Your search keyword '"Manea, Elena Elisabeta"' showing total 2 results

1. Influence of Biogenic Material Content on the Biodegradability of Styrene-Butadiene Composites with Incorporated Chlorella vulgaris Biomass.

Author

Bumbac, Marius, Nicolescu, Cristina Mihaela, Zaharescu, Traian, Bumbac, Costel, Manea, Elena Elisabeta, Ionescu, Ioana Alexandra, Gurgu, Ion Valentin, Serban, Bogdan-Catalin, Buiu, Octavian, and Dumitrescu, Crinela

Subjects

CHLORELLA vulgaris, CHEMICAL testing, BLOCK copolymers, POLYMERS, POLYMER degradation, FOURIER transform infrared spectroscopy, BIOMASS, SEWAGE disposal plants

Abstract

Bio-fillers are intensively studied for advanced polymer composite circular design and production. In this context, the algal biomass may be considered an important and relatively low-cost resource, when harvested as a by-product from wastewater treatment plants. The biomass of the algal species Chlorella vulgaris is frequently used in this type of environmental process, and its macro constituents' composition ranges from around 15–25% carbohydrates, 10–20% lipids, and 50–60% proteins. Poly (styrene-butadiene-styrene) (SBS) copolymers have a matrix composed of glassy polystyrene domains connected by flexible polybutadiene segments. Although the physical-mechanical properties of SBS copolymers recommend them for many industrial applications, they have the drawback of low biodegradability. This study aimed to assess the aerobic biodegradability of polymer composites by integrating biomass from Chlorella vulgaris at varying mass percentages of 5, 10, and 20% into SBS copolymer composites. Biodegradation tests were conducted under industrial composting conditions (58 °C and 50% relative humidity) for 180 days. The biodegradability of materials was evaluated by measuring the CO2 produced in each vessel during the study period. Potential correlations between the amount of carbon dioxide released and the percentage of biomass added to the polymer matrix were examined. Structural and morphological changes were assessed using Fourier Transform infrared spectroscopy (FTIR), thermal analysis (DSC), and scanning electron microscopy (SEM). Physical and chemical testing revealed a decrease in sample density after the industrial composting test, along with noticeable changes in melt flow index (MFI). The observed physical and chemical changes, coupled with FTIR, SEM, and DSC data, indicate increased cross-linking and higher porosity in biodegraded polymer structures with higher biomass content. This behavior is likely due to the formation of cross-linked connections between polymer chains and polypeptide chains resulting from protein degradation, enhancing connections between polystyrene units facilitated by peptide bonds with the benzene units of the styrene blocks within the polymer matrix. [ABSTRACT FROM AUTHOR]

Published

2024

2. MUNICIPAL ORGANIC WASTE COMPOSTING IN ROMANIA - RESOURCES AVAILABILITY AND RECENT ADVANCES.

Author

Manea, Elena Elisabeta, Bumbac, Costel, Dinu, Laurentiu, Badescu, Valeriu, and Ioana, Ionescu

Subjects

*ORGANIC wastes, *GREENHOUSE gas mitigation, *WASTE minimization, *COMPOSTING, *SEWAGE disposal plants, *WASTE management

Abstract

Composting municipal organic waste is important for several reasons, including greenhouse gas emissions reduction, soil health improvement, nutrients recycle, waste reduction, costs reduction (by reducing the waste volumes, the handling costs are decreased). Information on the practices of municipal organic waste composting in Romania is limited, thus a comprehensive evaluation of the limiting factors and current solution was carried out. According to the European Environment Agency, Romania has made progress in organic recycling, including composting, as part of its municipal waste management. The evolution of municipal solid waste (MSW) recycling in Romania was limited to 7% in 2010. Afterwards, Romania has made progress in organic recycling, including composting, as part of its municipal waste management. The amounts composted and digested include output from treatment of mixed municipal waste in mechanical-biological treatment plants. Home composting could be a solution to reduce biowaste losses in rural areas. Municipal selective collection of organic waste is an effective way to increase the percentage of organics composting and improve the quality of organic waste. By collecting organic waste separately, it can be processed more efficiently and effectively, leading to higher quality compost. This can also help reduce greenhouse gas emissions and improve air and water quality. Composting organic waste creates a product that can be used to improve soil health, grow crops, and reduce the need for chemical fertilizers. [ABSTRACT FROM AUTHOR]

Published

2023