''</big> = | |
[[Cycle_Charger_Weekly_Log|Link to Weekly Log]] | [[Cycle_Charger_Weekly_Log|Link to Weekly Log]] | ||
Revision as of 18:24, 1 May 2018
Contents
Project Proposal
Overview
Energy is all around us, but on a near daily basis we find ourselves low on charge by the end of the day. The objective of Cycle Charger is to harness the rotational energy of a bicycle ride and store the energy in a battery for a late day boost. Cycle Charger aims to be completely out of the way, requiring no user input beyond riding and plugging in.
Team Members
- Kyle Cummings
- Nathan Genstein
- Kaylynn Williamson
- Sam Chai (TA)
Objectives
Generate:
- Through the use of a "bottle dynamo" we will use the rotation of the wheel of the bike to rotate magnets in the presence of a copper coil to generate electricity.
Convert:
- Using a "rectifier" we will convert the AC current created from the generator into DC current. Then a capacitor will be used to generate smooth current that a phone can use.
Store:
- We will then feed the generated current into a battery that is fastened to the bike where it will be stored. There will also be a detachable portable charger that will be charged from the main battery.
Challenges
- Learning how to properly assemble a bottle dynamo.
- Sizing the components of the bottle dynamo properly to avoid friction/ rapid unscheduled disassembly.
- Fastening the components to the bicycle in such a way that the wires won't come loose with the vibration of the bike.
- Wiring the battery in such a way that the fluctuation in the energy generation does not damage the components.
- Figuring out how to not make the generator overheat
- Prevent the alternator from inadvertently becoming a motor from the battery.
Gantt Chart
Link to Gantt Chart Spreadsheet
- Note This may not be updated. For an up to date version click the link.
Budget
Copper Wire - given
Iron Core - given
Permanent Magnets - given
Insulated Wire - given
Full Wave Bridge Rectifer x 5 - $6.99
50V, 6800uF Capacitor x 5 - $14.57
Portable Charger - $9.99
PVC Pipe for the case holding dynamo
Metal Brackets for attaching the dynamo and battery to the bicycle
