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Book Categories |
| Historic aspects of fuel cell development in Ukraine | 1 | |
| Solid oxide fuel cells in Russia | 11 | |
| Intermediate-temperature SOFC electrolytes | 19 | |
| Scandia-Zirconia electrolytes and electrodes for SOFCs | 35 | |
| Exploration of combustion CVD method for YSZ thin film electrolyte of solid oxide fuel cells | 49 | |
| Development of DMFC for portable application | 59 | |
| Synthesis of porous and dense elements of SOFC by electron beam physical vapor deposition (EBPVD) | 73 | |
| Fullerene structures suitable for fuel cells electrodes | 81 | |
| Metallic materials in solid oxide fuel cells | 97 | |
| SOFC worldwide - technology development status and early applications | 107 | |
| Recent results of stack development at Forschungszentrum Julich | 123 | |
| Configuration of twin walls in LSGMO | 135 | |
| Structural stability and ion transport in LaSr[subscript 2]Fe[subscript 1-y]Cr[subscript y]O[subscript 8+[delta]] | 149 | |
| Electric power generation based on coal slurry electrolysis with subsequent usage of produced hydrogen in fuel cells | 157 | |
| Results of organic fuel conversion at fuel cell test installation | 163 | |
| CIP-based fabrication of SOFC ceramic components from oxide nanocrystalline powder materials | 175 | |
| The state of fuel cells and its development in Ukraine | 181 | |
| Synthesis of cermet Sr(Ti,Fe)O[subscript 3-[delta]]-PtRu by combustion | 187 | |
| Hydrogen storage in metal hydride under action of sunlight | 193 | |
| Hydrides of transition metals as hydrogen accumulators for power engineering | 199 | |
| Mathematical modeling and experimental study of proton exchange membrane fuel cells | 205 | |
| Experimental and theoretical study of metal-hydride reactors | 211 | |
| Cellulose-precursor synthesis of electrocatalytically active components of SOFCs and mixed-conducting membrane reactors | 223 | |
| Glass-ceramic sealants for SOFC-based systems | 231 | |
| Effect of "uphill" diffusion in solid electrolytes ZrO[subscript 2]+8mol.%Sc[subscript 2]O[subscript 3] and ZrO[subscript 2]+8mol.% Y[subscript 2]O[subscript 3] | 239 | |
| Nanoparticle synthesis of LSM SOFC cathode materials | 245 | |
| SOFC powder synthesis by the organic steric entrapment method | 381 | |
| Nanoscaled oxide thin films for energy conversion | 395 |
| Price | Condition | Delivery | Seller | Action |
| $251.21 | Digital |
| WonderClub |
Marc Ferm
reviewed Fuel Cell Technologies on July 25, 2014
Fuel Cell Technologies
In my opinion this book stands on a very different ground than the other ones. First of all it's shorter and does not comprise a full length course on the subject, it's merely an introduction. But besides that structural difference my opinion about it differs quite substantially from the other two.
For the other books in the series my TL;DR opinion was very interesting for who already knows physics, possibly confusing for a beginner. On the other hand I think the first chapters of this book offer the best introduction to quantum mechanics I have ever read. I think the usual way to teach the subject is many orders of magnitude worse than this. He focuses on the essential measurable quantities of quantum mechanics, amplitudes, and gives them a clear and coherent interpretation and rules of calculation. After his introduction I think the mathematics of Hilbert spaces would be really intuitive and natural, way more than if you started with wavefunctions as is usual.
The only drawback is really the context of these lectures. This isn't a full course so he couldn't show all the structure and went straight into applications as soon as he could. Going back to the "interesting for who already knows about this, overly complicated for someone who doesn't know anything".
I think lectures of quantum mechanics should really come to this book for the first few lectures. The very first chapter explaining the double-slit experiment (of which there is a recording online) and the chapter about spin one with the Ster-Gerlach experiment are absolute genius.
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Add Fuel Cell Technologies, Fuel Cells have become a potentially highly efficient sustainable source of energy and electricity for an ever-demanding power hungry world. The two main types of fuel cells ripe for commercialisation are the high temperature solid oxide fuel cell (SOFC) , Fuel Cell Technologies to the inventory that you are selling on WonderClubX
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Add Fuel Cell Technologies, Fuel Cells have become a potentially highly efficient sustainable source of energy and electricity for an ever-demanding power hungry world. The two main types of fuel cells ripe for commercialisation are the high temperature solid oxide fuel cell (SOFC) , Fuel Cell Technologies to your collection on WonderClub |
