Biosurfactants for a Sustainable Future. Группа авторов

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Название Biosurfactants for a Sustainable Future
Автор произведения Группа авторов
Жанр Биология
Серия
Издательство Биология
Год выпуска 0
isbn 9781119671053



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      1  3.1 Introduction

      2  3.2 Significance of the Production of Biosurfactants from Industrial Products

      3  3.3 Factors Affect Biosurfactant Production in Bioreactor

      4  3.4 Microorganisms 3.4.1 Bacteria 3.4.2 Fungi and Yeast

      5  3.5 Bacterial Growth Conditions 3.5.1 Continuous Cultures 3.5.2 Batch Processes 3.5.3 Fed-Batch Process

      6  3.6 Substrate for Biosurfactant Production 3.6.1 Production of Biosurfactant with Food and Vegetable Oil Waste 3.6.2 Development of Biosurfactants Using Waste Frying Oil 3.6.3 Fruit and Vegetable Industry Byproducts for Biosurfactant Processing 3.6.4 Starch-Rich Byproduct from the Industry for Biosurfactant Production 3.6.5 Biosurfactant Synthesis from Lignocellulosic Industrial Byproducts

      7  3.7 Conclusions

      8  Acknowledgement

      9  References

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      They have many benefits over chemical‐derived surfactants, including minimal toxicity, biologically available, biologically degradable, high foaming, and environmentally safe [4, 5]. Therefore, they are safer substitutes for synthetic surfactants, notably in food, medicine, cosmetics, and edible oils [6, 7]. Biosurfactants have an extensive range of applications in different domains such as cosmetics, pharmaceuticals, milk, energy, irrigation, forestry, textiles, painting, and several other sectors. These molecules are commonly known as multifunctional compounds, like stabilizers, wetting agents, antimicrobials, moisturizers, emulsifiers, and antiadhesives [8–11].

      The major barrier in the production of biosurfactants is the cost of the production process. It was documented that the main obstacle to large‐scale application of biosurfactants is related to their higher production cost (10–30%) than chemical surfactants. In particular, carbon and energy sources used during the fermentation process cost 50% of the total costs of production of biosurfactants [12–14]. However, the use of alternative nutrient sources that are readily available and cheap may drastically reduce this cost [15]. The usage of industrial waste or byproducts as a source of energy for biosurfactant production may be an effective way to reduce production cost and sustainability of the production process for industries. It was reported earlier [16] that agro‐industrial waste, with a higher protein, fat, and carbohydrate component, is desirable as a production medium component for biosurfactant production.

      Various factors influence the biosurfactant production efficiency of microbes. These factors are divided into various categories, but primarily belong to three major groups:

      1 The first group of factors includes medium components, i.e. carbon, nitrogen source.

      2 The second group includes physicochemical parameters of the microbial community and growth conditions in the bioreactor, i.e. upstream processing [22, 23].

      3 The third group includes the product isolation parameters, i.e. downstream processing.

      The components of all of these groups have a direct impact on production cost and product quality.

      Different groups of microorganisms, i.e. bacteria, fungi, and yeasts, are known as potential sources for the production of biosurfactants. Their production potential relies on various environmental and physiological conditions. Each microbe does have optimal conditions for its growth. However, the optimum growth conditions for cells are not always very suitable for the production of the desired product [14, 24]. The quantity of biosurfactants produced depends primarily on the type of microorganism and nutrient type. Most of the microorganisms that have a biosurfactant production capability have been screened from various industrial waste sites, i.e. contaminated soils, effluents, and wastewater discharge points [25]. Therefore, these organisms can grow on industrial byproducts and could be utilized for biosurfactant production under controlled conditions by using industrial waste as