Valorization of sugar beet pulp to value-added products: A review

Usmani, Zeba; Sharma, Minaxi; Diwan, Deepti; Tripathi, Manikant; Whale, Eric; Jayakody, Lahiru N.; Moreau, Benoît; Thakur, Vijay Kumar; Tuohy, Maria G.; Gupta, Vijai Kumar

doi:10.1016/j.biortech.2021.126580

Cited by 61 publications

(26 citation statements)

References 101 publications

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“…Valorization is an environmentally friendly and sustainable approach in which the waste biomass either recycled or converted into valuable products. In recent past, researchers reported different valorization routes for development of value-added chemicals ( 23 ). The pretreatment strategies employed for effective valorization of waste biomass into useful products are discussed as following ( Figure 2 ).…”

Section: Valorization Technologies Of Fruit Waste For Value-added Pro...mentioning

confidence: 99%

Valorization of jackfruit waste into value added products and their potential applications

Pathak

Singh

et al. 2022

Front. Nutr.

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Jackfruit is a potential natural resource for many valuable biomaterials. The wastes from jackfruit are rich in carbohydrate, proteins, fats and phytochemicals. These wastes can be used as feedstock for the development of various bioproducts. The pretreatment strategies like biological, physical and chemical methods are being used for effective valorization of fruit wastes into value added products, like bioethanol, biogas, bioplastics, feeds, functional food additives, and other useful compounds. Bioenergy production from such renewable resources is an eco-friendly and cost-effective alternative option of fuels, unlike fossil fuels. The efficient bioconversion of fruit waste into useful biomaterials is facilitated by microbial fermentation process. Also, jackfruit peel is applied in the pollution abatement by remediation of dyes color from contaminated aquatic environment. Such technology can be used to develop a green economic model for waste utilization. This review addressed the utilization feasibility of jackfruit waste to produce value added products in order to reduce wastes and protect environment in a sustainable way.

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Section: Valorization Technologies Of Fruit Waste For Value-added Pro...mentioning

confidence: 99%

Valorization of jackfruit waste into value added products and their potential applications

Pathak

Singh

et al. 2022

Front. Nutr.

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“…However, there is still a need for research for improvement in biofuel production. Costeffective pre-treatment strategies are necessary for valorization of lignocellulosic biomass (Bhutto et al, 2017;Usmani et al, 2022). Algal biomass is used in biodiesel production because it proliferates, is carbon-neutral and contains a high oil concentration.…”

Section: Current Bioenergy Production Challenges and Future Prospects...mentioning

confidence: 99%

“…Due to their distinct properties, biofuels have recently gained global recognition as an alternative to fossil fuels (Manikandan et al, 2022). Many plant materials, including vegetables, sugarcane, corn, palm oil, soybeans, jatropha, and fruit wastes, are being used as feedstock for biofuel production on nearly every continent (Raschke et al, 2021;Usmani et al, 2022;Pathak et al, 2022a). Unlike most other biofuels, biodiesel has the potential to either replace or supplement fossil-based diesel.…”

Section: Introductionmentioning

confidence: 99%

Nanomaterials based sustainable bioenergy production systems: Current trends and future prospects

Bala

Sharma

Dashora

et al. 2022

Nanofab

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The global energy crisis affects all of us. With a growing global population and finite fossil fuel supplies, we must find new energy sources. Alternative energy sources must be prioritized. Biofuels like biodiesel, biohydrogen, biomethanol, and bioethanol have come a long way in recent decades. These alternative fuels are from low-cost, renewable sources like algal, microbial, and plant biomass. Several governments, including India, are improving their renewable energy production capabilities. The main obstacles to rapid biofuel adoption are time and cost. For biofuel to truly become a viable alternative to fossil fuels, nanotechnology has recently provided the much-needed impetus. Nanomaterials' unique structural behavior, such as small size (nanoscale size), has increased their use in biofuel production. It improves efficiency and reduces the time required to convert waste into biofuels. This review addresses the latest information on various types of nanoparticles, and challenges faced and the future prospects of emerging applications of nanoparticles in biofuel production.

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“…It is therefore urgently necessary to develop new chemical technologies based on the use of sugar beet bagasse wastes to produce various useful products. [10,13] Traditionally, beet pulp is used for feed and used as a source of food fibers, [12] and the recent increased interest in the development of valueadded products from beet pulp has stimulated the search for new processing areas, among which is the creation of a porous Agriculture is the most massive material circulation activity of humans, with significant annual volumes of production as well as substantial amounts of waste. Transforming agricultural wastes into high-value-added products is the key to sustainable development with efficient usage of renewable resources.…”

Section: Introductionmentioning

confidence: 99%

“…It is therefore urgently necessary to develop new chemical technologies based on the use of sugar beet bagasse wastes to produce various useful products. [ 10,13 ] Traditionally, beet pulp is used for feed and used as a source of food fibers, [ 12 ] and the recent increased interest in the development of value‐added products from beet pulp has stimulated the search for new processing areas, among which is the creation of a porous framework for composite materials for temperature control of buildings, [ 14 ] biochar and pyrolysis gas, [ 15 ] hydrochar, [ 16 ] and three‐dimensionally hierarchical porous carbons. [ 17,18 ]…”

Section: Introductionmentioning

confidence: 99%

Tuning Sugar Biomass Waste Conversion for the Preparation of Carbon Materials for Supercapacitors and Catalysts for Oxygen Reduction

et al. 2022

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Agriculture is the most massive material circulation activity of humans, with significant annual volumes of production as well as substantial amounts of waste. Transforming agricultural wastes into high‐value‐added products is the key to sustainable development with efficient usage of renewable resources. The present study demonstrates the fine‐tuning of the sugar beet pulp processing to access two types of materials for cutting edge applications—supercapacitors and fuel cells. Alkaline fine‐tuning results in N,O‐doped carbon material (CM) with an advantageous combination of surface area and morphology that allows to achieve high specific capacitance (308 F g−1), and excellent stability (>10 000 charge/discharge cycles). Not limited to the CM preparation and characterization, a real device is created in the present study to demonstrate the efficient usage of the carbon electrode in the form of the assembled coin cell. Acidic fine‐tuning, in contrast, yields a methodology for P,N,O‐doped material and optimizes to form active sites with electrocatalytic activity in the oxygen reduction reaction that is used for electricity production in proton‐exchange membrane fuel cells. The developed approach demonstrates the tuning of functional properties and morphology of CMs under experimentally simple conditions using conventional reagents (KOH and H3PO4) and opens up new directions in the circular biomass usage projects.

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Valorization of sugar beet pulp to value-added products: A review

Cited by 61 publications

References 101 publications

Valorization of jackfruit waste into value added products and their potential applications

Valorization of jackfruit waste into value added products and their potential applications

Nanomaterials based sustainable bioenergy production systems: Current trends and future prospects

Tuning Sugar Biomass Waste Conversion for the Preparation of Carbon Materials for Supercapacitors and Catalysts for Oxygen Reduction

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