Production Of Bioplastic Through Food Waste Valorization

Varelas, V., Langton, M. (2017) Biomass forest waste as a new potential source of food and food insects - a review. Converting agricultural food waste and agricultural residues into important mushroom growing products. Food waste is slightly digested in the manure of Agaricus bisporus and Agaricus sub rufescent and their contribution to mushroom production.

Available inside - page 441 Using food waste to produce valuable products. Bioplastic production by increasing food waste disposal Yu Fai Tsang, Manish Kumar, Pallabi Samadar, Yi Yang, Jae-chan Lee, Yong Sik Ok, Hochol Son, Ki Hyun Kim, Eilhann E. Kwon, Department of Environmental Sciences and Environmental Engineering Yong Jae UJong Bioresur Teknol. Found inside - p. 58 Another sustainable solution to the use of bioplastics ... - increasing the amount of lignocellulosic waste by biotechnology production ... Ok YS, Song H, Kim KH, Kwon EE, Jeon YJ (2019) Producing bioplastics by increasing the amount of food waste.

Food and agricultural waste is an effective feedstock for bioplastics because its production does not compete with food production, can reduce waste disposal, and contribute to a more closed economy. Food waste is produced in all phases of the life cycle of various food supply channels, from agricultural production and post-harvest processing to industrial processing, wholesale/retail, foodservice, and consumer consumption. Waste of various types (eg agriculture, food, industry) is produced in daily quantities, which creates a major problem in handling and disposing of it.

Waste in the food supply chain, despite its fragility, can be an important industrial asset due to its availability, flexibility, and sustainability of bio-based food production. Waste produced in all phases of the food cycle can be processed into a number of components, which will be processed into high-value molecules or converted to biochemical and/or biotechnology methods to produce bio-based products. Emphasis is placed on integrating PHA production based on selected immature components selected from complete sustainability models; this includes the selection of new and powerful microbial species, safe and sound natural ways to restore PHA, and reuse of the stream from the PHA production system.

N2 - This chapter introduces a variety of waste-based bioplastic and products from the agricultural, food, and biofuel industries. Therefore, bioplastic is made from waste and not from products intended for food production. The production of PHA from food waste helps to eliminate the natural impact of isolated plants such as corn, sugar, and potatoes, which are often used as a basis for bioplastics. Microorganisms produce large amounts of organic copolymers called polyhydroxyalkanoates (PHAs).

The use of PHA plastics can have a positive impact in many areas such as reducing plastic waste and reducing greenhouse gas emissions. Genesis also creates 30-40% lower-cost solutions than existing ones on the market. Therefore, the introduction of a food waste biorefinery platform is a good way to start (for example, the production of value-added products by reducing waste volume). Production of bio-based polymers from FSCW can lead to waste management and food packaging production.

Reduce and enrich your diet with products from a mixture of gelatin and fish myofibrillar protein. Grow waste streams and industrial products by fermenting the production of chemicals and biopolymers. Bioplast production by increasing food waste Yu Fai Tsang a, 1, Wanish Kumar b, 1, Pallabi Samadar c, 1, Yi Yang a, Jehan Li d, 1, Yong Sik Oke, Hocheol Son f, Ki-Hyun Kim e, *, Eilhann E. Kwon f, *, Young Jae Jeon g This open-access document discusses the development of a food waste disposal facility.

A promising waste management strategy is the use of flow chemistry techniques to convert waste into valuable products. Another way to increase the amount of waste is to produce important fossil chemicals, including succinic acid (SA) 15, furfural and furans 16, phenolic compounds17, and bioplastics18. Additional waste is the process of converting waste into more efficient products, including chemicals. , Materials and oils.

This article aims to provide information on the latest developments in waste management strategies for the sustainable production of chemicals, building materials, and oils (with a focus on food waste), highlighting key examples of our team's recent research. However, due to the lack of local research on the use of food waste management technology in Hong Kong, this review is important and may provide authorities with some suggestions for considering the adoption of food waste management strategies.

The global challenge of feeding the ever-growing world population draws scientists' attention to nutritious and sustainable food, which is expected to produce a minimal impact on the environment, the economy, and society. In a situation where raw materials from other countries may be depleting nutrients, the label of these products becomes even more environmentally friendly. Cycling is an important part of the global economy today.

To address these challenges, integrating biorefinery concepts into traditional food processing industries to increase food waste will create additional value and innovation in various industrial sectors. The project aims to reduce emissions of greenhouse gases and pollutants by using cassava waste to produce bioplastic instead of current non-environmental products on the market.

Find in this book. This book is for researchers and students studying building materials, biorefining, and biofuels/products / processes, as well.