SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4210363533> ?p ?o ?g. }

Showing items 1 to 100 of ±183 with 100 items per page.

W4210363533 endingPage "323" @default.
W4210363533 startingPage "297" @default.
W4210363533 abstract "In recent years, there has been a significant accumulation of waste in the environment and it is expected that this accumulation may increase in the years to come. Waste disposal has massive effects on the environment and can cause serious environmental problems. Thus, the development of a waste treatment system is of major importance. For the majority of municipal solid waste food waste is considered to be the main contributor. Food wastes are mainly rich in organic substances and have a relatively high amount of energy. As a result, an effective food waste treatment system has several benefits including energy recovery and waste stabilization. To reduce the impact of the consumption of fossil energy sources on our planet, the exploitation of renewable sources has been relaunched. All over the world efforts have been made to recover energy from food waste, taking into account global energy security as the final goal. To attain this objective, several technologies and recovery methods have been developed in recent years. The microbial fuel cell (MFC) is one of them. This presents good potential for the production of electricity from food waste. Living things produce carbon molecules which are in reduced forms which can be oxidized in the presence of oxygen from the air. The respiratory chain of living beings is also based on this principle. It is, therefore, possible to develop a microbial fuel cell to generate electricity using several chemical agents playing an important role of mediator by catalyzing the generation of electric charges. This article is, therefore, an exploratory overview of the generation of electricity using a microbial fuel cell (MFC), along with the usefulness of food waste in MFCs." @default.
W4210363533 created "2022-02-08" @default.
W4210363533 creator A5002826411 @default.
W4210363533 creator A5007216452 @default.
W4210363533 creator A5007548198 @default.
W4210363533 creator A5016084397 @default.
W4210363533 creator A5017456432 @default.
W4210363533 creator A5022988165 @default.
W4210363533 creator A5029667351 @default.
W4210363533 creator A5054306782 @default.
W4210363533 creator A5076771081 @default.
W4210363533 creator A5078064197 @default.
W4210363533 date "2022-01-01" @default.
W4210363533 modified "2023-10-16" @default.
W4210363533 title "Bioelectricity recovery from food waste using microbial fuel cell: Recent advances" @default.
W4210363533 cites W1963652290 @default.
W4210363533 cites W1966629433 @default.
W4210363533 cites W1967612169 @default.
W4210363533 cites W1969602799 @default.
W4210363533 cites W1970146277 @default.
W4210363533 cites W1970377394 @default.
W4210363533 cites W1972539450 @default.
W4210363533 cites W1978068356 @default.
W4210363533 cites W1979201445 @default.
W4210363533 cites W1980305033 @default.
W4210363533 cites W1981970349 @default.
W4210363533 cites W1983241670 @default.
W4210363533 cites W1987712256 @default.
W4210363533 cites W1992910114 @default.
W4210363533 cites W1993723744 @default.
W4210363533 cites W1994785602 @default.
W4210363533 cites W1997611041 @default.
W4210363533 cites W1997715624 @default.
W4210363533 cites W1997964443 @default.
W4210363533 cites W1998106849 @default.
W4210363533 cites W1999254651 @default.
W4210363533 cites W2000798230 @default.
W4210363533 cites W2001096873 @default.
W4210363533 cites W2006379009 @default.
W4210363533 cites W2007091498 @default.
W4210363533 cites W2008664999 @default.
W4210363533 cites W2010421997 @default.
W4210363533 cites W2011983875 @default.
W4210363533 cites W2012361406 @default.
W4210363533 cites W2014302434 @default.
W4210363533 cites W2016263651 @default.
W4210363533 cites W2016744292 @default.
W4210363533 cites W2017513936 @default.
W4210363533 cites W2018071072 @default.
W4210363533 cites W2019041739 @default.
W4210363533 cites W2020005444 @default.
W4210363533 cites W2024692593 @default.
W4210363533 cites W2025126772 @default.
W4210363533 cites W2025335260 @default.
W4210363533 cites W2034317855 @default.
W4210363533 cites W2042175822 @default.
W4210363533 cites W2046016950 @default.
W4210363533 cites W2048130220 @default.
W4210363533 cites W2048281156 @default.
W4210363533 cites W2049898970 @default.
W4210363533 cites W2054319850 @default.
W4210363533 cites W2056651936 @default.
W4210363533 cites W2057189743 @default.
W4210363533 cites W2060431729 @default.
W4210363533 cites W2061937924 @default.
W4210363533 cites W2062685497 @default.
W4210363533 cites W2063611808 @default.
W4210363533 cites W2065413493 @default.
W4210363533 cites W2067939334 @default.
W4210363533 cites W2068237437 @default.
W4210363533 cites W2070490064 @default.
W4210363533 cites W2078318295 @default.
W4210363533 cites W2079594417 @default.
W4210363533 cites W2089088626 @default.
W4210363533 cites W2103909277 @default.
W4210363533 cites W2104890752 @default.
W4210363533 cites W2110938911 @default.
W4210363533 cites W2111419835 @default.
W4210363533 cites W2116082439 @default.
W4210363533 cites W2119251500 @default.
W4210363533 cites W2128718967 @default.
W4210363533 cites W2139009159 @default.
W4210363533 cites W2143506202 @default.
W4210363533 cites W2150495959 @default.
W4210363533 cites W2159634508 @default.
W4210363533 cites W2187680211 @default.
W4210363533 cites W2212686354 @default.
W4210363533 cites W2234700481 @default.
W4210363533 cites W2289871638 @default.
W4210363533 cites W2407431176 @default.
W4210363533 cites W2464035900 @default.
W4210363533 cites W2474191240 @default.
W4210363533 cites W2497902553 @default.
W4210363533 cites W2509924951 @default.
W4210363533 cites W2529005848 @default.
W4210363533 cites W2549326793 @default.
W4210363533 cites W2549902707 @default.
W4210363533 cites W2588233193 @default.