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Your search keyword '"Agapios Agapiou"' showing total 11 results
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11 results on '"Agapios Agapiou"'

1. Biogas upgrading to methane and removal of volatile organic compounds in a system of zero-valent iron and anaerobic granular sludge

Author

Maria Andronikou, Nikolaos Lytras, Georgia Chrysanthou, Loukas Koutsokeras, Georgios Constantinides, Marinos Stylianou, Agapios Agapiou, and Ioannis Vyrides

Subjects
Volatile Organic Compounds, Sewage, Iron, Mechanical Engineering, Health, Toxicology and Mutagenesis, H2S removal, General Medicine, Carbon Dioxide, Waste Disposal, Fluid, Biogas enhancement, Pollution, Bioreactors, Biofuels, Engineering and Technology, Environmental Chemistry, VOC reduction, Anaerobiosis, Hydrogenotrophic methanogens, Anaerobic mix culture microorganisms, Methane, Powder and scrub ZVI
Abstract

The current study presented a novel process of biogas upgrading to biomethane (higher than 97%) based on anaerobic sludge and zero-valent iron (ZVI) system. When ZVI was added into an aquatic system with anaerobic granular sludge (AnGrSl) under anaerobic abiotic conditions, H2 was generated. Then, the H2 and CO2 were converted by the hydrogenotrophic methanogens to CH4. Biogas upgrading to biomethane was achieved in 4 days in the AnGrSl system (50 g L-1 ZVI, initial pH 5 and 20 g L-1 NaHCO3). In this system, when zero-valent scrap iron (ZVSI) was added instead of ZVI, a more extended period (21 days) was required to achieve biogas upgrading. X-ray diffraction (XRD) analysis revealed that the materials in a reactor with CO2 or biogas headspace, exhibited a mixture of ferrite and the iron carbonate phase of siderite (FeCO3), with the latter being the dominant phase. VOCs analysis in raw biogas (in the system of anaerobic sludge and ZVI) highlighted the reduction of low mass straight- and branched-chain alkanes (C6-C10). Also, H2S and NH3 were found to be substantially reduced when the anaerobic sludge was exposed to ZVI compared to the cases where ZVI was not added. This study found that simultaneously with biogas upgrading, VOCs, H2S and NH3 can be removed in a system of ZVI or ZVSI and AnGrSl under aquatic anaerobic conditions.

Published
2022
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4. Tomato waste biochar in the framework of circular economy

Author

Marinos Stylianou, Terpsithea Laifi, Simona Bennici, Patrick Dutournie, Lionel Limousy, Agapios Agapiou, Iliana Papamichael, Besma Khiari, Mejdi Jeguirim, and Antonis A. Zorpas

Subjects
Environmental Engineering, Environmental Chemistry, Pollution, Waste Management and Disposal
Published
2023
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7. TD-GC/MS analysis of indoor air pollutants (VOCs, PM) in hair salons

Author

Chrystalla Kaikiti, Marinos Stylianou, and Agapios Agapiou

Subjects
Air Pollutants, Volatile Organic Compounds, Environmental Engineering, Health, Toxicology and Mutagenesis, Public Health, Environmental and Occupational Health, General Medicine, General Chemistry, Pollution, Gas Chromatography-Mass Spectrometry, Air Pollution, Indoor, Humans, Environmental Chemistry, Particulate Matter, Environmental Monitoring
Abstract

Hairdressing personnel is daily exposed to various chemical air pollutants, and specifically to Volatile Organic Compounds (VOCs) and Particulate Matter (PM) in hair salons. This is of concern, due to the hazardous effects of these chemicals on the individual's health. Nevertheless, a limited exposure assessment of indoor air quality (IAQ) has been performed. The aim of this study was to analyze the indoor air in 5 hair salons, to assess the IAQ of the occupational exposure, and to identify the main VOCs produced or activities responsible for the respective indoor pollution. The chemical analysis took place inside the salon environment by monitoring the emitted VOCs, as well as the PM of 1, 2.5, 4, and 10 μm aerodynamic diameter. The sampling of VOCs was performed by adsorption of pollutants on Tenax TA sorbent tubes, that were subsequently analyzed using a thermal desorption unit coupled to gas chromatography/mass spectrometry (TD-GC/MS). The obtained results showed that hair products are a major source of air pollutants, as elevated concentrations of VOCs and PM are released in the working environment. Furthermore, the type and concentration of VOCs are affected by the various hair treatment activities taking place in the salons. Among the main compounds detected there was benzene, toluene, ethylbenzene, and xylenes, known as BTEX, as well as, diethyl phthalate, 1,4-dioxane, etc. More than 50 VOCs were identified (occurrence ≥60%) and 14 of them were quantified. Their average concentration levels varied from 12 μg m

Published
2022
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8. Use of biochar for the sorption of volatile organic compounds (VOCs) emitted from cattle manure

Author

Agapios Agapiou, Marinos Stylianou, and Kyriaki Kaikiti

Subjects
Volatile Organic Compounds, Health, Toxicology and Mutagenesis, chemistry.chemical_element, Sorption, General Medicine, 010501 environmental sciences, 01 natural sciences, Pollution, Manure, Nitrogen, chemistry.chemical_compound, Adsorption, chemistry, Odor, Environmental chemistry, Charcoal, Biochar, Environmental Chemistry, Animals, Cattle, Dimethyl trisulfide, Pyrolysis, Solid Phase Microextraction, 0105 earth and related environmental sciences
Abstract

The ability of biochar to be used as filter or as additive for the adsorption of volatile organic compounds (VOCs) emitted from cattle manure is investigated. The employed biochar was produced from cattle manure after slow pyrolysis at 550 °C (under nitrogen). Towards this, in-house-made glass emission reactors were filled with fresh cattle manure samples and a thin layer of biochar (10% w/w) was placed on the top of the manure layer. The mixture was left for 24 h to equilibrate and air samples were collected from the headspace air. The samples were then analyzed using the headspace solid-phase micro-extraction gas chromatography-mass spectrometry (HS-SPME-GC-MS) method. Cattle manure emissions are considered unpleasant and odoriferous. The respective changes in the emitted cattle manure VOCs were reported; these included mainly reduction in sulfur- (thiols and sulfides) and oxygen-containing VOCs (alcohols, ketones, phenolics), showing a promising application of biochar for the removal of such compounds from manure wastes. Also, five VOCs were selected as sorbents for further laboratory studies: hexane, dimethyl trisulfide, phenol, p-cresol, and 2-methyl-3-pentanone. The results of cattle manure-derived biochar, revealed a reduction in their emitted concentrations (low ppbv). The present application highlights a straightforward example of cyclic economy, where a waste product is reused after being processed; its re-usage as odor adsorbent serves again the agriculture sector.

Published
2020

9. Adsorption and removal of seven antibiotic compounds present in water with the use of biochar derived from the pyrolysis of organic waste feedstocks

Author

Marinos Stylianou, Costas Michael, Anastasis Christou, Panos Papanastasiou, Agapios Agapiou, and Despo Fatta-Kassinos

Subjects
Aqueous solution, Biosolids, Chemistry, Process Chemistry and Technology, 02 engineering and technology, Human decontamination, Biodegradable waste, 010501 environmental sciences, bacterial infections and mycoses, 021001 nanoscience & nanotechnology, 01 natural sciences, Pollution, Manure, Adsorption, Environmental chemistry, Biochar, Chemical Engineering (miscellaneous), 0210 nano-technology, Waste Management and Disposal, Pyrolysis, 0105 earth and related environmental sciences
Abstract

Biochars produced from various organic waste feedstocks have lately been utilized as adsorbents for the decontamination of antibiotics-contaminated environmental matrices. The aims of the present study were a) the assessment of the adsorption capacity of three distinct derived biochars [biosolids (BDΒ), cattle manure (MDB) and spent coffee grounds (SCGDB)], applied either at a low (1 g L−1) or high (10 g L−1) dose on seven antibiotics (tetracycline, TET; erythromycin, ERY; clarithromycin, CLA; ampicillin, AMP; ofloxacin, OFL; sulfamethoxazole, SMX; trimethoprim, TMP) spiked as mixture in environmentally relevant concentration (100 μg L−1) of an aqueous solution (8.27 85%) of AMP and TMP. However, the studied biochars failed to remove OFL and SMX. The adsorption results were best fitted to the Freundlich model with the sole exception of SMX. The main responsible mechanisms for the adsorption of antibiotics included surface complexation, H-bonding, π-π electron-donor-acceptor (EDA) interactions, pore-filling effects or the simultaneous occurrence of several of these mechanisms. Overall, the results highlighted the potential utilization of BDB, MDB and SCGDB for the decontamination of antibiotics-contaminated water bodies, while promoting the circular economy strategy.

Published
2021
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10. Comparison of particle size distributions and volatile organic compounds exhaled by e-cigarette and cigarette users

Author

S. Bezantakos, Agapios Agapiou, Marinos Stylianou, E. Papaefstathiou, and George Biskos

Subjects
Fluid Flow and Transfer Processes, Atmospheric Science, Environmental Engineering, Passive smoking, 010504 meteorology & atmospheric sciences, Particle number, Mechanical Engineering, Acetaldehyde, 010501 environmental sciences, medicine.disease_cause, 01 natural sciences, Pollution, Exhaled air, chemistry.chemical_compound, chemistry, Particle emission, Environmental chemistry, medicine, Particle size, Benzene, Air quality index, 0105 earth and related environmental sciences
Abstract

Vaping is promoted as a healthier alternative to smoking over the recent years, and e-cigarette (EC) users are considered to affect air quality (and thus contribute to passive smoking) much less than tobacco cigarette (TC) smokers. Here we test this hypothesis, by comparing measurements of the size distributions of particles and the levels of Volatile Organic Compounds (VOCs) exhaled by both EC and TC users. A total of 26 individuals (16 EC users and 10 TC users) provided exhaled air samples that were analyzed using the same protocol. Our measurements show that the particle number concentration emitted by both EC and TC users are comparable, but the size distributions of the particles emitted by the former exhibit significantly higher variability compared to those from the latter. The burden of the VOCs was much higher in the exhaled air of TC smokers compared to that of EC users. Although some of the VOCs measured in the exhaled air of EC users were expected, as they are used directly in the e-liquids, the collected mixtures were highly variable (i.e., varying significantly from case to case) with only 8 compounds being common among all individuals participating in the study. In contrast, we identified 65 compounds among the TC smokers that were common among the participants. Toxic compounds (e.g., benzene, acetaldehyde, toluene, xylenes, styrene, phenol, naphthalene, etc.) were also present in the exhaled air of EC users. The high variabilities observed in the size distributions of the exhaled particles and the levels of VOCs from different EC users (i.e., due to different devices, operational settings and liquids) warrants for further research in order to fully understand the main- and side-stream effects of EC use in the human micro-environment. Despite that, the high particle emissions and the presence, even at trace levels, of toxic VOCs in the exhaled air of EC users that are reported in this study, suggests that ECs should not be considered as harmless substitutes of TCs.

Published
2020
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