Table 6.
Potential of different biofuels feedstocks on the basis of their oil yield for sustainable energy production.
| Species | Oil (%) | References |
|---|---|---|
| Soybean | 20 | (Giuffrè et al., 2020) |
| Palm oil | 30 | |
| Coconut | 63 | (Suryani et al., 2020) |
| Rapeseed | 38 | (Konur, 2021) |
| Sunflower | 25 | (Subaşı et al., 2020) |
| Peanut oil | 45 | (Dun et al., 2019) |
| Olive oil | 45 | (Giuffrè et al., 2020) |
| Cottonseed | 18 | (Riaz et al., 2021) |
| Halophytes | ||
| Salicornia bigelovii | 30 | (Zapata-Sifuentes et al., 2021) |
| Cressa cretica | 23 | (Afshari and Sayyed-Alangi, 2017) |
| Suaeda salsa | 22 | (Kefu et al., 2003) |
| Haloxylon stocksii | 23 | (Abbas et al., 2022) |
| Kosteletzkya virginica | 30 | (Ruan et al., 2008) |
| Atriplex rosea | 13 | (Abideen et al., 2015b) |
| Ricinus communis | 55 | (Salimon et al., 2010) |
| Descurainaia sophia | 44 | (Mokhtassi-Bidgoli et al., 2022) |
| Suaeda torreyana | 25 | (Arias-Rico et al., 2020) |
| Crithmum maritimum | 40 | (D’Agostino et al., 2021) |
| Algae | ||
| Botryococcus braunii | 25 | (Cheng et al., 2013) |
| Chlorella sp. | 28 | (Munir et al., 2022) |
| Crypthecodinium cohnii | 20 | (Li et al., 2015) |
| Dunaliella salina | 20 | (Yilancioglu et al., 2014) |
| Nannochloropsis sp. | 31 | (Pal et al., 2011) |
| Neochloris oleoabundans | 35 | (Tao et al., 2019) |
| Nitzschia sp. | 45 | (Sahin et al., 2019) |
| Schizochytrium sp. | 50 | (Ren et al., 2014) |