D
Dagmar Juchelková
Researcher at Technical University of Ostrava
Publications - 86
Citations - 1020
Dagmar Juchelková is an academic researcher from Technical University of Ostrava. The author has contributed to research in topics: Pyrolysis & Combustion. The author has an hindex of 16, co-authored 69 publications receiving 574 citations. Previous affiliations of Dagmar Juchelková include Southern Illinois University Carbondale.
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Biomass Energy: An Overview of Biomass Sources, Energy Potential, and Management in Southeast Asian Countries
TL;DR: In this paper, the authors presented an overview of biomass energy in the Southeast Asia countries to convey the environmental and economic benefits from the available biomass sources in the region, including fuelwood, wood residues, rice husk, rice straw, sugarcane residues, and coconut residues.
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Energy utilisation of biowaste — Sunflower-seed hulls for co-firing with coal
TL;DR: In this paper, a mixture of brown coal and sunflower-seed hulls (0-22% SSH) was co-firing in the Olomouc power plant to ensure that the required water-leachable sulphate concentrations are within regulatory limits.
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Drying methods for municipal solid waste quality improvement in the developed and developing countries: A review
Maw Maw Tun,Dagmar Juchelková +1 more
TL;DR: In this article, the authors highlighted the drying methods for municipal solid waste quality improvement around the world and compared them based on the reduction of moisture, weight and volume of municipal solid wastes against drying temperature and time by using statistical analysis.
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Properties of composts from household food waste produced in automatic composters.
Marek Kucbel,Helena Raclavská,Jana Růžičková,Barbora Švédová,Veronika Sassmanová,Jarmila Drozdova,Konstantin Raclavský,Dagmar Juchelková +7 more
TL;DR: The determination of properties of composts prepared from HFW in automatic composters and identification of differences compared with composts Prepared from a mixture of biodegradable green waste are determined.
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Enrichment and distribution of 24 elements within the sub-sieve particle size distribution ranges of fly ash from wastes incinerator plants.
TL;DR: The enrichment factor of individual elements varied considerably within the samples as well as the sub-sieve particle size ranges, and variations were attributed primarily to the vaporization and condensation mechanisms.