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Green Campus Bicycle Generator

153 bytes added, 06:04, 19 February 2008
made links, cleanup
==Background==
There are many ways to create and use [[energy]]. Energy stems from two basic forms; [[Potential energy]], energy that is not yet active and [[Kinetic energy]], energy which comes from the motion of things. This includes energy from our own bodies to do work. Instead of using our own potential energy, our modern day society has switch to using energy harvested from other sources such as [[fossil fuels]]. For example instead of using our own energy to walk up a flight of stairs, most Americans chose to use the elevator. However, not all situations have as easily found solutions. Most appliances only run off of [[electricity]]. One solution to our lack of utilizing human energy includes a stationary [[bicycle]] powered by a human body that produces energy.
==Description of Opportunity==
[[Green Campus ]] would like to have a [[bike ]] powered generator. The human-pedal powered generator will be used to run a [[laptop computer ]] for their various demonstrations. The bike would work as a demo to inform the amount of [[wattage ]] used to light different types of [[light bulbs]]; [[incandescentlighting|incandescent]], [[CFL]], and [[LCD]]. The pedals on the bike would work as mechanical energy and light the bulbs. This will also help illistrate illustrate the amount of energy needed to power each type of bulb. It can also inform the public about alternatives to energy sources and perhaps exercising methods as well. It would also help individuals grasp the concept of creating Energy or the capacity of doing work.
In order to design a pedal powered generator fit for Green Campus’ purpose, the amount of energy needed to power the bulb which needs the most amount of energy (incandescent) must be known and the right size generator and battery to run it. The power created through the bike which will run the generator is DC power, however LCD's only run off of AC power. This means a [[transformer ]] will be needed to turn [[DC electricity in to ]] into [[AC electricity]]. The bike will be used for demonstrations, thus it should be easy to transport and take the stress of several different sized humans using it. This means the device should be light weight thus an entire bike is not needed, yet stable, which places emphasis on a sturdy frame in which the bike will be build built on.
==Criteria==
==Pedal Power basics==
[[Pedal power ]] is basically using human energy on a bicycle to do work for us. This can range from the most common use of s bike which is transportation, to creating an electrical current for a laptop. There are many ways to apply this technology to several uses. Although the technology of using pulley and gears have been used for thousands or years and the use of bikes as transportation have been used for hundreds of years , it was not until Dick Ott created his “Pedal Pusher” where he attempted to harness the “power of pedal” in the mid-twentieth century (McCullagh 1977). The criteria used to create the Pedal Pusher is are still important today; a simplicity, easy operation and maintenance, and low cost.
===Types of Pedal Power===
===Manual Pedal Power===
Like the typical bike, the manual pedal power works solely using gears and belts or chains in order for human exertion to become energy for work. Stationary manual pedal power devices are usually modified for a specific task. Two basic methods to creating a stationary manual pedal power device is are to modify a regular bike or to add pedals to any other devise device that is already hand-driven (Congdon,1977). This means the manual devise device can be used for a number of tasks from [[pumping water ]] (Example; http://www.usaid.gov/lk/documents/tos/USAEP_solarpedalflo.pdf), grinding wheat or corn, shelling nuts, churning butter, plowing a field, to attaching it to house hold appliances such as a [[blender ]] or a [[drill]]. The manual device is more efficient than the electrical one because all of the power created by the pedals is directly used to do its specific task; there is no energy loss by converting the mechanical energy in to into different types of electricity. Unfortunately, most of these devices are very specific and can only be used for the intended reason.
===Electrical Pedal Power===
The electrical pedal power stationary bike is used to create an electrical current for electrical devices, this opens up the availability of different appliances to run on pedal power. Here is a very brief introduction of how electricity is created taken from ''Appropriate Technology; Tools, Choices, and Implications '' (Hazeltine 1999). First and foremost, energy is the capacity to do work. In essence work is the transfer of energy in one form to the next. Different types of energy include potential, kinetic, mechanical, electrical and chemical energy. When we convert energy from one form to the next, there is always energy loss. The loss of energy in the conversion process calculated through its efficiency. Efficiency= energy out/energy in.
Thus in the case of the electrical pedal power device, mechanical energy is converted in to into electrical energy. The efficiency of this electrical device is not as high as the manual device but it is more adaptable to several situations, usually not just one specific task. The efficiency of the device is further lowered if the [[Direct Current ]] (DC) created must be converted into [[Alternating Current ]] (AC) in order to run an appliance. This raises the initial cost of the device because added parts such as diodes and inverters are needed to convert the currents (Russavage, 4).
===Pedal Power concerns===
Bike: the bike should be stationary.
[[Flywheel]]: a heavy rotating disk used to store momentum.
[[Battery]]: It is important to match the voltage of the appliance you are trying to power.
[[Diode]]: allows energy to be transferred from the generator to the battery
Fuses[[Fuse]]s: needed to protect your wiring should your system short circuit.
[[Generator]]: The generator actually transforms human energy into mechanical energy. Distributor: C and
[[Inverter]]: converts DC currents into volts ac current for powering common household appliances.
[[Voltmeter ]] and [[Ammeter]]: gives the state of the battery charge by giving you readings of the volts [[volt]]s and amps [[amp]]s being produced.
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