[HTML][HTML] Finding out various potentials and possibilities of jackfruit seed and its usage in the industry: a review
Despite the fact that jackfruit seeds have been demonstrated to contain a variety of
beneficial nutrients or bioactive components that add real value to meals, they remain …
beneficial nutrients or bioactive components that add real value to meals, they remain …
[HTML][HTML] Algae: the reservoir of bioethanol
T Chandrasekhar, D Varaprasad, P Gnaneswari… - Fermentation, 2023 - mdpi.com
Overuse of non-renewable fossil fuels due to the population explosion urges us to focus on
renewable fuels such as bioethanol. It is a well-known fact that ethanol is useful as a …
renewable fuels such as bioethanol. It is a well-known fact that ethanol is useful as a …
[HTML][HTML] The Utilization of Jackfruit (Artocarpus heterophyllus L.) Waste towards Sustainable Energy and Biochemicals: The Attainment of Zero-Waste Technologies
The valorisation of food and fruit wastes has the potential for the production of sustainable
energy and biochemicals. Approximately 70% of the weight of the original jackfruit …
energy and biochemicals. Approximately 70% of the weight of the original jackfruit …
Valorisation of watermelon (Citrullus lanatus) rind waste into bioethanol: an optimization and kinetic studies
Bioethanol from renewable resources has gained great attention as one of the alternatives
to partially replace transportation fuel from fossil fuel. Watermelon rind waste (WRW) is …
to partially replace transportation fuel from fossil fuel. Watermelon rind waste (WRW) is …
[HTML][HTML] Efficient Biovalorization of Oil Palm Trunk Waste as a Low-Cost Nutrient Source for Bioethanol Production
A Billateh, B Cheirsilp - Energies, 2024 - mdpi.com
This study aimed to efficiently utilize felled oil palm trunk (OPT) for bioethanol and lactic acid
production. OPT was separated into two fractions: oil palm sap (OPS) and OPT fiber. OPS …
production. OPT was separated into two fractions: oil palm sap (OPS) and OPT fiber. OPS …
[HTML][HTML] Induction and Characterisation of Lignocellulolytic Activities from Novel Deep-Sea Fungal Secretomes
B Dowd, MG Tuohy - Fermentation, 2023 - mdpi.com
Fungi are increasingly recognised as being able to inhabit extreme environments. The deep
sea is considered an extreme environment because of its low temperatures, high hydrostatic …
sea is considered an extreme environment because of its low temperatures, high hydrostatic …
Production of Bioethanol from Colocasia esculenta (L.) Schott (Talas Liar) by Hydrolysis Process
E Praputri, E Sundari - IOP Conference Series: Materials Science …, 2019 - iopscience.iop.org
Wild taro tubers (Colocasia esculenta (L.) Schott Var. Antiquorum) contain 70-80%(wt%) of
starch, thus serve as potential feedstock for glucose production, providing raw materials for …
starch, thus serve as potential feedstock for glucose production, providing raw materials for …
Evaluating the use of jackfruit (Artocarpus heterophyllus) seeds for ethanol fermentation
NP Minh - Research on Crops, 2022 - indianjournals.com
Jackfruit seed is commonly considered as waste from fruit processing. This research was
conducted at STNanotech Laboratory in 2021 to evaluate the possibility of using jackfruit …
conducted at STNanotech Laboratory in 2021 to evaluate the possibility of using jackfruit …
Valorization of Jackfruit Waste into Bioactive Peptides and Nutraceuticals
Disposal of solid waste, including agro-industrial waste, is a significant concern in
developing nations and these wastes are abundant sources of structurally varied bioactive …
developing nations and these wastes are abundant sources of structurally varied bioactive …
Predicting Baker's Yeast Dosage and Fermentation Time on Bioethanol Production Made from Papaya Skin Waste
IN Muliarta, NLPPS Ni… - Formosa Journal …, 2023 - journal.formosapublisher.org
This literature study research aims to find the appropriate yeast dose and fermentation time
to process papaya skin waste into bioethanol by utilizing Saccharomyces cerevisiae yeast …
to process papaya skin waste into bioethanol by utilizing Saccharomyces cerevisiae yeast …