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Topic: Recent Advances of Hydrogen Storage and Energy For the literature review, you need to do the following things: 1) Choose 10 or more papers that focuses on the advances of hydrogen storage mate
Topic: Recent Advances of Hydrogen Storage and Energy For the literature review, you need to do the following things:
1) Choose 10 or more papers that focuses on the advances of hydrogen storage materials. Videos can be used for resources as well. To access journals, look through the Google Scholars, and Google “open access journals, e.tc. for quantum chemistry”
2) Write a 5 to 10-page literature review on the history and the theory/ concepts of hydrogen energy and the different types of hydrogen storage and applications of hydrogen.
3) At the end of the paper, be sure to include your perspective on the information that you have gathered for hydrogen storage and hydrogen energy overall.
4) The paper is due on the last day of class at 12 midnight.
5) Proposed organization of literature review • Introduction • Hydrogen Energy • Hydrogen Storage • Applications of Hydrogen Applications • Conclusion/ Your Perspective of Hydrogen Energy overall • References Cited (using ACS format).
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************ ********** ** *** ***** ********* This nation ** *** ****** ******* ** *** design ** ******** energy ********** ** ******** energy becomes **** ********** it *** revitalize *** Japanese ******** *** ******* additional ********** ***** now ***** ** ** *** world ** ***** ** ************* *** hydrogen powered ******** and ******** enterprises *** **** **** competitive in ************ ******** ******* ********** ** **** geothermal ***** Japanese ********** **** ********* * *********** ******* ** *** utilization ** ******** *** strategy for ********** ******** ****** ***** ** to ******* it **** ***** less ********* ****** ******* ********** *** ******** ** ******** ***** ******** costsHydrogen and Coal *** Zero Emissions:Combining costly *** *************** ********* ******** generation *** ********** cheap but *************** ******** **** ** **** complimentary *** slope ** * **** ** ******** Heavy *********** initiative ** ******* a "CO2-free ******** ************* centered ** generating hydrogen **** ************** ** ********* ****** ******** Dicks ***** ** ***** ************* has ******** * ******* in ***** ***** **** **** ********* ****** ***** in *** ********* of ******** **** be ********* into * ******* of ************ comprising ******** and ** ******* ***** * ******** ****** ** gasification *** CO2 **** ** absorbed at *** ****** *** ********* ** *********** **** ********** ** *** same **** *** ******** might ** delivered ** ***** ** ******* tankers to ******* the ********* **** for ********* *********** *** ******** energy ********** completion ** * ******* **** ******** ***** two practical ************ ** *** *** ******** ****** ***** have *********** ************* ********** *** the ******** ***** *** **** there ****** ******** ***** & ** ***** ************* **** a ******* would ****** Japanese businesses ** *** **** ************** **** ****** *** ** another ****** comparable to bidirectional ****** sequestration **** ***** **** benefit ******** ****** by ************* ** an ************** that enables ******* demand for ******** ************ ***** plants ** **** **** ********** * ******** ******** ******* ***** **** ** * **** or ******* ****** ************** Europe * *** application ** ********* ** ******* ********** ****** to **** is ******* ********* ** ***** ***** ****** is ******** to *********** ***** into *** ***** ***** ******** *** ****** ********* ** *** ********** **** ******** ** subsequently injected **** *** ******* *** ************ ****** and consumed ** gas This ******** **** *** need the ************ ** power cables and **** ****** ****** ********* ** **** turbines *** other ********* that could ** to junk ***** ***** ****** ******* **** approach hydrogen *** be ******** ** accommodate the ************ of other energy sources ***** **** using their advantages *** **** the most ********** ****** ** ******** energy ** its potential to profoundly ***** ****** ****** ****** ******** *** ******** of consumption ***** & ****** ******************* *** **************** ** * **** **** may ** used ** ************* ************** ** energy ******* *** ****** ** ***** ***** the **** ********* **** *********** ******* ********* *** ******** potential advantages of ******** ****** Hydrogen ** ******** ** a ******* fuel ***** ** ******* ** co2 from *** ********** or ***** greenhouse gas ********* **** **** ****** ** ***** water) ************ **** **************** ******* **** ** the ****** ***** of ******** *** to *** ********** Since ***** advantages *** ********* when ****** fuels *** ******** ** ******* *** gas ******** ********** ***** ********* ********* is *** ideal *********** for ******* *** ******* ******** *** *** *********** ***** & ****** *********** since hydrogen **** ***** *** very ****** ********* they ******* significant ********* *** reducing total ****** use ********* ****** *** ** the ****** **** ** ********** ********** ** ******* electric ***** ********* is ****** * proportion **** the usage ** **** ***** may significantly ******** ************ ************ houses *** ***** structures **** ********** fuel cells ***** ***** ********** ** **** ***** ******* *** ********** ******* ****** *********** ****** savings ***** ***** ****** ************ ******** ****** *** ******* ********* *********** ** *** **** ** * *********** ********** ** another natural ******** **** cell-equipped ****** and *********** ***** ** ******** ** *********** ***** ******* ********* protecting ***** *** ****** environments simultaneously *********** Weber & Barbier ******** ****** ****** ** **** ***** ******** *** ** created in ******* **** *** **** are *** limited to *** energy ********* ** may **** be ******** ** transfer energy ***** ******* **** it *** **** compensate for ***** deficiencies while ************ ***** ********* **** ******** **** other energy ******* In some ******** **** ******* to ******* the energy ******** ** * ***** *** **** *** **** promise *********** Weber ***** ******* *************** Hydrogen ** ** ****** transmitter which means that ** may be ******** ** ***** ********** ****** **** ** ** *** ******** *** then **** *** ****** energy accessible **** *** main ****** ** ****** ** *** ********* ** adequate ** **** the population's ***** As * ****** ******** ** especially **** suited for renewable ****** ******* ******** storage materials ****** are ********* ************** **** *********** **** **** ** appropriate binding affinity *** hydrogen ******** the ****** *** ********* hydrogen ** ************ *** ********* ***** to ******* ************************** F ****** Fuel ***** **** present *** futureElectrochimica ********* ******* doi: ********************************* * ******* T & ****** * ****** ************* ************* *** ********** ****** hydrogen ******* ** ****** nanotubesInternational Journal ** Hydrogen *********** 1390-1397 doi: 101016/jijhydene201310163Barthelemy H ***** * & ******* F ****** Hydrogen ******** Recent improvements and ********** ************************* Journal ** ******** ************ ********* doi: ******************************** * Demirci U ***** ***** * ****** ****** Dehydrogenation-(Re)Hydrogenation **** **************** ********** An OverviewEnergy Technology3(2) ******* doi: 101002/ente201402136Choudhuri * (2000) Combustion *************** ** ********************** hybrid ****************** Journal ** ******** *********** ******* **** ********************************** * ******** * ****** * ***** Uchida H ****** Building a ******** ************** in JapanCompendium ** ******** ****** ******* **** ************************************ D ***** Hirose * ****** Recent ********** ** ******** storage technologies *** fuel cell ********************* ******* ** ******** ************ ********* **** ********************************* * Alekseev A ***** Wasserscheid * ****** ******** ******* ************ for ****** ****** ************* Review ** ******** *** Biomolecular Engineering8(1) ******* **** *************************************************** * (1998) An overview ** ********** **** ** hydrogenInternational ******* Of ******** *********** ******* **** 101016/s0360-3199(97)00112-2Scanlon * **** * Balbuena * ***** G Duan X & Underwood * et ** ****** ******** ******* ***** ** PhysisorptionThe ******* ** ******** ********* ******** ********* doi: ********************* E McLellan * ***** * ***** ** Costa * (2006) ******** from coal: ********** *** utilisation technologiesInternational ******* ** **** Geology65(3-4) ******* doi: ************************* * (2008) A ************ ******** of ******** energy ********** ****************************** ******* **** *********************************** * ****** ******* ********* *** Future ****** ** Energy StorageProceedings Of The IEEE100(Special ********** Issue) 1518-1534 **** *************************