J. Bieniek scite author profile

Carbon monoxide (CO) is an air pollutant commonly formed during natural and anthropogenic processes involving incomplete combustion. Much less is known about biological CO production during the decomposition of the organic fraction (OF), especially originating from municipal solid waste (MSW), e.g., during the aerobic biostabilization (AB) process. In this dataset, we summarized the temperature and the content of process gases (including rarely reported carbon monoxide, CO) generated inside full-scale AB of an organic fraction of municipal solid waste (OFMSW) reactor. The objective of the study was to present the data of the fluctuation of CO content as well as that of O 2 , CO 2 , and CH 4 in process gas within the waste pile, during the AB of the OFMSW. The OFMSW was aerobically biostabilized in six reactors, in which the technological regimes of AB were dependent on process duration (42-69 days), waste mass (391.02-702.38 Mg), the intensity of waste aeration (4.4-10.7 m 3 ·Mg −1 ·h −1 ), reactor design (membrane-covered reactor or membrane-covered reactor with sidewalls) and thermal conditions in the reactor (20.2-77.0 • C). The variations in the degree of waste aeration (O 2 content), temperature, and fluctuation of CO, CO 2 , and CH 4 content during the weekly measurement intervals were summarized. Despite a high O 2 content in all reactors and stable thermal conditions, the presence of CO in process gas was observed, which suggests that ensuring optimum conditions for the process is not sufficient for CO emissions to be mitigated. In the analyzed experiment, CO concentration was highly variable over the duration of the process, ranging from a few to over 1,500 ppm. The highest concentration of CO was observed between the second and fifth weeks of the test. The reactor B2 was the source of the highest CO production and average highest temperature. This study suggests that the highest CO productions occur at the highest temperature, which is why the authors believe that CO production has thermochemical foundations.

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Kinetics of Biotic and Abiotic CO Production during the Initial Phase of Biowaste Composting

Stegenta-Dąbrowska

Sobieraj

Kozieł

et al. 2020

Energies

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Knowledge of kinetic parameters of CO production during biowaste composting is significantly important for the prediction of its course and estimation of total gas quantity. This allows increasing the control of the process, to minimize its negative impact on the environment and to protect the occupational safety of employees exposed to CO in the biowaste composting plant. For the first time, a full study of the influence of temperature and biowaste sterilization on the kinetics of CO production is presented. The lab-scale experiments used a mixture of green waste, dairy cattle manure, and sawdust in two variants: sterilized and non-sterilized samples. The process was carried out in controlled temperature reactors with measuring the concentrations of CO, O2, and CO2 every 12 h.CO production and k value increased with temperature. However, higher CO production was observed in biotic conditions between 10~50 °C, suggesting the biotic CO formation and 1st-order kinetics. The abiotic (thermochemical) process was more efficiently generating CO above 50 °C, described with a 0-order kinetic model. Additionally, the rate constant (k) value of CO production under biotic conditions was increasing up to a temperature of 60 °C, above which a slight decrease in CO production rate was observed at 70 °C. The presented results are the basis for further studies focused on the feasibility of (1) the mitigation and (2) valorization of CO production during the biowaste biostabilization are warranted.

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Operational tests of a dual-rotor mini wind turbine

Romański¹,

Bieniek²,

Komarnicki³

et al. 2016

EiN

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The article presents the results of wind-tunnel tests and field studies of a mini dual-rotor wind turbine. The first stage involved testing of an open-circuit wind tunnel built with the aim of performing laboratory tests. The coefficient of uneven air stream disRomAński L, Bieniek J, komARnicki P, DęBowski m, DeTynA J. operational tests of a dual-rotor mini wind turbine. eksploatacja i niezawodnosc -maintenance and Reliability 2016; 18 (2): 201-209, http://dx

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Estimation of operational parameters of the counter-rotating wind turbine with artificial neural networks

Romański

Bieniek

Komarnicki

et al. 2017

Archives of Civil and Mechanical Engineering

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Methods of statistical modeling in the process of sieve separation of heterogeneous particles

Detyna

Bieniek

2008

Applied Mathematical Modelling

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J. Bieniek

The Fluctuation of Process Gasses Especially of Carbon Monoxide during Aerobic Biostabilization of an Organic Fraction of Municipal Solid Waste under Different Technological Regimes

Kinetics of Biotic and Abiotic CO Production during the Initial Phase of Biowaste Composting

Operational tests of a dual-rotor mini wind turbine

Estimation of operational parameters of the counter-rotating wind turbine with artificial neural networks

Methods of statistical modeling in the process of sieve separation of heterogeneous particles

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