Oxidization of hydrogen sulfide in biogas by manganese (IV) oxide particles

Konkol, Izabela; Cebula, Jan; Cenian, Adam

doi:10.4491/eer.2019.343

Cited by 7 publications

(2 citation statements)

References 48 publications

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“…6, we conclude that the landfill site subject to our study presents stability with respect to the progression of the fermentation process, it also obeys calculated value by the LandGEM numerical model, and the ratio threshold indicated by the scientific literature. In addition to the components CH 4 , CO 2 and O 2 , H 2 S constitutes the component that causes corrosion for most metallic equipment such as pipelines, turbines, compressors, motors and other units, in addition to mechanical wear drastically increasing maintenance costs, and posing safety preoccupations and health problems at work by its dangerous characteristics as flammable, colorless, and extremely harmful, in addition, the recommended limit value according by the scientific literature being 1000 ppm [27,28,29].…”

Section: Resultsmentioning

confidence: 99%

Modeling and optimization of controlled landfill gas performance using LandGEM

DRISSI EL BOUZAIDI,

OUAZZANI

2024

Stat., optim. inf. comput.

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Modeling with LandGEM offers a large field to quantify emissions from the decomposition of organic waste, consequently prediction of energy generated from gas emissions especially those of methane. Where, the simulation results makes it possible to define the reasons of malfunction concluded by comparing between the LandGEM simulation and the experimental methodology for estimation of methane gas emissions, whose offer a huge knowing, accuracy assessment, and detailed analysis to landfill site state in terms of the production of methane, the tightness, the progress of the anaerobic degradation, the existence of sulfur compound. This study accomplished in site the methane production at 80%, a tightness of 84% compared to the 100% given by LandGEM, and an hydrogen sulfide content which far exceed the recommended limit, cause of corrosion attacking especially the biogas compressor which provoke a complete shutdown to product the electrical energy. Unlike the LandGEM digital model, whose site must produce 3,145.107 m3 of methane with 100% site tightness, a hydrogen sulfide content equivalent to 40 ppm, for a production of electrical energy equivalent to 10,941.107kWh according to the year ‘2022’. To optimizing landfill gas performance, we forecast the installation of automatic analyzer sensors to anticipate of an alert for intervention, generated by accidental loss of methane in the air, infiltration of oxygen inside the lockers, disruption of the stability of the fermentation process, or existence of high sulfur contents in organic matter.

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Section: Resultsmentioning

confidence: 99%

Modeling and optimization of controlled landfill gas performance using LandGEM

DRISSI EL BOUZAIDI,

OUAZZANI

2024

Stat., optim. inf. comput.

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“…The amount of the formalities associated with micro-scale activities, just as in the case of much more complex and significant projects, has been largely discouraging officials from undertaking any initiatives that would support the residents' property modernization activity. In spite of these problems series of Baltic Sea Region (BSR) and South Baltic Programs (SBP) projects contributed significantly to energy transition issues in cities and rural areas in Pomerania Region, e.g., LowTEMP: Low Temperature District Heating for the Baltic Sea Region, Act Now: Action for Energy Efficiency in Baltic Cities and BP: Bioenergy Promotion (Krug et al, 2015;Cenian et al, 2019;Pakere et al, 2018;Feofilovs et al, 2019;Konkol et al, 2020).…”

Section: Energy Transition Under Polish Settingsmentioning

confidence: 99%

Energy Transition in the Baltic Sea Region

Karimi¹,

Rodi²

2022

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The climate urgency requires us to transition to an efficient, renewables based economy as soon as possible. This book is a welcome and timely contribution to the energy transition policy discourse in the Baltic Sea region. I am sure the experiences and best practices from across cities, regions and states will inspire action far beyond the region."Krista Mikkonen, Minister of the Environment and Climate Change of Finland "We already know that decarbonizing our economies at the pace and scale called for by climate science will face unprecedented obstacles. Increasingly, however, we are discovering that the greatest obstacle may not be a dearth of technological solutions or finance, but one of public opinion: whether expressed in the form of localised resistance against renewable energy projects or rejection of national climate action by a wavering electorate, lacking social acceptance threatens to undermine progress towards the necessary energy transition. Drawing on a region that offers pioneering insights, the diverse group of authors represented in this book offers a unique perspective and valuable lessons on perhaps the most intractable climate policy challenge yet."

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