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51. Bench-scale demonstration of CO 2 capture with an electrochemically driven proton concentration process

Author

Rahimi, Mohammad, Catalini, Giulia, Puccini, Monica, Hatton, T Alan, Rahimi, Mohammad, Catalini, Giulia, Puccini, Monica, and Hatton, T Alan

Abstract

© The Royal Society of Chemistry 2020. A thorough experimental investigation of a bench-scale apparatus of the proton concentration process with two symmetrical MnO2electrodes is presented, with the aim of continuous desorption of CO2from a K2CO3solution. The electrodes were fabricated through cathodic deposition, and their chemical states, morphology, and microstructural architecture were characterized with X-ray photoelectron spectroscopy (XPS) and scanning electron microscopy (SEM). Successful formation of MnO2film was confirmed by XPS analysis, and the SEM images showed a uniform distribution of the film across the carbon substrate surface and along the strand, with an average thickness of ~500 nm, thus making proton ion diffusion possible. Continuous and efficient desorption of CO2from a K2CO3solution was obtained when electrodeposited MnO2electrodes were used in a flow-based proton concentration process. The amount of CO2desorbed per area of the electrode was 12-fold higher than that of a similar system. The electrochemical nature of the proton concentration process offers substantial practical advantages for the future, especially if electricity can be sustainably produced from renewable sources.

Published
2021

63. Activated Carbon from Hydrochar Produced by Hydrothermal Carbonization of Wastes

Author

Puccini, Monica, Stefanelli, Eleonora, Hiltz, Martin, Seggiani, Maurizia, and Vitolo, Sandra

Subjects
hydrothermal carbonization, lcsh:Computer engineering. Computer hardware, parasitic diseases, lcsh:TP155-156, hydrochar, activated carbon, lcsh:TK7885-7895, lcsh:Chemical engineering
Abstract

Hydrothermal carbonization (HTC) is a thermo-chemical process for recovery and valorization of biomass and organic waste that uses sub-critical liquid water as a reaction medium for converting feedstock into value- added products.. HTC treatment produces a carbonaceous solid, named hydrochar, with attractive characteristics that can be used in a variety of applications, such as activated carbon or soil amendment. In this study, activated carbons were prepared by KOH chemical activation of hydrochars obtained from hydrothermal carbonization of green waste and municipal solid waste. The effects of precursors and different KOH/char mass ratios on physical characteristics of the activated carbon were investigated. Methylene blue and iodine numbers were determined to evaluate the adsorption properties of obtained activated carbons. The results have shown a significant increase of porosity and a change in hydrochar structure by KOH activation method. The amount of mesopores and micropores increase with increasing KOH/char ratio. In particular, the sample by treatment of hydrochar from green waste activated with a 2:1 KOH/char weight ratio presented good mesoporosity, with a methylene blue number of 385 mg/g, and a well-developed micropore structure, with iodine number of 747 mg/g. Therefore, the application of KOH activated hydrochar as activated carbon appears to be promising.

Published
2017

69. Levulinic acid from orange peel waste by hydrothermal carbonization (HTC)

Author

Puccini, Monica, Licursi, Domenico, Stefanelli, Eleonora, Vitolo, Sandra, Galletti, Anna Maria Raspolli, Heeres, Hero Jan, and Chemical Technology

Abstract

With the awareness of the need for optimal and sustainable use of natural resources, hydrothermal treatment of biomass and biomass waste for energy and resource recovery has received increasing attention. The hydrothermal carbonization (HTC) of a biomass is achieved using water as the reaction medium and applying mild temperatures (180-250 ° C) under saturated pressure (autogenous or provided by a gas) for several hours. The thermochemical process applied to biomass includes simultaneous reactions of hydrolysis, dehydration, decarboxylation, condensation, polymerization and aromatization of the original precursor. The main resulting products are a carbon-rich solid, known as hydrochar, and a water phase containing soluble organic compounds. In this work, an experimental study on HTC process of orange peels to assess the yield of levulinic acid in water phase during the acid-catalyzed hydrolysis is reported. The results are promising, and comparable with other lignocellulosic biomass sources.

Published
2016

72. Development of Fibres-Reinforced Biodegradable Composites

Author

Seggiani, Maurizia, Cinelli, Patrizia, Verstichel, Steven, Puccini, Monica, Vitolo, Sandra, Anguillesi, Irene, and Lazzeri, Andrea

Subjects
biodegradable composite, lcsh:Computer engineering. Computer hardware, PHA, PHA, PHB, biodegradable composite, PHB, technology, industry, and agriculture, lcsh:TP155-156, lcsh:TK7885-7895, macromolecular substances, lcsh:Chemical engineering, complex mixtures
Abstract

In this work, blends of poly(3-hydroxybutyrate) (PHB), the most widespread member of the polyhydroxyalkanoates (PHAs), with wood fibres were investigated to assess the feasibility of producing biodegradable materials suitable for applications in packaging and agricultural environment. Due to its high crystallinity, PHB is stiff and brittle resulting in very poor mechanical properties with low extension at break, which limits its range of application. PHB was compounded successfully with wood fibres up to 30 % by weight in presence of polyethylene glycol (PEG) by extrusion. The composites were characterized by differential scanning calorimetry (DSC) and by scanning electron microscopy (SEM). Their mechanical properties were tested by dynamic mechanical thermal analysis (DMTA) and tensile tests. Preliminary tests in soil were carried out on the samples with wood fibres in order to investigate their biodegradation behavior, and further tests were performed in compost. Polyethylene glycol resulted effective as lubricating agent for the production of composites based on PHB and fibres. The good preliminary biodegradability results in soil showed that the blends PHB/wood fibres appear suitable for the production of natural fibre-reinforced thermoplastic items degradable in agricultural environment.

Published
2015

74. THERMOPLASTIC POLYMER COMPOSITION | [COMPOSITION POLYMÈRE THERMOPLASTIQUE]

Author

Vitolo, Sandra, Puccini, Monica, Seggiani, Maurizia, and Castiello, Domenico

Subjects
Polycaprolactone, Polycaprolactone, PCL, proteic hydrolysate, thermoplastic polymeric material, compostable polymeric materils, biodegradable polymeric materials, compostable polymeric materils, proteic hydrolysate, thermoplastic polymeric material, PCL, biodegradable polymeric materials
Published
2015

75. Epoxy Composites Based on Low-Cost Carbon Filler Derived from Hydrothermal Carbonization of Waste.

Author

Puccini, Monica, Stefanelli, Eleonora, Tasca, Andrea Luca, and Vitolo, Sandra

Subjects
CARBON, HYDROTHERMAL carbonization, POLYMERS, THERMAL stability, BIOMASS
Abstract

Different kinds of composites based on polymer matrix are present on the market. In particular, composites based on epoxy resin are used as high-performance polymers due to their excellent mechanical properties, chemical resistance, thermal stability and low cost production. Recently, in composites production the attention has been focused on the study of materials derived from biomass and organic waste to be used as filler. Hydrochar is a carbonaceous material obtained from hydrothermal carbonization (HTC) of biomasses and organic waste. During HTC biomass is carbonized in an aqueous environment at temperatures of 180-250 °C under saturated pressure (autogenous or provided by a gas) for several hours. For its characteristics, hydrochar can be potentially used as filler in composite materials in view of the growing concern about environmental sustainability. In this work, hydrochar obtained from hydrothermal carbonization of green waste was used as filler for the preparation of diglycidyl ether of bisphenol A-type epoxy composite materials. Two different epoxy matrices were used; the content of hydrochar was varied between 5 and 15 wt%. The resulting samples were characterized by morphologic and mechanical analyses, and electrical properties were evaluated. The addition of hydrochar to epoxy resins resulted in a slight increase of the elastic modulus, although there was a decrease in tensile strength and toughness. Moreover, electrical properties of epoxy resins were not significantly modified by the addition of hydrochar. Therefore, the study provided encouraging results for the production of innovative hydrochar-based epoxy composites, allowing the recycling and re-use of industrial waste. [ABSTRACT FROM AUTHOR]

Published
2019
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76. Herbicide Removal from Water: Investigating the Potential of Electrochemistry and Hydrochar-based Activated Carbon.

Author

Tasca, Andrea Luca, Clematis, Davide, Marco, Panizza, Vitolo, Sandra, and Puccini, Monica

Subjects
WATER purification, HERBICIDES, SEPARATION (Technology), ELECTROCHEMISTRY, ACTIVATED carbon, TERBUTHYLAZINE
Abstract

Terbuthylazine has been introduced to replace atrazine in most of the EU countries; nowadays, this herbicide is one of the most frequently detected in environmental waters. The persistence and the endocrine disruptor activity of this chemical of emerging concern have been established. Conventional treatments applied in drinking water plants do not lead to the complete removal of pesticides and among them, adsorption provides the greatest efficiency. Hydrochar obtained through the hydrothermal carbonization of sewage sludge has been activated and its adsorption capacity has been tested. Moreover, an innovative electrochemical reactor with a Solid Polymer Electrolyte (SPE) has been applied for removing terbuthylazine from an aqueous medium. The activated hydrochar demonstrated an adsorption capacity of 422 mg g-1, reached in 6 hours. Considering the reduction of the volume of sludge to be disposed of obtained if hydrothermal carbonization is carried out, and the thermovalorization of the exhausted hydrochar if used for pollutant removal, further analysis is encouraged to evaluate its effectiveness as adsorbent media in filtration vessels. Up to 88% of the herbicide has been completely removed by the electrolytic treatment in the first hour of treatment, while only 1% has been converted in minor metabolites. Both the sorbent and the advanced oxidation technique investigated here could be applied for the removal of other pesticides and drugs metabolites in water treatment facilities, while the fast removal attained by the SPE technology also offers a prospective for the insitu remediation of pesticides-polluted groundwater. [ABSTRACT FROM AUTHOR]

Published
2019
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77. Small-Scale Wood-Fuelled CHP Plants: a Comparative Evaluation of the Available Technologies

Author

Frigo, Stefano, Gabbrielli, Roberto, Puccini, Monica, Seggiani, Maurizia, and Vitolo, Sandra

Subjects
lcsh:Computer engineering. Computer hardware, wood biomass, CHP plant, lcsh:TP155-156, lcsh:TK7885-7895, lcsh:Chemical engineering, CHP plant, wood biomass
Abstract

Actually, several applications of small (=1 MWe) CHP (Combined Heat and Power) plants fuelled with solid wood can be found in Europe. Innovative technologies are facing the market, giving new perspectives for wood utilisation in district heating and/or in industrial-commercial activities. However, while the energy saving and the environmental benefits of CHP plants are undoubted, technological and no technological barriers still obstacle their large diffusion. The present study reports a comparative evaluation of the different available technologies in terms of thermal and electric efficiencies and their possible applications. Taking into consideration the electric-thermal performances of each configuration and the actual economic incentives guaranteed by the Italian government, a preliminary estimation of economic convenience of each plant is given.

Published
2014

78. DEPOXO Process: Technical and Environmental Study of Hide Oxidative Unhairing

Author

Puccini, Monica, Seggiani, Maurizia, Castiello, D., and Vitolo, Sandra

Subjects
unhairing process, lcsh:Computer engineering. Computer hardware, leather, unhairing process, hydrogen peroxide, lcsh:TP155-156, leather, hydrogen peroxide, lcsh:TK7885-7895, lcsh:Chemical engineering
Abstract

As an alternative to the traditional process based on the use of sulfides, an unhairing process in drum by hydrogen peroxide, named DEPOXO, was developed for the production of high-quality bovine upper leather. A preliminary investigation at laboratory scale has allowed to set out the optimal process conditions, in terms of H2O2 dosage (9 %) and pH (12.5), in order to achieve an effective unhairing and a compatible swelling of hides. The following pilot-scaled runs have assessed the industrial feasibility of the process that allows the production of a versatile base for different final applications of the leather (either chrome or vegetable tanned), and appear practical to implement. The crust leather obtained by the oxidative unhairing process showed good physical-mechanical and technical properties comparable with those obtained by the traditional one, and the leather was technically assessed as satisfactory and suitable according to the market request. The actual reduction of the environmental impact of the novel process, in relation with the traditional one, was evaluated performing a Life Cycle Assesment (LCA) using SimaPro 7.3, one of the most used software for LCA analysis. The results of the life cycle impact assessment underline that damages on main impact categories are greatly reduced through the adoption or the oxidative unhairing. Therefore, the DEPOXO process appears a feasible process, either from the environmental or from the technical point of view, to produce high quality bovine upper leather.

Published
2014

84. Life Cycle Assessment of Remediation Alternatives for Dredged Sediments

Author

Puccini, Monica, Seggiani, Maurizia, Vitolo, Sandra, and Iannelli, Renato

Subjects
Alternative solutions, lcsh:Computer engineering. Computer hardware, Environmental assessment, Life cycle, lcsh:TP155-156, Environmental problems, lcsh:TK7885-7895, Resources consumption, Life Cycle Assessment (LCA), Confined disposal facilities, Environmental burdens, Sediment, Bioremediation, Life cycle impact assessment, lcsh:Chemical engineering
Abstract

The Life Cycle Assessment (LCA) is an ISO standardized and widely used methodology for environmental assessment of products, processes and services, by identifying, quantifying and evaluating all the resources consumed and all the emissions and wastes released. The LCA methodology enables adequate comparison between different remediation options and can be used as a decision-making tool for the authorities. In this study, LCA was used to compare, in terms of their associated environmental burdens, two scenarios for managing the contaminated dredged sediments of the seabed of the Livorno Port area. The compared options were: (i) confined longshore disposal, i.e. placement of dredged material in a confined disposal facility; (ii) phytoremediation treatment, by an association of salt-tolerant shrub and grass species, aimed at turning the polluted sediment an agronomic substrate (techno-soil). The results of the life cycle impact assessment underline that the potential impacts of the two compared options involve different environmental problems. Indeed, for phytoremediation the most significant impacts are related to energy and resources consumption, while for the confined disposal is related to loads in the marine ecotoxicity categories. Therefore, phytoremediation can be considered a promising alternative solution for the management and valorization of contaminated dredged sediments.

Published
2013

85. Lithium Silicate Pellets for CO2 Capture at High Temperature

Author

Puccini, Monica, Seggiani, Maurizia, and Vitolo, Sandra

Subjects
adsorption process, lcsh:Computer engineering. Computer hardware, carbon capture, Lithium orthosilicate pellets, carbon capture, adsorption process, lcsh:TP155-156, lcsh:TK7885-7895, lcsh:Chemical engineering, Lithium orthosilicate pellets
Abstract

In this study, lithium orthosilicate-based pellets were developed and characterized as potential regenarable high-temperature CO2 sorbents. A mechanical method was used for pelletization of the powdered materials, namely K2CO3-doped lithium silicate (Li4SiO4) with cellulose fibres. Different amounts of cellulose fibres (20, 30 and 40 wt%) were added to powered doped-sorbent in order to identify the optimal amount to ensure an adequate porosity to the produced pellets. The CO2 sorption properties of the produced pellets were investigated at high temperature (500 - 600 °C) by using a thermal gravimetric analyzer (TGA) at low CO2 partial pressure with repeated calcination/carbonation cycles. Compared to the pure K2CO3-doped lithium silicate pellets, the sorbents prepared using cellulose fibres showed greater CO2 capture capabilities, which were ascribed to the higher porosity developed as a result of thermal degradation of cellulose. At 580 °C and a CO2 partial pressure of 0.04 atm, the uptake of CO2 in pellets prepared with 20 % of cellulose fibres reached about 20 wt% within 120 min corresponding to a Li4SiO4-conversion of 57 %. During multiple sorption/desorption cycles, a decay of the sorption capacity of the pellets was observed due to a partial sintering of the materials. This suggested that an appropriate binder should be added in order to improve the cyclic stability and the strength of the produced pellets.

Published
2013

86. CO2 Capture at High Temperature and Low Concentration on Li4SiO4 Based Sorbents

Author

Puccini, Monica, Seggiani, Maurizia, and Vitolo, Sandra

Subjects
Lithium orthosilicate, solid sorbents, carbon capture, lcsh:Computer engineering. Computer hardware, carbon capture, Lithium orthosilicate, lcsh:TP155-156, lcsh:TK7885-7895, solid sorbents, lcsh:Chemical engineering
Abstract

Solid sorbents based on lithium orthosilicate (Li4SiO4) have shown promise for CO2 capture at high temperature. Improved sorption properties can be obtained by appropriate doping. In this study, different promoted Li4SiO4-based sorbents were prepared by addition of potassium carbonate and binary/ternary alkali (Li, K and Na) carbonate eutectic mixtures. The CO2 sorption properties of the sorbents were investigated by thermal gravimetric analysis (TGA) at different temperatures in the range between 500 and 600 °C and at low CO2 partial pressure (0.04 atm). The results showed that all the promoters used noticeably improved the CO2 sorption capacity in comparison to no-promoted Li4SiO4. At the optimum sorption temperature of 580 °C, Li4SiO4 with addition of 30 wt% of K2CO3 showed the best CO2 adsorption proprieties with sorption capacities of 230 mg CO2/g sorbent corresponding to a conversion of about 80 %. Besides this sample maintained its original capacity during multiple CO2 sorption/desorption cycles.

Published
2013

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