SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3005443152> ?p ?o ?g. }

Showing items 1 to 100 of ±161 with 100 items per page.

W3005443152 endingPage "1137" @default.
W3005443152 startingPage "1137" @default.
W3005443152 abstract "The negative impacts of fossil fuel on the environment should be replaced by clean and sustainable energy sources worldwide. Therefore, the use of biodiesel as a clean energy source is crucial. Biodiesel is produced from various natural resources through a transesterification process. Considering the importance of this topic, this study focuses on the assessment of oil properties of Thymelaea hirsuta and Echinops spinosus as primary sources for biodiesel production. The two investigated plants were collected from the Western Desert of Egypt. The results showed that the lignocellulosic content was about 57.3 and 79.8 g/100 g in E. spinosus and 59.1 and 82.8 g/100 g in T. hirsuta, respectively. The two investigated samples showed variable lipid contents (30.2–76.1%). The GC-MS fatty acid profile characterized seven FAs in E. spinosus and twelf FAs in T. hirsuta. The greatest CN was calculated in T. hirsuta (379.2) compared to the lowest in E. spinosus (229.9). Furthermore, the values of saponification number (SN) were 27.9 in E. spinosus and 16.07 in T. hirsuta. The value of higher heating value (HHV) was about 47.5 MJ/kg in E. spinosus and 48.3 MJ/kg in T. hirsuta. Meanwhile, T. hirsuta exhibited a higher induction period (IP) value (19.3 h) comparable to that of E. spinosus (4.3 h). The results revealed that both plants are potential sources for biodiesel production according to various international standards for biodiesel production, and this work appears to be one of the first reports regarding such wild xerophytic plants as promising new primary sources for biodiesel production in Egypt." @default.
W3005443152 created "2020-02-14" @default.
W3005443152 creator A5018890932 @default.
W3005443152 creator A5043310747 @default.
W3005443152 creator A5046968453 @default.
W3005443152 creator A5068000671 @default.
W3005443152 creator A5085368703 @default.
W3005443152 date "2020-02-05" @default.
W3005443152 modified "2023-10-16" @default.
W3005443152 title "Thymelaea hirsuta and Echinops spinosus: Xerophytic Plants with High Potential for First-Generation Biodiesel Production" @default.
W3005443152 cites W1565010322 @default.
W3005443152 cites W175685970 @default.
W3005443152 cites W1939244552 @default.
W3005443152 cites W1970702176 @default.
W3005443152 cites W1976275502 @default.
W3005443152 cites W1977063937 @default.
W3005443152 cites W1979493426 @default.
W3005443152 cites W1984928630 @default.
W3005443152 cites W1984990676 @default.
W3005443152 cites W1987799927 @default.
W3005443152 cites W1992209122 @default.
W3005443152 cites W1994641952 @default.
W3005443152 cites W1994681132 @default.
W3005443152 cites W1996700087 @default.
W3005443152 cites W1997591624 @default.
W3005443152 cites W2000612471 @default.
W3005443152 cites W2007919813 @default.
W3005443152 cites W2009782289 @default.
W3005443152 cites W2010107976 @default.
W3005443152 cites W2012387562 @default.
W3005443152 cites W2017002169 @default.
W3005443152 cites W2025474235 @default.
W3005443152 cites W2025595426 @default.
W3005443152 cites W2028557999 @default.
W3005443152 cites W2029630783 @default.
W3005443152 cites W2032103040 @default.
W3005443152 cites W2035376701 @default.
W3005443152 cites W2036482018 @default.
W3005443152 cites W2044889517 @default.
W3005443152 cites W2048586936 @default.
W3005443152 cites W2052867973 @default.
W3005443152 cites W2054605863 @default.
W3005443152 cites W2056542952 @default.
W3005443152 cites W2059642735 @default.
W3005443152 cites W2062425204 @default.
W3005443152 cites W2067122154 @default.
W3005443152 cites W2067903683 @default.
W3005443152 cites W2068125093 @default.
W3005443152 cites W2069982055 @default.
W3005443152 cites W2070869012 @default.
W3005443152 cites W2072978448 @default.
W3005443152 cites W2074747118 @default.
W3005443152 cites W2075266692 @default.
W3005443152 cites W2078889949 @default.
W3005443152 cites W2082902900 @default.
W3005443152 cites W2086524135 @default.
W3005443152 cites W2088550657 @default.
W3005443152 cites W2094621287 @default.
W3005443152 cites W2096218850 @default.
W3005443152 cites W2096970468 @default.
W3005443152 cites W2098078345 @default.
W3005443152 cites W2102681819 @default.
W3005443152 cites W2105216465 @default.
W3005443152 cites W2110107054 @default.
W3005443152 cites W2113328467 @default.
W3005443152 cites W2116199369 @default.
W3005443152 cites W2120641663 @default.
W3005443152 cites W2121319025 @default.
W3005443152 cites W2122802918 @default.
W3005443152 cites W2125708158 @default.
W3005443152 cites W2156437431 @default.
W3005443152 cites W2158585406 @default.
W3005443152 cites W2213661076 @default.
W3005443152 cites W2227295066 @default.
W3005443152 cites W2264503376 @default.
W3005443152 cites W2317757648 @default.
W3005443152 cites W2397185407 @default.
W3005443152 cites W2411414844 @default.
W3005443152 cites W2508836989 @default.
W3005443152 cites W2529968265 @default.
W3005443152 cites W2579178478 @default.
W3005443152 cites W2609638738 @default.
W3005443152 cites W2749636119 @default.
W3005443152 cites W2800948312 @default.
W3005443152 cites W2885550071 @default.
W3005443152 cites W2903374963 @default.
W3005443152 cites W2903398037 @default.
W3005443152 cites W2914620648 @default.
W3005443152 cites W2947012877 @default.
W3005443152 cites W2978324134 @default.
W3005443152 cites W2979373816 @default.
W3005443152 cites W2984996426 @default.
W3005443152 cites W2988713685 @default.
W3005443152 cites W2991346060 @default.
W3005443152 cites W4293247451 @default.
W3005443152 cites W4362197284 @default.
W3005443152 doi "https://doi.org/10.3390/su12031137" @default.
W3005443152 hasPublicationYear "2020" @default.