Chapter Feasibility study of a cold ironing system and district heating in port area

Cold ironing is a technology to reduce polluting emissions covering the energy demand of berthed ships in port to shut down their auxiliary engines. A feasibility study for the port of Ancona is proposed. A cogeneration plant provides electricity to ships, and the recovered heat waste is used in a d...

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Main Authors: Colarossi, Daniele, Principi, Paolo
Format: Online
Language:English
Published: Firenze University Press 2022
Subjects:
Online Access:ONIX_20220601_9788855181471_269
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author Colarossi, Daniele
Principi, Paolo
author_browse Colarossi, Daniele
Principi, Paolo
author_facet Colarossi, Daniele
Principi, Paolo
author_sort Colarossi, Daniele
collection Directory of Open Access Books
description Cold ironing is a technology to reduce polluting emissions covering the energy demand of berthed ships in port to shut down their auxiliary engines. A feasibility study for the port of Ancona is proposed. A cogeneration plant provides electricity to ships, and the recovered heat waste is used in a district heating network. Results show that a 1.5MW and 2MW cogenerator covers 83% and 92% of the electrical need of ships respectively, and 61% and 74% of the thermal need of the involved buildings over the analysed period. The scenarios have been economically evaluated and prove to be feasible.
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institution Directory of Open Access Books
language eng
publishDate 2022
publishDateRange 2022
publishDateSort 2022
publisher Firenze University Press
publisherStr Firenze University Press
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spelling doab-20.500.12854ir-827942022-06-02T04:17:36Z Chapter Feasibility study of a cold ironing system and district heating in port area Colarossi, Daniele Principi, Paolo reduction of air pollution energy storage cogeneration ships at berth cold ironing Cold ironing is a technology to reduce polluting emissions covering the energy demand of berthed ships in port to shut down their auxiliary engines. A feasibility study for the port of Ancona is proposed. A cogeneration plant provides electricity to ships, and the recovered heat waste is used in a district heating network. Results show that a 1.5MW and 2MW cogenerator covers 83% and 92% of the electrical need of ships respectively, and 61% and 74% of the thermal need of the involved buildings over the analysed period. The scenarios have been economically evaluated and prove to be feasible. 2022-06-02T04:17:35Z 2022-06-02T04:17:35Z 2022-06-01T12:13:13Z 2020 chapter ONIX_20220601_9788855181471_269 2704-5846 https://library.oapen.org/handle/20.500.12657/56086 9788855181471 https://directory.doabooks.org/handle/20.500.12854/82794 eng Proceedings e report open access image/jpeg Attribution 4.0 International https://library.oapen.org/bitstream/20.500.12657/56086/1/14829.pdf Firenze University Press 10.36253/978-88-5518-147-1.66 10.36253/978-88-5518-147-1.66 2ec4474d-93b1-4cfa-b313-9c6019b51b1a 9788855181471 10 Florence open access
spellingShingle reduction of air pollution
energy storage cogeneration ships at berth cold ironing
Colarossi, Daniele
Principi, Paolo
Chapter Feasibility study of a cold ironing system and district heating in port area
title Chapter Feasibility study of a cold ironing system and district heating in port area
title_full Chapter Feasibility study of a cold ironing system and district heating in port area
title_fullStr Chapter Feasibility study of a cold ironing system and district heating in port area
title_full_unstemmed Chapter Feasibility study of a cold ironing system and district heating in port area
title_short Chapter Feasibility study of a cold ironing system and district heating in port area
title_sort chapter feasibility study of a cold ironing system and district heating in port area
topic reduction of air pollution
energy storage cogeneration ships at berth cold ironing
topic_facet reduction of air pollution
energy storage cogeneration ships at berth cold ironing
url ONIX_20220601_9788855181471_269
work_keys_str_mv AT colarossidaniele chapterfeasibilitystudyofacoldironingsystemanddistrictheatinginportarea
AT principipaolo chapterfeasibilitystudyofacoldironingsystemanddistrictheatinginportarea