Publication detail

Advanced Modular and Integrated Equipment Design Trend in Waste-to-Energy Processes

FREISLEBEN, V. KRŇÁVEK, M. JEGLA, Z.

English title

Advanced Modular and Integrated Equipment Design Trend in Waste-to-Energy Processes

Type

journal article in Scopus

Language

en

Original abstract

Proper processing and management of various types of waste represent an important feature of a developed society. Thermal processing followed by heat utilization of waste (or Waste-to-Energy) provides an excellent solution to reduce environmental pollution, and simultaneously to maximize the financial profit. Following the current trend of energy decentralization by small energy sources, this paper presents several novel incineration-based technologies for processing solid and gaseous wastes. In the case of solid waste processing, the micro-incineration unit, called EVECONT, is presented as a modular advanced technology enabling environmentally-friendly and energy-efficient waste management in place of its origin. Subsequently, two industrial units for waste gas treatment are introduced in an up-to-date integrated design enabling the minimization of the built-up area and heat losses. Finally, an experimental unit based on Urea hydrolysis for NOx removal from flue gas is presented as a promising complementary technology to Waste-to-Energy processes.

English abstract

Proper processing and management of various types of waste represent an important feature of a developed society. Thermal processing followed by heat utilization of waste (or Waste-to-Energy) provides an excellent solution to reduce environmental pollution, and simultaneously to maximize the financial profit. Following the current trend of energy decentralization by small energy sources, this paper presents several novel incineration-based technologies for processing solid and gaseous wastes. In the case of solid waste processing, the micro-incineration unit, called EVECONT, is presented as a modular advanced technology enabling environmentally-friendly and energy-efficient waste management in place of its origin. Subsequently, two industrial units for waste gas treatment are introduced in an up-to-date integrated design enabling the minimization of the built-up area and heat losses. Finally, an experimental unit based on Urea hydrolysis for NOx removal from flue gas is presented as a promising complementary technology to Waste-to-Energy processes.

Keywords in English

Waste-to-Energy; modern integrated equipment; urea hydrolyzer; solid waste management; gaseous waste management; flue gas cleaning

Released

15.11.2021

ISSN

2283-9216

Volume

88

Number

1

Pages from–to

937–942

Pages count

6

BIBTEX


@article{BUT176132,
  author="Martin {Krňávek} and Vít {Freisleben} and Zdeněk {Jegla},
  title="Advanced Modular and Integrated Equipment Design Trend in Waste-to-Energy Processes ",
  year="2021",
  volume="88",
  number="1",
  month="November",
  pages="937--942",
  issn="2283-9216"
}