Study of water-extractable fractions from South Moravian lignite

Doskočil, Leoš; Grasset, Laurent; Enev, Vojtěch; Kalina, Lukáš; Pekař, Miloslav

doi:10.1007/s12665-014-3671-1

Cited by 22 publications

(16 citation statements)

References 60 publications

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“…that degrade lignin in wood waste can enhance the degradation of persistent organic pollutants such as pentachlorophenol (Mileski et al, 1988). Microbial inhibition in biosolids caused by poor aeration, low pH, or high concentrations of metals may be reduced by mixing the biosolids n/g (Paramashivam et al, 2016b), (Wilén et al, 2004) Pine ( (12) 55 (12) (Enders et al, 2012), (Pereira Calvelo et al, 2011), (Hina et al, 2010) n/a n/a n/a n/a (Zhang et al, 2015) 600 9.6 37.1 0.4 n/a n/a 42.6 n/a n/a n/a n/a Lignite New Vale, New Zealand with organic amendments (Song and Schobert, 1996;Pehlivan and Arslan, 2007;Chassapis et al, 2009;Knowles et al, 2011;Simmler et al, 2013;Doskocil et al, 2015). Xenobiotics can be immobilized or entrapped within the micropores of organic soil amendment (Fetzner, 2000).…”

Section: Sorption Of Xenobiotics and Heavy Metalsmentioning

confidence: 99%

Section: Sorption Of Xenobiotics and Heavy Metalsmentioning

confidence: 99%

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Potential Environmental Benefits from Blending Biosolids with Other Organic Amendments before Application to Land

et al. 2017

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Section: Sorption Of Xenobiotics and Heavy Metalsmentioning

confidence: 99%

Section: Sorption Of Xenobiotics and Heavy Metalsmentioning

confidence: 99%

Potential Environmental Benefits from Blending Biosolids with Other Organic Amendments before Application to Land

et al. 2017

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“…The most commonly used sorbent for this purpose is active carbon, nevertheless, this detoxification strategy suffers from high cost of the sorbent [ 6 ]. On the contrary, lignite represents a very promising, low-cost, and effective sorbent which has already been used for the treatment of wastewater to remove various organic and inorganic contaminants [ 7 ].…”

Section: Introductionmentioning

confidence: 99%

Production of Polyhydroxyalkanoates Using Hydrolyzates of Spruce Sawdust: Comparison of Hydrolyzates Detoxification by Application of Overliming, Active Carbon, and Lignite

et al. 2017

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Polyhydroxyalkanoates (PHAs) are bacterial polyesters which are considered biodegradable alternatives to petrochemical plastics. PHAs have a wide range of potential applications, however, the production cost of this bioplastic is several times higher. A major percentage of the final cost is represented by the price of the carbon source used in the fermentation. Burkholderia cepacia and Burkholderia sacchari are generally considered promising candidates for PHA production from lignocellulosic hydrolyzates. The wood waste biomass has been subjected to hydrolysis. The resulting hydrolyzate contained a sufficient amount of fermentable sugars. Growth experiments indicated a strong inhibition by the wood hydrolyzate. Over-liming and activated carbon as an adsorbent of inhibitors were employed for detoxification. All methods of detoxification had a positive influence on the growth of biomass and PHB production. Furthermore, lignite was identified as a promising alternative sorbent which can be used for detoxification of lignocellulose hydrolyzates. Detoxification using lignite instead of activated carbon had lower inhibitor removal efficiency, but greater positive impact on growth of the bacterial culture and overall PHA productivity. Moreover, lignite is a significantly less expensive adsorbent in comparison with activated charcoal and; moreover, used lignite can be simply utilized as a fuel to, at least partially, cover heat and energetic demands of fermentation, which should improve the economic feasibility of the process.

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“…The extracted component of the coal sample was influenced by the extraction solvent. Dosko cil [51] studied the water-extractable fractions from South Moravian lignite, and results showed that the main contents of the off-line TMAH thermochemolysis of lignite were aromatic compounds (77% of the total identified molecules), such as benzene carboxylic acids and their derivatives, especially methoxybenzoic acids, and to a lesser extent, methoxybenzenes. The identified aliphatic compounds consisted of short-chain diacids, fatty acids and polyols and were 23% of the identified compounds.…”

Section: Coalmentioning

confidence: 99%

The search for organic compounds with TMAH thermochemolysis: From Earth analyses to space exploration experiments

He¹,

Buch²,

Szopa³

et al. 2020

TrAC Trends in Analytical Chemistry

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Tetramethylammonium hydroxide (TMAH) is one of the most popular methylation reagents that have been increasingly used for the detection of organic compounds within a wide range of samples, such as soil, coal, lacquer, lignin, polymers and for in situ analysis of solid samples by space experiments. The analytical methods and instruments, experimental conditions, and the qualitative and quantitative analysis of organic compounds using TMAH thermochemolysis for the last 10 years were reviewed; additionally, the mechanism of TMAH thermochemolysis and TMAH degradation are overviewed herein. The objective of this paper is to give a broad view of the TMAH thermochemolysis analysis, to demonstrate how the technique can be used for the detection of organics on Mars and other planets, and to promote cooperation between different disciplines which may use thermochemolysis.

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Study of water-extractable fractions from South Moravian lignite

Cited by 22 publications

References 60 publications

Potential Environmental Benefits from Blending Biosolids with Other Organic Amendments before Application to Land

Potential Environmental Benefits from Blending Biosolids with Other Organic Amendments before Application to Land

Production of Polyhydroxyalkanoates Using Hydrolyzates of Spruce Sawdust: Comparison of Hydrolyzates Detoxification by Application of Overliming, Active Carbon, and Lignite

The search for organic compounds with TMAH thermochemolysis: From Earth analyses to space exploration experiments

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