Friday, November 8, 2019
Fuel Cells in Transportation â⬠Engineering Essay
Fuel Cells in Transportation ââ¬â Engineering Essay Free Online Research Papers Fuel Cells in Transportation Engineering Essay Is it possible to produce a limitless battery? Since the industrial revolution, a lot of people have looked for an answer to this question, but unfortunately, they have not found it yet. Fuel cell systems can be an opportunity to realize this dream. These systems which are the most significant batteries of the last years are the electrochemical energy conversion devices that convert hydrogen and oxygen into water, producing electricity and heat in this process. Since around the beginning of the 19th century, a great number of researches have been done about these popular battery systems. Thanks to this, practical fuel cell systems are available for a wide diversity of applications today. Transportation is one of these application areas in which fuel cells can be used. Despite the fact that fuel cells have high initial cost, they provide more benefits in transportation than other fuel systems, because of their environmental advantages, engineering simplicity, and economy. First of all, zero or low emissions, lack of noise pollution, and no waste of natural resources are the environmental advantages of fuel cell technology that make it attractive. A lot of research done by different scientists supports this fact clearly. For instance, as mentioned in ââ¬Å"Fuel Cell Basics: Benefitsâ⬠, the Energy production systems which are depending on fuel burning are more harmful to Nature than fuel cells (n.d., p. 2), because burning fossil fuels such as gasoline or diesel adds greenhouse gases to the earthââ¬â¢s atmosphere. CO2 is one of these harmful gases which cause greenhouse effect. But, fortunately, the amount of CO2 could be decreased by wide usage of fuel systems, according to source generated fuel (ââ¬Å"Fuel Cell Busesâ⬠, n.d., p. 1). Furthermore, harmful gases production of fuel cells can be reduced to a minimum relying on the hydrogen production method (ââ¬Å"Fuel Cell Busesâ⬠, n.d., p. 1). Also, it should certainly be said that , fuel cells prevent noise pollution. ââ¬Å"Fuel Cell Benefitsâ⬠, emphasizes that despite the fact that outer disturbances become effective when driving at high velocities, fuel cell vehicles produce less sound pollution compared to other conventional cars (n.d., p. 2). In addition to these advantageous features of fuel cell systems, fuel cells can be an opportunity to stop or reduce wasting of natural energy resources. The dependence on fossil fuels such as gasoline can be decreased by usage of Fuel Cells. This assertion is supported in the article ââ¬Å"Hydrogen Future Drives Into Big Appleâ⬠on page 2 by claiming that using hydrogen as fuel, dramatically decreases the need of petroleum based fuels due to its renewable and limitless source opportunities (n.d). On the other hand, Rose claims that, safe and renewable energy can be obtained from fuel cells due to their effective, modular and wide source opportunity properties (2003, p. 12). Secondly, appropriate features for engines and engineering applications can be obtained with fuel cells. They exhibit high thermodynamic efficiency, simple operation variety, and high co-generation capability. ââ¬Å"Benefits of Fuel Cells in Transportationâ⬠points out that fuel cell vehicles, not limited by Carnot Cycle, are expected to achieve energy efficiencies of 40 to 45 percent and very possibly higher (n.d., p. 1). Also, effective responses can be obtained from fuel cells due to uncomplicated reactions (ââ¬Å"Fuel Cell Basics: Benefitsâ⬠, n.d., p. 2). Furthermore, Rose highlights that, lack of productivity can be decreased to level of 13% by using fuel cells in co-generation mode (2003, p. 20). In addition, Fuel cells, having hydrogen as a source fuel, have many special features for engineering applications. For example, according to ââ¬Å"Types of Fuel Cellsâ⬠, due to having high power density, and low working temperatures, fuel cells can easily give responses to various power demands (n.d., p. 1). Another superior facility of hydrogen is its high diffusivity. Hugely reactive hydrogenââ¬â¢s low density gives it a high diffusivity (ââ¬Å"Hydrogen Safetyâ⬠, n.d., p. 1). What is more, fuel cells can be used to provide propulsion or auxiliary power for many transportation applications. ââ¬Å"Fuel Cells In Useâ⬠asserts that, Programs of production of fuel cell cars, due to be exhibited from 2003 to 2006, have been planned by nearly all big auto factories (2004, p. 1). In the same article it is also told that submarines, on the other hand, have been one of these areas in which fuel cell development started early on. Also it is added that, we can apply fuel cell systems for aerospace works (ââ¬Å"Fuel Cells In Useâ⬠, 2004, p. 1). Due to many reasons, it is easier to design a fuel cell vehicle than conventional vehicles. In other words, a strong system, more reliable features and motionless parts can be obtained easier. For example, as it stated in ââ¬Å"Fuel Cell Technologyâ⬠, there are ââ¬Å"no transmission and distribution losses because of dispersed generationâ⬠in fuel cell vehicles (n.d., p. 2). In addition, fuel cells are 99.9999 % reliable way of converting power. (ââ¬Å"Fuel Cell Basics: Benefitsâ⬠, n.d., p. 3). Seperately, ââ¬Å"according to Stroash, ââ¬Ëconventional gasoline tanks are thin and flimsy compared with the robust hydrogen fuel tanks being developedââ¬â¢Ã¢â¬ (ââ¬Å"Alternetive Fuel Tanksâ⬠, n.d., p. 1). Finally, in addition to environmental and engineering advantages fuel cells have lots of economical benefits. These advantages of fuel cells provide them to be related with various applications, especially with buses. But, it seems that the fuel cells are convenient to use in urban transit buses but certainly in time they are going to spread among vans and cars, railways and marine applications. Hà ¶rmandinger supports this claim by stating that using fuel cells are very attractive in transportation because of some characteristic properties of buses (1995, p. 38). Also as it mentioned above, due to air pollution, energy efficiency, security and global climate, cars and small vans are another part of fuel cells applications in transportation. When fuel cells are used in these types of vehicles they offer to their owner some economical benefits. For instance, fuel cells decrease the overall price of power generation thanks to having a static structure and less upkeep necessity (â⠬Å"Fuel Cell Technologyâ⬠, n.d., p. 1). And, to consist of completely motionless parts means fuel cells have low upkeep (ââ¬Å"Benefits of Fuel Cells in Transportationâ⬠, n.d., p. 2). In addition to two modes of transportation, urban buses and cars, fuel cells have more application areas such as railways and marine applications. Hà ¶rmandinger claims that fuel cell powered trains are more useful in areas wihout electric rail network (1995, p. 72). By this feature of fuel cell, they reduce the overall cost of urban transportation, reducing the usage of electricity. On the other hand, marine aplications are expensive due to some reasons. For example, as Hà ¶rmandinger highlighted, submarines serve mainly for military, where costs are less important than that of civil purposes (1995, p. 74). However, using fuel cell provides reducing the cost of the marine applications. In conclusion, as a result of being useful for our environment, being appropriate for engines and engineering applications and having various economical advantages, compared to other fuel systems, a lot of benefits can be obtained with Fuel Cell Systems in transportation despite their initial cost problems. It is obvious that after the problem of not being affordable is solved by scientists, Fuel Cell Systems will become the most popular battery system of the world. Today, all big companies producing battery systems for different applications are working on Fuel Cell Systems being a good long-term investment for them. In addition to these works, the parliaments of governments should encourage manufacturers to produce Fuel Cells and pass useful laws about using Fuel Cell Systems in different application areas. It should not be forgotten that Fuel Cell Systems are the best solution to the problem of energy production that might be the most important problem of the world. References Alternative fuel tanks. (n.d.). Retrieved November 23, 2005, from llnl.gov/ str/News900.html Benefits of fuel cells in transportation. (n.d.). Retrieved November 23, 2005, from fuelcells.org/basics/benefits_transp.html Fuel cell basics: Benefits. (n.d.). Retrieved November 23, 2005, from fuelcells.org/basics/benefits.html Fuel cell buses. (n.d.). Retrieved November 23, 2005, from navc.org/benefits.html Fuel cells in use. (n.d.). Retrieved November 23, 2005, from U.S. Department of Energy Web site: eere.energy.gov/hydrogenandfuelcells/ education/fc_use.html Fuel cell technology. (n.d.). Retrieved November 23, 2005, from fuelcellmarkets.com/article_flat.fcm?articleid=219subsite=720 Fuel cell vehicles: Benefits. (n.d.). Retrieved November 23, 2005, from fueleconomy.gov/feg/fcv_benefits.shtml Hydrogen future drives into the big apple. (n.d.). Retrieved November 23, 2005, from gm.com/company/gmability/adv_tech/100_news/shell_012705.html Hydrogen safety. (n.d.). Retrieved November 23, 2005, from gexcon.com/ index.php?src=research/hydrogen/hydrogen.html Hà ¶rmandinger, G. (1995). Fuel cells in transportation. Retrieved November 23, 2005, from iccept.ic.ac.uk/pdfs/hoermandinger.pdf Rose, R. (2003). The Path Forward. Retrieved November 23, 2005, from http://193.145.15.40/queesmadrimasd/Pricit/PlanNet/comun/includes/download.asp?IdDoc=1394 Types of fuel cells. (n.d.). Retrieved November 23, 2005, from fuelcells.org/ basics/types.html Where will fuel cells be used? (n.d.). Retrieved November 23, 2005, from http://fuelcellworld.org/article_flat.fcm?articleid=74subsite=1172 Research Papers on Fuel Cells in Transportation - Engineering EssayGenetic EngineeringBionic Assembly System: A New Concept of SelfOpen Architechture a white paperRiordan Manufacturing Production PlanPETSTEL analysis of IndiaIncorporating Risk and Uncertainty Factor in CapitalComparison: Letter from Birmingham and CritoThe Project Managment Office SystemTwilight of the UAWRelationship between Media Coverage and Social and
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