SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3011769529> ?p ?o ?g. }

Showing items 1 to 100 of ±172 with 100 items per page.

W3011769529 endingPage "11437" @default.
W3011769529 startingPage "11424" @default.
W3011769529 abstract "Abstract Thermochemical water splitting cycles are considered an attractive option to produce H2, a substance with many important applications for society such as ammonia production because they do not require fossil fuels. In contrast, they obtain H2 decomposing water by means of cyclic chemical reactions. There are a wide variety of thermochemical ones under research, including the relatively new Na–O–H (sodium–oxygen–hydrogen) cycle proposed in 2012 by a research group. Despite introducing a new potential thermochemical cycle, those previous researchers do not investigate the thermal performance of it. Such task can be done through an exergy analysis. So, the aim of the paper is to evaluate the exergy performance of the Na–O–H cycle and its chemical reactions. This goal is accomplished by implementing in EES (Engineering Equation Solver) software exergy efficiency ( e 1 ) and exergy destroyed (ED_1) balances for the cycle and their reactions considering specific conditions of pressure (p) and temperature (T). This approach allows understanding how these two variables influence the system performance, which could compromise its actual implementation and economic feasibility if it has low thermal efficiency. According to the results: reaction 1 (hydrogen production step) has mean e 1 = 96 % and ED_1 = 8.5 kJ under 100–300 °C at 0–1 bar; reaction 2 (metal separation step) has ED_2 = 280 kJ and e 2 = 56 % at 450 °C considering vacuum condition; hydrolysis step (reaction 3) has average e 3 = 87 % and ED_3 = 18 kJ at 25–200 °C under 0–1 bar. Then, the Na–O–H cycle has overall e = 82 % and ED = 306 kJ to produce 1 mol of H2. These values of e and ED are theoretical and maximized ones. In practical situations, such amounts probably will reduce in function of unavoidable irreversibility present in actual systems such as pressure drop and heat loss that were neglected in the work to facilitate its development. Finally, it concludes the Na–O–H cycle has relatively high exergy efficiency, making it a potential hydrogen production method. However, its practical implementation in the future must overcome some of its drawbacks, by means of more research, like the low thermal efficiency of reaction 2 when compared to reactions 1 and 3 beyond the low pressure needed to perform such step." @default.
W3011769529 created "2020-03-23" @default.
W3011769529 creator A5007066691 @default.
W3011769529 creator A5014551125 @default.
W3011769529 creator A5047751655 @default.
W3011769529 date "2020-04-01" @default.
W3011769529 modified "2023-09-27" @default.
W3011769529 title "Exergy analysis for the Na-O-H (sodium-oxygen-hydrogen) thermochemical water splitting cycle" @default.
W3011769529 cites W1982680445 @default.
W3011769529 cites W1996028483 @default.
W3011769529 cites W1997192811 @default.
W3011769529 cites W1998799772 @default.
W3011769529 cites W1998914260 @default.
W3011769529 cites W2001176097 @default.
W3011769529 cites W2002481394 @default.
W3011769529 cites W2005836615 @default.
W3011769529 cites W2008505111 @default.
W3011769529 cites W2016983854 @default.
W3011769529 cites W2019537258 @default.
W3011769529 cites W2019723807 @default.
W3011769529 cites W2022539098 @default.
W3011769529 cites W2024081195 @default.
W3011769529 cites W2024268674 @default.
W3011769529 cites W2025146077 @default.
W3011769529 cites W2025884067 @default.
W3011769529 cites W2038633088 @default.
W3011769529 cites W2047937814 @default.
W3011769529 cites W2048414792 @default.
W3011769529 cites W2050006802 @default.
W3011769529 cites W2066788451 @default.
W3011769529 cites W2076575804 @default.
W3011769529 cites W2077993436 @default.
W3011769529 cites W2081828039 @default.
W3011769529 cites W2087317657 @default.
W3011769529 cites W2135082935 @default.
W3011769529 cites W2198451225 @default.
W3011769529 cites W2254902008 @default.
W3011769529 cites W2287340436 @default.
W3011769529 cites W2290460226 @default.
W3011769529 cites W2334812864 @default.
W3011769529 cites W2336115847 @default.
W3011769529 cites W2470151728 @default.
W3011769529 cites W2562028155 @default.
W3011769529 cites W2584119369 @default.
W3011769529 cites W2603120219 @default.
W3011769529 cites W2607499374 @default.
W3011769529 cites W2611203529 @default.
W3011769529 cites W2620730545 @default.
W3011769529 cites W2623285664 @default.
W3011769529 cites W2728507335 @default.
W3011769529 cites W2742444964 @default.
W3011769529 cites W2751698453 @default.
W3011769529 cites W2757819205 @default.
W3011769529 cites W2767793922 @default.
W3011769529 cites W2792924408 @default.
W3011769529 cites W2795186465 @default.
W3011769529 cites W2799304236 @default.
W3011769529 cites W2801699615 @default.
W3011769529 cites W2803599559 @default.
W3011769529 cites W2807895489 @default.
W3011769529 cites W2809696999 @default.
W3011769529 cites W2886716685 @default.
W3011769529 cites W2887633909 @default.
W3011769529 cites W2888564171 @default.
W3011769529 cites W2889165195 @default.
W3011769529 cites W2890197730 @default.
W3011769529 cites W2895417557 @default.
W3011769529 cites W2896574698 @default.
W3011769529 cites W2897137021 @default.
W3011769529 cites W2900169004 @default.
W3011769529 cites W2902203826 @default.
W3011769529 cites W2909513015 @default.
W3011769529 cites W2910474714 @default.
W3011769529 cites W2912607926 @default.
W3011769529 cites W2913050867 @default.
W3011769529 cites W2913104948 @default.
W3011769529 cites W2913150400 @default.
W3011769529 cites W2913426148 @default.
W3011769529 cites W2913447794 @default.
W3011769529 cites W2914080109 @default.
W3011769529 cites W2914147666 @default.
W3011769529 cites W2914197111 @default.
W3011769529 cites W2916260227 @default.
W3011769529 cites W2916633962 @default.
W3011769529 cites W2918340477 @default.
W3011769529 cites W2920572589 @default.
W3011769529 cites W2934563114 @default.
W3011769529 cites W2943678235 @default.
W3011769529 cites W2944366402 @default.
W3011769529 cites W2947576611 @default.
W3011769529 cites W2951453513 @default.
W3011769529 cites W2966275259 @default.
W3011769529 cites W2973411160 @default.
W3011769529 cites W2975012071 @default.
W3011769529 cites W2976543139 @default.
W3011769529 cites W2977487679 @default.
W3011769529 cites W2984125776 @default.
W3011769529 cites W2985194987 @default.