Detail publikace
Využití energie při zpracování průmyslových kalů
STEHLÍK, P. ORAL, J. ŠIKULA, J. PUCHÝŘ, R. HAJNÝ, Z. MARTINÁK, P.
Český název
Využití energie při zpracování průmyslových kalů
Anglický název
Energy Utilization from Industrial Sludge Processing
Typ
článek v časopise - ostatní, Jost
Jazyk
en
Originální abstrakt
Pulp and paper plants produce large amount of sludge. Environmental problems connected with this waste were not solved satisfactorily in the past. Since land filling is not a suitable solution from environmental point of view thermal treatment process proved itself to be the most appropriate solution. A unit for thermal treatment with capacity more than 100 tons of wet sludge per day had been built in one large pulp and paper plant some years ago, located in a mining area. When built, this unit was quite modern. However, because of an increasing number of more and more sweeping environmental laws affecting the process industry, the unit required a complete retrofit. The retrofit has been realized in three stages. The first stage provided mainly means to cut down the emissions below the limits given by environmental legislation. Second stage can be characterized as "waste to energy" one. The third stage of retrofit consisted in substituting the currently used fuel by mining gas. The unit for thermal treatment of sludge after retrofit can be considered as one of the most up-to-date incinerators with a waste-to-energy system at present. Economic profitability, positive environmental impact and other beneficial features of the retrofit are clearly shown.
Český abstrakt
Pulp and paper plants produce large amount of sludge. Environmental problems connected with this waste were not solved satisfactorily in the past. Since land filling is not a suitable solution from environmental point of view thermal treatment process proved itself to be the most appropriate solution. A unit for thermal treatment with capacity more than 100 tons of wet sludge per day had been built in one large pulp and paper plant some years ago, located in a mining area. When built, this unit was quite modern. However, because of an increasing number of more and more sweeping environmental laws affecting the process industry, the unit required a complete retrofit. The retrofit has been realized in three stages. The first stage provided mainly means to cut down the emissions below the limits given by environmental legislation. Second stage can be characterized as "waste to energy" one. The third stage of retrofit consisted in substituting the currently used fuel by mining gas. The unit for thermal treatment of sludge after retrofit can be considered as one of the most up-to-date incinerators with a waste-to-energy system at present. Economic profitability, positive environmental impact and other beneficial features of the retrofit are clearly shown.
Anglický abstrakt
Pulp and paper plants produce large amount of sludge. Environmental problems connected with this waste were not solved satisfactorily in the past. Since land filling is not a suitable solution from environmental point of view thermal treatment process proved itself to be the most appropriate solution. A unit for thermal treatment with capacity more than 100 tons of wet sludge per day had been built in one large pulp and paper plant some years ago, located in a mining area. When built, this unit was quite modern. However, because of an increasing number of more and more sweeping environmental laws affecting the process industry, the unit required a complete retrofit. The retrofit has been realized in three stages. The first stage provided mainly means to cut down the emissions below the limits given by environmental legislation. Second stage can be characterized as "waste to energy" one. The third stage of retrofit consisted in substituting the currently used fuel by mining gas. The unit for thermal treatment of sludge after retrofit can be considered as one of the most up-to-date incinerators with a waste-to-energy system at present. Economic profitability, positive environmental impact and other beneficial features of the retrofit are clearly shown.
Klíčová slova česky
kal, energetické yužití
Klíčová slova anglicky
Sludge, Energy Utilization
Rok RIV
2005
Vydáno
12.04.2005
ISSN
0360-5442
Časopis
Energy
Ročník
30
Číslo
4
Strany od–do
1343–1352
Počet stran
9
BIBTEX
@article{BUT46697,
author="Petr {Stehlík} and Jaroslav {Oral} and Jiří {Šikula} and Radim {Puchýř} and Zdeněk {Hajný} and Petr {Martinák},
title="Energy Utilization from Industrial Sludge Processing",
journal="Energy",
year="2005",
volume="30",
number="4",
month="April",
pages="1343--1352",
issn="0360-5442"
}