Jan Koloničný scite author profile

Jan Koloničný

5Publications

12Citation Statements Received

36Citation Statements Given

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Affiliations

Technical University of Ostrava, Physical Technical Testing Institute

Publications

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Effects of the type of biomass and ashing temperature on the properties of solid fuel ashes

Horák

Kuboňová

Dej

et al. 2019

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Ashes were prepared by annealing selected types of solid fuels (biomass: corn cobs, sunflower husks, olive pomace, hay pellets and rice husks; coal: lignite and bituminous; and alternative fuel: paper sludge) at different temperatures (550°C, 815°C and 975°C). Based on X-ray fluorescence spectra, the slagging/fouling indexes were used to study the effects of the type of ash and the ashing temperature on the ash fouling and slagging properties. Slagging indexes were compared with the ash fusion temperatures. Ash fusion temperatures were measured by a LECO AF-700. The lowest deformation temperature (below 1000°C) was seen for the ashes prepared from hay pellets and corn cobs. On the other hand, the deformation temperature exceeded 1500°C for ashes prepared from paper sludge, sunflower husks and rice husks. By calculating the different slagging/fouling indexes, all the ashes exhibited slagging/fouling problems of varying degrees.

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A Comparison of PAH Emission Sampling Methods (Cyclone, Impactor) in Particulate and Gaseous Phase

Horák

Kuboňová

Krpec

et al. 2018

Aerosol Air Qual. Res.

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Four different domestic heating boilers and four types of fuel (lignite, wet wood, wood pellets and mixed fuel) were tested, and the emissions of the particulate matter (PM) and polycyclic aromatic hydrocarbons (PAHs) were correlated. Dekati low-pressure impactor (DLPI, Dekati) sorting of the PM fractions into PM 0.1 , PM 1 , PM 2.5 and PM 10 was used to determine the emission factors of the PAHs in a dilution tunnel via isokinetic sampling and was compared with a cyclone (Tecora). The 4 PAHs were mostly detected on the fine particles of PM 1 in the DLPI and on the fine particles of PM 2.5 in the cyclone, and in some cases, they were mainly detected in polyurethane foam (PUF) used for the collection of the gas phase placed behind the DLPI and cyclone. The effectiveness of DLPI sampling was generally comparable or lower than the cyclone sampling of the range 0.01-1.33 mg kg -1 .

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Charakterystyka eksplozji gazu syntezowego z procesu zgazowania

Skřínský

Vereš

Čespiva

et al. 2020

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Artykuł opisuje serię eksperymentów wykonanych w celu zbadania parametrów eksplozji gazu syntezowego oraz jego części palnychw mieszaninie z powietrzem. Więcej niż 100 krzywych w układzie ciśnienie-czas zostało zarejestrowanych pozwalając na zbadanieefektów trzech różnych warunków procesu zgazowania przy maksymalnym ciśnieniu eksplozji i wskaźniku deflagracji. Reprezentatywne próbki gazu syntezowego zostały przygotowane za pomocą zgazowania termochemicznego drewnianych granulek. Eksperymenty zostały wykonane w podgrzewanej olejem instalacji o kształcie sferycznym, której objętość wynosiła 20 Li wykorzystanazostała dla różnych stężeń oraz reprezentatywnej temperatury wstępnej na poziomie 65°C. Wyniki doświadczalne były następnieporównane z parametrami wybuchu czystych gazów, którymi były wodór, metan, tlenek węgla oraz propan, jako główne składnikigazu syntezowego. Najważniejszymi wynikami okazały się maksymalne wartości ciśnienia wynoszące 7,2 ± 0,2 barów oraz wskaźnikdeflagracji na poziomie 170 ± 14 bar.m/s wyznaczony dla warunków startowych procesu. Informacje te mogą zostać wykorzystanew celu zrozumienia wpływu warunków operacyjnych dla optymalizacji zastosowań gazu syntezowego oraz strategii bezpieczeństwazwiązanego z jego wykorzystaniem.

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Dependence the amount of combustion air and its redistribution to primary and secondary combustion air and his depending on the boiler

Papučík¹,

Lenhard²,

Kadúchová³

et al. 2014

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The production of solid pollutants is affected by several influences. The amount of combustion air and its redistribution to primary and secondary combustion air. The experimental device, what which has been examined the amount of the combustion air on the production of the solid pollutants, methods of measurement, measurements results and analysis of the results obtained will be described in the papers.

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Emission of nanoparticles during combustion of waste biomass in fireplace

Drastichová¹,

Krpec²,

Horák³

et al. 2014

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Jan Koloničný

Effects of the type of biomass and ashing temperature on the properties of solid fuel ashes

A Comparison of PAH Emission Sampling Methods (Cyclone, Impactor) in Particulate and Gaseous Phase

Charakterystyka eksplozji gazu syntezowego z procesu zgazowania

Dependence the amount of combustion air and its redistribution to primary and secondary combustion air and his depending on the boiler

Emission of nanoparticles during combustion of waste biomass in fireplace

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