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Books on the topic 'Direct propane fuel cells'

Author: Grafiati
Published: 4 June 2021
Last updated: 13 February 2022

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1

Corti, Horacio R., and Ernesto R. Gonzalez, eds. Direct Alcohol Fuel Cells. Dordrecht: Springer Netherlands, 2014. http://dx.doi.org/10.1007/978-94-007-7708-8.

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2

V, Baglio, and Antonucci V, eds. Direct methanol fuel cells. Hauppauge, N.Y: Nova Science Publishers, 2009.

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3

Liang, Zhen-Xing, and Tim S. Zhao, eds. Catalysts for Alcohol-Fuelled Direct Oxidation Fuel Cells. Cambridge: Royal Society of Chemistry, 2012. http://dx.doi.org/10.1039/9781849734783.

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4

R, Narayanan S., Gottesfeld Shimshon, Zawodzinski Thomas A, Electrochemical Society. Energy Technology Division., Electrochemical Society. Physical Electrochemistry Division., Electrochemical Society Battery Division, and Electrochemical Society Meeting, eds. Direct methanol fuel cells: Proceedings of the international symposium. Pennington, NJ: Electrochemical Society, 2001.

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5

Liu, Hansan, and Jiujun Zhang. Electrocatalysis of direct methanol fuel cells: From fundamentals to applications. Weinheim: Wiley-VCH, 2009.

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6

Workshop on Direct Methanol-Air Fuel Cells (1990 Georgetown University). Proceedings of the Workshop on Direct Methanol-Air Fuel Cells. Pennington, NJ: Electrochemical Society, 1992.

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7

Shizhong, Chen, ed. Zhi zi jiao huan mo ran liao dian chi de shui guan li yan jiu. Beijing: Ke xue chu ban she, 2011.

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8

Direct Liquid Fuel Cells. Elsevier, 2021. http://dx.doi.org/10.1016/c2018-0-04168-7.

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9

Liu, Hansan, and Jiujun Zhang, eds. Electrocatalysis of Direct Methanol Fuel Cells. Wiley, 2009. http://dx.doi.org/10.1002/9783527627707.

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10

Nanomaterials for Direct Alcohol Fuel Cells. Elsevier, 2021. http://dx.doi.org/10.1016/c2019-0-03784-3.

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11

Direct Alcohol Fuel Cells for Portable Applications. Elsevier, 2018. http://dx.doi.org/10.1016/c2016-0-00632-0.

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12

Hernandez, Rose, and Caryl Dunning. Direct Methanol Fuel Cells: Applications, Performance and Technology. Nova Science Publishers, Incorporated, 2017.

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13

Li, Lei, Tim S. Zhao, Holly Reeve, Kylie Vincent, and Mario Simoes. Catalysts for Alcohol-Fuelled Direct Oxidation Fuel Cells. Royal Society of Chemistry, The, 2012.

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14

Polymer Electrolyte Membrane And Direct Methanol Fuel Cell Technology. Woodhead Publishing, 2012.

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15

Electrocatalysis of Direct Methanol Fuel Cells: From Fundamentals to Applications. Wiley-VCH Verlag GmbH, 2009.

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16

Corti, Horacio R., and Ernesto R. Gonzalez. Direct Alcohol Fuel Cells: Materials, Performance, Durability and Applications. Springer, 2013.

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17

Corti, Horacio R., and Ernesto R. Gonzalez. Direct Alcohol Fuel Cells: Materials, Performance, Durability and Applications. Springer, 2016.

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18

Sen, Fatih. Nanomaterials for Direct Alcohol Fuel Cells: Characterization, Design and Electrocatalysis. Elsevier, 2021.

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19

Direct Alcohol Fuel Cells for Portable Applications: Fundamentals, Engineering and Advances. Academic Press, 2018.

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20

Abderezzak, Bilal. Introduction to Transfer Phenomena in PEM Fuel Cell. Elsevier, 2018.

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21

Alcohol Fuel Cells, Direct Methanol Fuel Cells, Alcohol Oxidation, Nano-Catalysts, Carbon-Based Nanomaterials, Polymer Electrolyte Membranes, Nanomaterials for Oxygen Reduction, Polymer-based Nanocomposites, Electrocatalysts, Ethanol Electro-Oxidation, Proton Electrolyte Membranes, Methanol Oxidation, Polymer-based Nanocomposites, Trimetallic Nanoparticles. Materials Research Forum LLC, 2019. http://dx.doi.org/10.21741/9781644900192.

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22

Wolf, E. L. Solar Thermal Energy. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198769804.003.0009.

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Abstract:
The Sun’s spectrum on Earth is modified by the atmosphere, and is harvested either by generating heat for direct use or for running heat engines, or by quantum absorption in solar cells, to be discussed later. Focusing of sunlight requires tracking of the Sun and is defeated on cloudy days. Heat engines have efficiency limits similar to the Carnot cycle limit. The steam turbine follows the Rankine cycle and is well developed in technology, optimally using a re-heat cycle of higher efficiency. Having learned quite a bit about how the Sun’s energy is created, and how that process might be reproduced on Earth, we turn now to methods for harvesting the energy from the Sun as a sustainable replacement for fossil fuel energy.
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23

Magee, Patrick, and Mark Tooley. Intraoperative monitoring. Edited by Jonathan G. Hardman. Oxford University Press, 2017. http://dx.doi.org/10.1093/med/9780199642045.003.0043.

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Abstract:
Chapter 25 introduced some basic generic principles applicable to many measurement and monitoring techniques. Chapter 43 introduces those principles not covered in Chapter 25 and discusses in detail the clinical applications and limitations of the many monitoring techniques available to the modern clinical anaesthetist. It starts with non-invasive blood pressure measurement, including clinical and automated techniques. This is followed by techniques of direct blood pressure measurement, noting that transducers and calibration have been discussed in Chapter 25. This is followed by electrocardiography. There then follows a section on the different methods of measuring cardiac output, including the pulmonary artery catheter, the application of ultrasound in echocardiography, pulse contour analysis (LiDCO™ and PiCCO™), and transthoracic electrical impedance. Pulse oximetry is then discussed in some detail. Depth of anaesthesia monitoring is then described, starting with the electroencephalogram and its application in BIS™ monitors, the use of evoked potentials, and entropy. There then follow sections on gas pressure measurement in cylinders and in breathing systems, followed by gas volume and flow measurement, including the rotameter, spirometry, and the pneumotachograph, and the measurement of lung dead space and functional residual capacity using body plethysmography and dilution techniques. The final section is on respiratory gas analysis, starting with light refractometry as the standard against which other techniques are compared, infrared spectroscopy, mass spectrometry, and Raman spectroscopy (the principles of these techniques having been introduced in Chapter 25), piezoelectric and paramagnetic analysers, polarography and fuel cells, and blood gas analysis.
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