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- [[File:Microbial electrolysis cell.png|thumb|right|200px|A microbial electrolysis cell]] A '''microbial electrolysis cell''' ('''MEC''') is a technology related to [[Microbial fuel cell]]s (MF ...7 KB (983 words) - 13:32, 1 November 2023
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- ....1021/acs.chemrev.1c00191|title=Anticatalytic Strategies to Suppress Water Electrolysis in Aqueous Batteries |year=2021 |last1=Sui |first1=Yiming |last2=Ji |first2 == HER in electrolysis == ...8 KB (1,127 words) - 02:07, 30 January 2024
- ==Comparison to microbial electrolysis cells== ...T | journal = bioRxiv | date = 16 April 2019 |title=Upscaling of Microbial Electrolysis Cell Integrating Microbial Electrosynthesis: Insights, Challenges and Persp ...5 KB (644 words) - 08:53, 3 November 2022
- [[File:Microbial electrolysis cell.png|thumb|right|200px|A microbial electrolysis cell]] A '''microbial electrolysis cell''' ('''MEC''') is a technology related to [[Microbial fuel cell]]s (MF ...7 KB (983 words) - 13:32, 1 November 2023
- ...e 19th century. [[Michael Faraday]] established in 1839 that the laws of [[electrolysis]] are also obeyed in ionic solids like [[lead(II) fluoride]] ({{chem2|PbF2} ...3 KB (433 words) - 14:44, 7 March 2024
- ...ship depends on the nature of the reactions at the two electrodes. For the electrolysis of aqueous [[copper(II) sulfate]] ({{chem2|CuSO4}}) as an example, with {{c ...transport numbers of [[hydrochloric acid]] (HCl(aq)) may be determined by electrolysis between a cadmium anode and an Ag-AgCl cathode. The anode reaction is {{che ...10 KB (1,580 words) - 20:01, 24 February 2024
- Direct current [[electrolysis of water]] (efficiency 80–85% at best) can be used to produce [[hydrogen]] ...und-trip efficiency remains limited at 35–50%.<ref name="lund-etal-2015"/> Electrolysis is expensive and power-to-gas processes need substantial full-load hours to ...16 KB (2,082 words) - 11:11, 13 January 2024
- Hydrogen generation via [[electrolysis]] requires DC currents over several thousand amperes, but DC voltages in th ...4 KB (538 words) - 17:31, 27 October 2023
- ...er 2021|title=Techno-economic assessment of low-temperature carbon dioxide electrolysis|url=https://www.nature.com/articles/s41893-021-00739-x|journal=Nature Susta ...3=Xu |first3=Pengtao |last4=Chen |first4=Liwei |date=2023-05-01 |title=CO2 electrolysis: Advances and challenges in electrocatalyst engineering and reactor design ...22 KB (2,883 words) - 23:55, 27 February 2024
- ...lso splits water]]. To prevent negating the environmental benefit of using electrolysis over the kiln method, the electricity should come from a renewable (or less ...18 KB (2,611 words) - 20:00, 25 February 2024
- ...ed on-site using a plant consisting of an array of [[Electrolysis of water|electrolysis]] cells, compressors and storage vessels. This reduces the need for storing ...14 KB (2,064 words) - 12:30, 15 January 2024
- ...energy is the [[Hydrogen production|production of hydrogen]] through the [[electrolysis]] of [[water]]. This [[hydrogen]] is subsequently used to generate electric ...d help renewables by capturing excess energy, with [[Electrolysis of water|electrolysis]], when they produce to much and fill the gaps with that energy when they a ...40 KB (5,255 words) - 12:18, 14 February 2024
- ...and the [[battery (electricity)|battery]] bank. This is done to prevent [[electrolysis]] depositions. Telephone installations have a battery system to ensure powe ...16 KB (2,383 words) - 22:41, 11 February 2024
- # Electrolysis. ...17 KB (2,408 words) - 14:01, 23 November 2022
- ...the single-use starter sheets involved laying down a sheet of copper by [[electrolysis]] on each side of a “mother plate”.<ref name = "Jenkins"/> Generating the s [[Category:Electrolysis]] ...42 KB (6,155 words) - 01:28, 7 January 2024
- ...ources to be brought online. [[Green hydrogen]], which is generated from [[electrolysis of water]] via electricity generated by renewables or relatively lower carb ...a high energy density fuel.<ref name="RSC2" /> [[Green hydrogen]], from [[electrolysis of water]], is a more economical means of long-term renewable energy storag ...98 KB (13,466 words) - 14:49, 22 February 2024
- **membrane electrolysis e.g. [[chloralkali process|chloralkaline process]] ...tration]], [[ultrafiltration]], [[nanofiltration]], [[reverse osmosis]], [[electrolysis]], [[Kidney dialysis|dialysis]], [[electrodialysis]], [[gas separation]], v ...34 KB (4,617 words) - 15:08, 11 January 2024
- ...gas suppliers, utilities and industrial gas companies, wind turbine and [[Electrolysis|electrolyser]] companies as well as governmental and non-governmental organ ...24 KB (3,045 words) - 16:24, 5 March 2024
- ...atmospheric pollution could be minimal, provided the hydrogen is made by [[electrolysis]] using electricity from non-polluting sources such as solar, wind or [[hyd ...21 KB (2,986 words) - 23:22, 27 November 2023
- ...n large quantities, for example with the [[water-gas shift reaction]] or [[electrolysis]], but hydrogen has several disadvantages: ...20 KB (3,052 words) - 08:10, 28 February 2024
- ...ht to meet peak daytime demand for cooling. [[Green hydrogen]], from the [[electrolysis of water]], is a more economical means of long-term renewable energy storag ...e [[water splitting|water]] into [[hydrogen]] and [[oxygen]] by means of [[electrolysis]]. ...115 KB (15,316 words) - 03:33, 19 February 2024
