Life cycle assessment of the wave energy converter: Wave Dragon

Publication: ResearchPoster – Annual report year: 2007

Standard

Life cycle assessment of the wave energy converter: Wave Dragon. / Hans Chr., Sørensen; Stefan, Naef; Stefan, Anderberg; Hauschild, Michael Zwicky.

2007. Poster session presented at Conference in Bremerhaven, .

Publication: ResearchPoster – Annual report year: 2007

Harvard

Hans Chr., S, Stefan, N, Stefan, A & Hauschild, MZ 2007, 'Life cycle assessment of the wave energy converter: Wave Dragon' Conference in Bremerhaven, 01/01/07,

APA

Hans Chr., S., Stefan, N., Stefan, A., & Hauschild, M. Z. (2007). Life cycle assessment of the wave energy converter: Wave Dragon. Poster session presented at Conference in Bremerhaven, .

CBE

Hans Chr. S, Stefan N, Stefan A, Hauschild MZ. 2007. Life cycle assessment of the wave energy converter: Wave Dragon. Poster session presented at Conference in Bremerhaven, .

MLA

Vancouver

Hans Chr. S, Stefan N, Stefan A, Hauschild MZ. Life cycle assessment of the wave energy converter: Wave Dragon. 2007. Poster session presented at Conference in Bremerhaven, .

Author

Hans Chr., Sørensen; Stefan, Naef; Stefan, Anderberg; Hauschild, Michael Zwicky / Life cycle assessment of the wave energy converter: Wave Dragon.

2007. Poster session presented at Conference in Bremerhaven, .

Publication: ResearchPoster – Annual report year: 2007

Bibtex

@misc{a4dfd0361c3840caa8e19d2630b96c42,
title = "Life cycle assessment of the wave energy converter: Wave Dragon",
author = "{Hans Chr.}, Sørensen and Naef Stefan and Anderberg Stefan and Hauschild, {Michael Zwicky}",
year = "2007",
type = "ConferencePaper <importModel: ConferenceImportModel>",

}

RIS

TY - CONF

T1 - Life cycle assessment of the wave energy converter: Wave Dragon

A1 - Hans Chr.,Sørensen

A1 - Stefan,Naef

A1 - Stefan,Anderberg

A1 - Hauschild,Michael Zwicky

AU - Hans Chr.,Sørensen

AU - Stefan,Naef

AU - Stefan,Anderberg

AU - Hauschild,Michael Zwicky

PY - 2007

Y1 - 2007

N2 - Any power production technology should be able to demonstrate that it's able to comply with current and future environmental regulation and that it demonstrates a considerable surplus in the energy balance being a part of the entire power system. This means that the energy used throughout all the lifecycle stages; from provision of materials over manufacturing of components and assembly, to deployment and use and eventually the disposal stage, is considerably less than the energy produced by the devise during its use/production stage.

AB - Any power production technology should be able to demonstrate that it's able to comply with current and future environmental regulation and that it demonstrates a considerable surplus in the energy balance being a part of the entire power system. This means that the energy used throughout all the lifecycle stages; from provision of materials over manufacturing of components and assembly, to deployment and use and eventually the disposal stage, is considerably less than the energy produced by the devise during its use/production stage.

ER -