Biodegradation tests of mercaptocarboxylic acids, their esters, related divalent sulfur compounds and mercaptans

Rücker, Christoph; Mahmoud, Waleed M. M.; Schwartz, Dirk; Kümmerer, Klaus

doi:10.1007/s11356-018-1812-x

Cited by 23 publications

(9 citation statements)

References 27 publications

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“…Figure 7 shows the biodegradation of SG and sodium acetate as a function of time. The sigmoid behavior of the data and the biodegradation of the sodium acetate (~100%) confirmed the validity of the tests [30]. Additionally, the deviation of the measured values of the biological replicas was less than 20%.…”

Section: Biodegradation Of Scleroglucansupporting

confidence: 73%

Biodegradation and toxicity of scleroglucan for enhanced oil recovery

Mateus¹,

Angarita²,

Gomez

et al. 2022

CT&F Cienc. Tecnol. Futuro

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Polymer flooding consists of injecting polymer-augmented water into the reservoir to control the water-oil mobility ratio, resulting in an increase in the volumetric sweep efficiency compared to water flooding. Synthetic polymers (polyacrylamides) and biopolymers (scleroglucan, xanthan gum, schizophyllan) are the two families of polymers usually evaluated for enhanced oil recovery (EOR). Scleroglucan (SCG) is resistant to electrolytes, hydrolysis, pH (3-10) and temperature (30-100°C) and has remarkable rheological properties, but it is quite susceptible to microbiological degradation. The primary objective of this study was to evaluate the biodegradation of SCG in the injection and production processes and its aquatic toxicity. The anaerobic biodegradation of the SCG solutions was determined through the viscosity changes of the solutions, while the aerobic biodegradation was calculated with the changes in the SCG concentration. It was observed that the viscosity reduction of the SCG solution was 30% and the SCG concentration decreased from 100 ppm to 52 ppm because bacteria can metabolize the biopolymer. Daphnia Pulex, Scenedesmus Acutus and Oreochromis sp. were the organisms used in the ecotoxicological assays of the SCG solutions. The acute ecotoxicological bioassays showed that there was no evidence of acute deleterious effects of SCG on any of the three organisms. From the chronic ecotoxicological bioassays, it was concluded that there was no effect of SCG on the mortality of Daphnia Pulex, regardless of the tested SCG concentration.

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Section: Biodegradation Of Scleroglucansupporting

confidence: 73%

Biodegradation and toxicity of scleroglucan for enhanced oil recovery

Mateus¹,

Angarita²,

Gomez

et al. 2022

CT&F Cienc. Tecnol. Futuro

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“…A tested specimen passes the test if the oxygen consumption is 60% or higher than the theoretical oxygen demand within 28 days. It can be considered as an indication of a nearly complete degradation under most environmental conditions [26]. As shown in Table 5, the bio-based nanolubricants achieved more than 60% degradation within 28 days, which proved that the bio-based nanolubricants were readily biodegradable.…”

Section: Lubrication Propertiesmentioning

confidence: 86%

On the effects of bio-based nanolubricants formulation for the turning of Inconel 718

Ali

Azmi

Murad

et al. 2021

J Braz. Soc. Mech. Sci. Eng.

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This study evaluates the effects of new bio-based nanolubricants blend formulation on the machinability improvement during the turning Inconel 718 alloys. Different proportion of coconut oil (CO), sodium dodecylbenzenesulphonate (SDBS), cocoamidopropyl betaine (CAPB) with 0.5% of aluminium oxide (Al 2 O 3 ) nanoparticles were blended according to the mixture-design methodology to form the nanolubricants emulsion. Machining responses of tool wear, surface roughness, cutting power and spindle power were comprehensively assessed. The analyses revealed that a combination of 107.14 g of CO, 22.5 g of SDBS, and 15.36 g of CAPB was an ideal formulation for attaining excellent tribological and machining efficiency in the turning of the aforementioned alloy. Suitability of the formulated bio-based nanolubricants was also confirmed in terms of toxicity, corrosion resistance, and biodegradability.

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“…In recent years, the removal of C 2 H 5 SH has been extensively studied and some achievements have been made. The removal methods of C 2 H 5 SH include photocatalytic oxidation, 6 catalytic decomposition, 2 adsorption, 7,8 biodegradation, 9 adsorption/oxidation 4 and so on. Among these methods, adsorption combined with oxidation is considered to be an effective method for the removal of C 2 H 5 SH due to the mild desulfurization conditions, high desulfurization efficiency and low cost.…”

Section: Introductionmentioning

confidence: 99%