Your search keyword '"Ada, Ferri"' showing total 2 results

1. Dust explosion hazard in the textile industry

Author

Luca Marmo, Ada Ferri, and Enrico Danzi

Subjects

Textile industry, business.industry, Dust explosion, Flocculent dust, Non-conventional dust, General Chemical Engineering, 05 social sciences, Energy Engineering and Power Technology, 02 engineering and technology, Management Science and Operations Research, Hazard, Industrial and Manufacturing Engineering, 020401 chemical engineering, Mining engineering, Control and Systems Engineering, 0502 economics and business, Environmental science, 050207 economics, 0204 chemical engineering, Safety, Risk, Reliability and Quality, business, Food Science

Abstract

The textile industry is not considered among those at high dust explosion risk, as official statistics (CSB 2010, Abbasi and Abbasi 2007, Yuan et al. 2015) account for a low incidence of episodes. Despite these data, there is also evidence that dust explosions may affect the textile industry with severe consequences. The Harbin linen explosion in China ( Hailin, 1988, Bowen 1988, Eckhoff 2003) is probably recognized as having been the most severe episode. Marmo et al. (2010), Piccinini (2008), Salatino et al. (2012) and the U.S. Fire Administration (1995) have discussed dust explosion episodes involving the textile compartment, with nylon flock and wool dust explosions. Amyotte summarized the state-of-the-art knowledge about flocculent materials (which mainly originate from the textile industry), explosion hazards, and the related studies in chapter thirteen of his well-known book (Amyotte 2013). The textile industry has two particular features regarding the dust explosion risk: a. The dust produced as a by-product of the textile process often belongs to the non-traditional dust category, as a result of the type of materials being handled, which are characterized by a marked flocculent attitude. Amyotte and his co-workers discussed flocculent dust behavior and the related risks in detail (Amyotte et al. 2011, 2012a, 2012b); b. The textile industry often needs control of the ambient moisture, which is generally accomplished using ventilation and environment humidification; the latter naturally implies a reduction in the risk of explosions. These particular features suggest that the risk of dust explosions in the textile industry deserves a dedicated discussion. The number of flocculent dust studies is somewhat limited. The role played by the particle size and aspect ratio (namely the diameter-to-length ratio) in explosibility proneness is still unclear. Worsfold et al. (2012) reported the importance of enlarging the knowledge on the hazards related to unconventional dust since most studies have focused on traditional dust. This work investigates the explosion hazards related to dust generated in the textile industry. Moreover, it presents some experimental results obtained by the authors, and detailed in Marmo et al. (2016, 2018), and illustrates the perspective of the study to increase the safety culture of these particular materials.

Published

2019

2. Preparation of functionalized cotton fabrics by means of melatonin loaded β-cyclodextrin nanosponges

Author

Francesco Trotta, Ada Ferri, Roberta Peila, Fabrizio Caldera, Manuela Mihailiasa, and Jiemeng Li

Subjects

Nanostructure, Elemental analysis, Polymers and Plastics, XRD, Beta-Cyclodextrins, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, Antioxidants, �-Cyclodextrin nanosponges, Adsorption, Drug Delivery Systems, Materials Chemistry, Molecule, Organic chemistry, Cotton Fiber, Porosity, β-cyclodextrin nanosponges, Cellulose fabrics, Melatonin, Drug Liberation, Nanostructures, beta-Cyclodextrins, Organic Chemistry, 2506, Metals and Alloys, chemistry.chemical_classification, Cyclodextrin, Chemistry, technology, industry, and agriculture, Substrate (chemistry), 021001 nanoscience & nanotechnology, 0104 chemical sciences, Chemical engineering, Drug delivery, cellulose fabrics, elemental analysis, melatonin, 0210 nano-technology

Abstract

Biofunctional textiles are a new category of advanced materials which combine conventional textiles with advanced drug delivery systems to obtain fabrics able to release active principles through skin. The work presents the synthesis of hyper cross-linked β-cyclodextrins nanosponges with the carbonyl group acting as bridge between cyclodextrin molecules. The result of the synthesis is a 3-D porous structure, where melatonin molecules have been complexed. The complex has been characterized by elemental analysis, DSC, SEM, XRD and FT-IR spectroscopy and the results confirm that melatonin interacts with the synthesized nanosponge at molecular level. Melatonin loaded nanosponges have been dispersed on cotton fibres, which have proved to be a suitable substrate for durable nanosponge adsorption. The in vitro release tests from the funtionalized fabrics have shown a zero order kinetics, which is typical of a reservoir diffusion controlled system.

Published

2016