A Comparison of Methods of Generating Electricity

There are several means to generate electricity that provides alternative measures to power the normal items people use every day. The method of using pedal power for electricity poses an interesting concept that has swept the country to explore new powerful ways to generate power (Pedal Power, 2008). In addition, the device that is infused with a human to assist the mechanics to generate different levels of volts – that is allowed charges a system by either minimum or maximum means.

The efficiency and variable speed of the output are features that are dependent on the goal set to generating a particularly amount of energy; in a preconceived amount of time. Renewable energy has become the growing public options to save considerably in their needed consumption of the obtainment of energy. The different renewable energy approaches to incorporating renewable energy ranges from nuclear, hydroelectricity/micro hydro, and solar energy (Martin, Wolfgang, and Wiese, 2007).

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There is about 17% of global final energy consumption that actually come from renewable sources and recent studies concluded the percentage can increase in the next 10-20 years. In addition, the main focus on hydro generating energy is becoming the largest source due to the main producing element used is from water. In most households, the use of water use to heat homes is coming more a fact each day that is not only cost effective but efficient throughout the home. Furthermore, the homeowners are experimenting other ways to use such methods on appliances in their homes (Woodside, 2006).

While nuclear energy usually coordinated by corporation and distributed accordingly, the homeowner chooses mostly the path towards hydro, solar, and recently pedal powering. There are a growing need to expand on the availability of source alternative renewable energy from the home and the office with newer opportunities for consumption of the energy grid. In regards to micro hydro-energy-system there are some home appliances that can include a refrigerator, washer machine, and lights that typically pull up to 500 watts of output of power (Woodside, 2006).

The goal to using hydro energy to power appliances is to limit the usage of power. With that goal is to be focused to being managed energy that is efficient home appliances by the usages of hydro energy to reduce the overall demand a couple of 100watts lowered than previously stated. Each appliance requirements are different from a refrigerator to a toaster; however, the final results of the amount of watts will be less than expected. The power supply of a micro hydro system in a few ways, one in particular, is in a battery a based system that generates a considerably level of power.

As similar noted with regard to pedal power, the micro hydro system the preferred usage of batteries meets the demand of supply enough energy to the desired source. In addition, the remaining of not used source of the renewable energy can still is stored in the battery for future use. The chosen inverter in order to convert a DC battery power into AC output that ranges over 120 volt of energy. This method is often used to power majority of today’s home appliances for effective operation.

Furthermore, the choice of using a battery based system provides the added notion that it eliminates the connection to a house using a utility power source. Moreover, the available approaches to renewable energies to most home power system are battery-based. The measure to using the battery based assists in the overall costs analysis due to the unused energy left remaining is stored for future used. In reference to solar energy, the homeowner uses photovoltaic to utilize the power of the sun to heat their home rather than the modern technologies.

The measure for sun generation electrical system that can produce enough energy to power their house computer, TV, lights, as well as a small refrigerator. The usage of solar energy has been good and efficient in conducting the energy of powering the home environment. The solar used of photovoltaic is much less of a cost for consumption then most expected when the choice was first rolled out for an option. The conversion of solar energy to power home appliances has the same opportunities with hydro energy (Martin, Wolfgang, and Wiese, 2007).

The solar energy grid can power such appliances, for instance, the A/C and the chimney in most homes. The thermal materials related to solar energy generations uses the PVs to conserve the daily solar rays to be used later on for consumption in the home appliances. In doing so, the amount of energy that is generated by the earlier obtainment can be renewed and used effectively thru the chosen appliance. In addition, the technology of solar power energy can be used for lighting the home as though the same means from modern means. This in turn relates to the availability of heating the home during the winter months.

The cost savings are greater for the home owner due to the measurability in place to use what is needed effectively (Martin, Wolfgang, and Wiese, 2007). Most homeowners use a half-half split of renewable energy to either first consider going 100% or not entirely. Therefore, the usage of solar to heat and cool the environment can offset the total costs involved. In regards to using the thermal solar energy generated systems, the mission is to conserve the actual ventilation of the interior so that the air inside is heated accordingly (Miliss, 2004).

Most of today’s homeowners utilize the solar thermal mass to accurately store the necessary energy to heat the home. The ventilation mechanism is the key to making sure the travel of the source do not escape from the primary intended direction of the solar energy. Therefore, the incorporated thermal mass can store enough solar energy effectively. So, with either the chimney or heating and cooling of a home or an office the solar generating system can work with a solid system in place. It is noted that wind or solar power can as well assist in power production when batteries are used as well.

As in regards to the hydro energy generating mechanism the power of water to provide additional consumption to powering home appliances (Woodside, 2006). In any case the DC loads of the usage of home appliances or lights designed can function by pulling start from the battery source. There are many DC versions depending on the various appliances that one chooses to utilize so the differences do vary. These differences are also dependent on the costs available and the ability to locate the quality.

The quality is important to the cost that can pose a later problem for reaching that efficiency of generating enough power for the chosen appliance. The inverter-powered then the battery is very much dependent on the inverter – to produce enough output voltage to generate energy into the component. Furthermore, the noted voltages that range up to 110 can at times sustain the generated power for considerably length of times. The pedal power options for generating energy ranges from a variation of volts of energy up to 12v and up to 110v depending on the means of assistance.

The normal pedal power experimented for production from running an inverter is about 100v to 110v. The time for a pedal power production of energy to generate, for instance, a battery; the volts=12, amps=8. 5, and the watts=36 which is strenuous can result in about pedaling the bicycle for about up to 5 hours continuously (Pedal Power, 2008). The pursuit and continued focus to obtain this amount of watts is important, in order to guarantee that the device planned to carry out the form of energy.

The pedal power method time to generate the energy ranges differently depending on the mission to empower particular equipment. Therefore, the observation of ranges in the formation of producing such energy has a validity of a statically perspective of a variation relating to the two approaches presented. The efficiency and variable related to pedal power can be concluded due to the need to infuse the production of energy when the fact is no fuel is being used to conduct the energy.

In addition, the offset is not affected by the time of day or even the weather compared to modern means of electricity distribution (Pedal Power, 2008). So, with the measure of efficiency and variable that encourages an opportunity to human involvement for emergency generator power, the most inspiring concept is the ability to jump start household devices when there is a blackout. The human participation is one of the primary means to the development of empowering the equipment for added physical empowerment, although, a strenuous workout nonetheless.

The human participation powering the pedal powered for devices ranges from compressors, battery charges, power meters; jumper cables to 12 volt DC outlets that can jump start these items successfully (Pedal Power, 2008). Therefore, the items to jump start the devices and the actual costs ranges depending on the desired amounts of voltage with the output watts to be distributed. In the portable sector of pedal power the addition of using a small 110 volt AC inverter that averages to about 100-140 watts, in which, it does allow for portability.

The over cost associated with the generation of energy for these means of devices is around $50-$100 that has a current variation due to the chosen device selected. The stored energy conception by using real goods does sell as an equivalent device that promotes exceptional quality and features – that in fact affects costs that can assist in maintaining the level of desired attributes (Miliss, 2004).. In another focus, relating to solar power plant generation of energy, it must be noted that it can distribute the highest level of energy.

For instance, a solar dish sterling engine produces around 25kW of electricity with 30% conversion efficiency (Denholm, 2007). This solar technology outline the highest amount of energy production that has increases up to 20% annually since documenting the solar measurements. Furthermore, the gross conversion efficiencies of the solar dishes or other means of solar occupation is a fraction of over 400 mega watts that results determined by net generating capacity over a standard consumption.

The gross conversion efficiency equals to about 2. 6% if the spread of over 4,000 acres of distribution when the mega watts is just about over 400 when dealing with radiation. Additionally, the concern for efficiency relating to costs varies and is not necessarily related to cost and must be clearly defined (Miliss, 2004). The observation of both the element of efficiency, the construction cost, and maintenance cost must be reviewed to determine if the overall cost analysis is where the benchmark should be or not.

The solar power plant options vary in the mechanics outlook but are similar to the pedal power operation due to not using any required fuel for the generation of energy. In doing so, the costs have a limited increase and becomes more reasonable than most expected. The key to note is with the pedal power option and other measures mention the platform of operation costs and maintenance cost should be taken into account to actual costs totals. However, the end result is the chosen variations to using practical options for generating safe, efficiently, and economically energy production.