Publication detail

Advancing sustainability in forestry machinery: Electro-Hybrid drives for greenhouse gas reduction and enhanced energy efficiency

MERGL, V. ZEIZINGER, L. KOMÁNEK, M.

English title

Advancing sustainability in forestry machinery: Electro-Hybrid drives for greenhouse gas reduction and enhanced energy efficiency

Type

journal article in Web of Science

Language

en

Original abstract

This article deals with the possibility of reducing greenhouse gas emissions and fuel consumption in machines using cut-to-length (CTL) technology with the help of electro-hybrid systems. The text discusses the individual components of these systems. Furthermore, the article contains technical solutions for current electro-hybrid drive systems of harvesters, forwarders and forwarding trailers, including their description and available parameters. The current technical and technological development of electro-hybrid drive systems and their components leads to a significant improvement in the performance of drives of the new generation of CTL machines and to higher energy efficiency. Thanks to this, the use of electro-hybrid drive systems in these machines could significantly reduce greenhouse gas emissions as well as operating costs.

English abstract

This article deals with the possibility of reducing greenhouse gas emissions and fuel consumption in machines using cut-to-length (CTL) technology with the help of electro-hybrid systems. The text discusses the individual components of these systems. Furthermore, the article contains technical solutions for current electro-hybrid drive systems of harvesters, forwarders and forwarding trailers, including their description and available parameters. The current technical and technological development of electro-hybrid drive systems and their components leads to a significant improvement in the performance of drives of the new generation of CTL machines and to higher energy efficiency. Thanks to this, the use of electro-hybrid drive systems in these machines could significantly reduce greenhouse gas emissions as well as operating costs.

Keywords in English

CTL (cut-to-length) technology; harvester; forwarder; hybridization; emissions; fuel consumption

Released

01.03.2024

Publisher

SCIENDO

Location

WARSAW

ISSN

2454-034X

Volume

70

Number

1

Pages from–to

41–50

Pages count

10

BIBTEX


@article{BUT186808,
  author="Václav {Mergl} and Lukáš {Zeizinger},
  title="Advancing sustainability in forestry machinery: Electro-Hybrid drives for greenhouse gas reduction and enhanced energy efficiency",
  year="2024",
  volume="70",
  number="1",
  month="March",
  pages="41--50",
  publisher="SCIENDO",
  address="WARSAW",
  issn="2454-034X"
}