Your search keyword '"Ruzene, Denise Santos"' showing total 4 results

1. Use of corncob and pineapple peel as associated substrates for biosurfactant production.

Author

Santos, Brenda Lohanny Passos, Vieira, Isabela Maria Monteiro, Santos, Pablo Omar Lubarino, Menezes, Millena Souza, de Souza, Roberto Rodrigues, Ruzene, Denise Santos, and Silva, Daniel Pereira

Subjects

CORN, SURFACE tension, CORNCOBS, BACILLUS subtilis, DIESEL motors, BIOSURFACTANTS, XYLOSE, PINEAPPLE

Abstract

Biosurfactants are amphiphilic biomolecules with promising tensoative and emulsifying properties that find application in the most varied industrial sectors: environment, food, agriculture, petroleum, cosmetics, and hygiene. In the current work, a 23 full-factorial design was performed to evaluate the effect and interactions of pineapple peel and corncob as substrates for biosurfactant production by Bacillus subtilis LMA-ICF-PC 001. In a previous stage, an alkaline pretreatment was applied to corncob samples to extract the xylose-rich hydrolysate. The results indicated that pineapple peel extract and xylose-rich hydrolysate acted as partial glucose substitutes, minimizing production costs with exogenous substrates. Biosurfactant I (obtained at 8.11% pineapple peel extract, 8.11% xylose-rich hydrolysate from corncob, and 2.8109 g/L glucose) exhibited a significant surface tension reduction (52.37%) and a promising bioremediation potential (87.36%). On the other hand, biosurfactant III (obtained at 8.11% pineapple peel extract, 31.89% xylose-rich hydrolysate from corncob, and 2.8109 g/L glucose) exhibited the maximum emulsification index in engine oil (69.60%), the lowest critical micellar concentration (68 mg/L), and the highest biosurfactant production (5.59 g/L). These findings demonstrated that using pineapple peel extract and xylose-rich hydrolysate from corncob effectively supports biosurfactant synthesis by B. subtilis, reinforcing how agro-industrial wastes can substitute traditional carbon sources, contributing to cost reduction and environmental sustainability. [ABSTRACT FROM AUTHOR]

Published

2024

2. Biosurfactants produced from corncob: a bibliometric perspective of a renewable and promising substrate.

Author

Nunes, Hysla Maria Albuquerque Resende, Vieira, Isabela Maria Monteiro, Santos, Brenda Lohanny Passos, Silva, Daniel Pereira, and Ruzene, Denise Santos

Subjects

CORNCOBS, BIOSURFACTANTS, BIBLIOMETRICS, CHEMICAL structure, ACTIVATED carbon, WASTE recycling, FURFURAL

Abstract

The reuse of agro-industrial waste has been a recurring issue since the 20th century. With a composition rich in carbohydrates and because of the massive amount of residue produced daily all over the world, corncob became a low-cost and suitable substrate to produce high added-value compounds. Biosurfactants are bioproducts of versatile applications due to their chemical structure with hydrophilic and hydrophobic regions. The current work performed a bibliometric analysis to identify research related to the synthesis of biosurfactants using corncob as substrate. Despite the high availability of corncobs, only nine articles were found in Scopus and Web of Science using different pretreatment processes and microorganisms. After an initial screening, data regarding research organizations, scientific journals, citations, countries, institutions, and keywords were analyzed. Results indicated that corncobs were also used to produce enzymes, adsorbents, activated carbon, and furfural. The presented evaluation updated the status of art, identifying a serious need for more research, especially because of corncob's high potential to provide fermentable sugars and the wide range of variables influencing fermentation processes that still need to be studied. A future association of this low-cost substrate with other methods can result in a promising scenario for technology transference. [ABSTRACT FROM AUTHOR]

Published

2022

3. An overview of current research and developments in biosurfactants.

Author

Vieira, Isabela Maria Monteiro, Santos, Brenda Lohanny Passos, Ruzene, Denise Santos, and Silva, Daniel Pereira

Subjects

RESEARCH & development, BIOSURFACTANTS, SURFACE active agents, RHAMNOLIPIDS

Abstract

[Display omitted] Biosurfactants are amphiphilic molecules produced by living organisms and endowed with properties and characteristics that make them possible substitutes for synthetic surfactants in their most varied applications. As well as its relevance, interest in biosurfactants has grown due to the need to seek sustainable alternatives for existing products and processes. In this review, some of the various aspects of biosurfactants' production were exposed, from the definition, characteristics, and mechanisms of action to fermentative parameters, applications, and market perspectives. Such aspects make up only a few of the many themes within the biosurfactants universe, which are relevant for understanding these complex molecules, capable of assisting in constructing a more sustainable society for all. [ABSTRACT FROM AUTHOR]

Published

2021

4. Unlocking the potential of biosurfactants: Production, applications, market challenges, and opportunities for agro-industrial waste valorization.

Author

Santos, Brenda Lohanny Passos, Vieira, Isabela Maria Monteiro, Ruzene, Denise Santos, and Silva, Daniel Pereira

Subjects

*BIOSURFACTANTS, *AGRICULTURAL industries, *WASTE recycling, *FOOD waste, *INDUSTRIAL costs

Abstract

Biosurfactants are eco-friendly compounds with unique properties and promising potential as sustainable alternatives to chemical surfactants. The current review explores the multifaceted nature of biosurfactant production and applications, highlighting key fermentative parameters and microorganisms able to convert carbon-containing sources into biosurfactants. A spotlight is given on biosurfactants' obstacles in the global market, focusing on production costs and the challenges of large-scale synthesis. Innovative approaches to valorizing agro-industrial waste were discussed, documenting the utilization of lignocellulosic waste, food waste, oily waste, and agro-industrial wastewater in the segment. This strategy strongly contributes to large-scale, cost-effective, and environmentally friendly biosurfactant production, while the recent advances in waste valorization pave the way for a sustainable society. [ABSTRACT FROM AUTHOR]

Published

2024