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description Publicationkeyboard_double_arrow_right Article , Other literature type 2020Publisher:Copernicus GmbH Funded by:EC | METLAKE, EC | VERIFY, EC | IMBALANCE-P +4 projectsEC| METLAKE ,EC| VERIFY ,EC| IMBALANCE-P ,EC| CHE ,RCN| Integrated Carbon Observation System (ICOS)-Norway and Ocean Thematic Centre (OTC) ,EC| VISUALMEDIA ,AKA| Novel soil management practices - key for sustainable bioeconomy and climate change mitigation -SOMPA / Consortium: SOMPAAuthors:Ana Maria Roxana Petrescu;
Ana Maria Roxana Petrescu
Ana Maria Roxana Petrescu in OpenAIREChunjing Qiu;
Philippe Ciais;Chunjing Qiu
Chunjing Qiu in OpenAIRERona L. Thompson;
+35 AuthorsRona L. Thompson
Rona L. Thompson in OpenAIREAna Maria Roxana Petrescu;
Ana Maria Roxana Petrescu
Ana Maria Roxana Petrescu in OpenAIREChunjing Qiu;
Philippe Ciais;Chunjing Qiu
Chunjing Qiu in OpenAIRERona L. Thompson;
Philippe Peylin;Rona L. Thompson
Rona L. Thompson in OpenAIREMatthew J. McGrath;
Matthew J. McGrath
Matthew J. McGrath in OpenAIREEfisio Solazzo;
Greet Janssens‐Maenhout;Efisio Solazzo
Efisio Solazzo in OpenAIREFrancesco N. Tubiello;
Francesco N. Tubiello
Francesco N. Tubiello in OpenAIREP. Bergamaschi;
D. Brunner; Glen P. Peters; L. Höglund-Isaksson;P. Bergamaschi
P. Bergamaschi in OpenAIREPierre Regnier;
Pierre Regnier
Pierre Regnier in OpenAIRERonny Lauerwald;
Ronny Lauerwald
Ronny Lauerwald in OpenAIREDavid Bastviken;
David Bastviken
David Bastviken in OpenAIREAki Tsuruta;
Aki Tsuruta
Aki Tsuruta in OpenAIREWilfried Winiwarter;
Wilfried Winiwarter
Wilfried Winiwarter in OpenAIREPrabir K. Patra;
Prabir K. Patra
Prabir K. Patra in OpenAIREMatthias Kuhnert;
Gabriel D. Orregioni;Matthias Kuhnert
Matthias Kuhnert in OpenAIREMonica Crippa;
Monica Crippa
Monica Crippa in OpenAIREMarielle Saunois;
Lucia Perugini;Marielle Saunois
Marielle Saunois in OpenAIRETiina Markkanen;
Tiina Markkanen
Tiina Markkanen in OpenAIRETuula Aalto;
Tuula Aalto
Tuula Aalto in OpenAIREChristine Groot Zwaaftink;
Christine Groot Zwaaftink
Christine Groot Zwaaftink in OpenAIREYuanzhi Yao;
Yuanzhi Yao
Yuanzhi Yao in OpenAIREChris Wilson;
Chris Wilson
Chris Wilson in OpenAIREGiulia Conchedda;
Dirk Günther;Giulia Conchedda
Giulia Conchedda in OpenAIREAdrian Leip;
Adrian Leip
Adrian Leip in OpenAIREPete Smith;
Jean‐Matthieu Haussaire;Pete Smith
Pete Smith in OpenAIREAntti Leppänen;
Alistair J. Manning;Antti Leppänen
Antti Leppänen in OpenAIREJoe McNorton;
Patrick Brockmann; A.J. Dolman;Joe McNorton
Joe McNorton in OpenAIREAbstract. Reliable quantification of the sources and sinks of greenhouse gases, together with trends and uncertainties, is essential to monitoring the progress in mitigating anthropogenic emissions under the Paris Agreement. This study provides a consolidated synthesis of CH4 and N2O emissions with consistently derived state-of-the-art bottom-up (BU) and top-down (TD) data sources for the European Union and UK (EU27+UK). We integrate recent emission inventory data, ecosystem process-based model results, and inverse modelling estimates over the period 1990–2018. BU and TD products are compared with European National GHG Inventories (NGHGI) reported to the UN climate convention secretariat UNFCCC in 2019. For uncertainties, we used for NGHGI the standard deviation obtained by varying parameters of inventory calculations, reported by the Member States following the IPCC guidelines recommendations. For atmospheric inversion models (TD) or other inventory datasets (BU), we defined uncertainties from the spread between different model estimates or model specific uncertainties when reported. In comparing NGHGI with other approaches, a key source of bias is the activities included, e.g. anthropogenic versus anthropogenic plus natural fluxes. In inversions, the separation between anthropogenic and natural emissions is sensitive to the geospatial prior distribution of emissions. Over the 2011–2015 period, which is the common denominator of data availability between all sources, the anthropogenic BU approaches are directly comparable, reporting mean emissions of 20.8 Tg CH4 yr−1 (EDGAR v5.0) and 19.0 Tg CH4 yr−1 (GAINS), consistent with the NGHGI estimates of 18.9 ± 1.7 Tg CH4 yr−1. TD total inversions estimates give higher emission estimates, as they also include natural emissions. Over the same period regional TD inversions with higher resolution atmospheric transport models give a mean emission of 28.8 Tg CH4 yr−1. Coarser resolution global TD inversions are consistent with regional TD inversions, for global inversions with GOSAT satellite data (23.3 Tg CH4yr−1) and surface network (24.4 Tg CH4 yr−1). The magnitude of natural peatland emissions from the JSBACH-HIMMELI model, natural rivers and lakes emissions and geological sources together account for the gap between NGHGI and inversions and account for 5.2 Tg CH4 yr−1. For N2O emissions, over the 2011–2015 period, both BU approaches (EDGAR v5.0 and GAINS) give a mean value of anthropogenic emissions of 0.8 and 0.9 Tg N2O yr−1 respectively, agreeing with the NGHGI data (0.9 ± 0.6 Tg N2O yr−1). Over the same period, the average of the three total TD global and regional inversions was 1.3 ± 0.4 and 1.3 ± 0.1 Tg N2O yr−1 respectively, compared to 0.9 Tg N2O yr−1 from the BU data. The TU and BU comparison method defined in this study can be operationalized for future yearly updates for the calculation of CH4 and N2O budgets both at EU+UK scale and at national scale. The referenced datasets related to figures are visualized at https://doi.org/10.5281/zenodo.4288969 (Petrescu et al., 2020).
https://doi.org/10.5... arrow_drop_down https://doi.org/10.5194/essd-2...Article . 2020 . Peer-reviewedLicense: CC BYData sources: Crossrefadd ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.All Research productsarrow_drop_down <script type="text/javascript"> <!-- document.write('<div id="oa_widget"></div>'); document.write('<script type="text/javascript" src="https://beta.openaire.eu/index.php?option=com_openaire&view=widget&format=raw&projectId=10.5194/essd-2020-367&type=result"></script>'); --> </script>
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more_vert https://doi.org/10.5... arrow_drop_down https://doi.org/10.5194/essd-2...Article . 2020 . Peer-reviewedLicense: CC BYData sources: Crossrefadd ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.All Research productsarrow_drop_down <script type="text/javascript"> <!-- document.write('<div id="oa_widget"></div>'); document.write('<script type="text/javascript" src="https://beta.openaire.eu/index.php?option=com_openaire&view=widget&format=raw&projectId=10.5194/essd-2020-367&type=result"></script>'); --> </script>
For further information contact us at helpdesk@openaire.euResearch data keyboard_double_arrow_right Dataset 2023Publisher:Zenodo Authors:Stoico, Vincenzo;
Stoico, Vincenzo
Stoico, Vincenzo in OpenAIRECortellessa, Vittorio;
Cortellessa, Vittorio
Cortellessa, Vittorio in OpenAIREMalavolta, Ivano;
Malavolta, Ivano
Malavolta, Ivano in OpenAIREDi Pompeo, Daniele;
+2 AuthorsDi Pompeo, Daniele
Di Pompeo, Daniele in OpenAIREStoico, Vincenzo;
Stoico, Vincenzo
Stoico, Vincenzo in OpenAIRECortellessa, Vittorio;
Cortellessa, Vittorio
Cortellessa, Vittorio in OpenAIREMalavolta, Ivano;
Malavolta, Ivano
Malavolta, Ivano in OpenAIREDi Pompeo, Daniele;
Di Pompeo, Daniele
Di Pompeo, Daniele in OpenAIREPomante, Luigi;
Pomante, Luigi
Pomante, Luigi in OpenAIRELago, Patricia;
Lago, Patricia
Lago, Patricia in OpenAIREReplication package of the paper titled "An approach using performance models for supporting energy analysis of software systems". Usage instructions are contained in the README.md file.
add ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.This Research product is the result of merged Research products in OpenAIRE.
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more_vert add ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.This Research product is the result of merged Research products in OpenAIRE.
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For further information contact us at helpdesk@openaire.eudescription Publicationkeyboard_double_arrow_right Article , Journal 2018Publisher:Elsevier BV Authors:Joan Carles Bruno;
Joan Carles Bruno
Joan Carles Bruno in OpenAIRELuca Urbanucci;
Daniele Testi;Luca Urbanucci
Luca Urbanucci in OpenAIREAbstract The combined production of electricity, heat and cold by a polygeneration system connected to a district heating and cooling network can provide high energy utilization efficiency. The inherent complexity of simultaneous production of different services and the high variability in the energy demand make combined cooling and heating systems performance highly dependent on the operational strategy. In this paper, an operational optimization method based on the moving average of real-time measurements of energy demands and ambient conditions is proposed. Real energy demand data from a district heating and cooling network close to Barcelona, Spain, are used to test the method. A complex polygeneration system is considered, consisting of an internal combustion engine, a double-effect absorption chiller, an electric chiller, a boiler and a cooling tower. A detailed modelling of the system is provided, considering partial load behavior of the components and ambient conditions effects. Results of the real-time optimal management are discussed and compared to traditional operational strategies and to the ideal optimal management achievable with perfectly accurate forecast of energy demands. Moreover, the optimal width of the window adopted for the moving average of real-time data is identified.
Energy Conversion an... arrow_drop_down Energy Conversion and ManagementArticle . 2018 . Peer-reviewedLicense: Elsevier TDMData sources: Crossrefadd ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.All Research productsarrow_drop_down <script type="text/javascript"> <!-- document.write('<div id="oa_widget"></div>'); document.write('<script type="text/javascript" src="https://beta.openaire.eu/index.php?option=com_openaire&view=widget&format=raw&projectId=10.1016/j.enconman.2018.05.076&type=result"></script>'); --> </script>
For further information contact us at helpdesk@openaire.euAccess RoutesGreen bronze 19 citations 19 popularity Top 10% influence Top 10% impulse Top 10% Powered by BIP!
more_vert Energy Conversion an... arrow_drop_down Energy Conversion and ManagementArticle . 2018 . Peer-reviewedLicense: Elsevier TDMData sources: Crossrefadd ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.All Research productsarrow_drop_down <script type="text/javascript"> <!-- document.write('<div id="oa_widget"></div>'); document.write('<script type="text/javascript" src="https://beta.openaire.eu/index.php?option=com_openaire&view=widget&format=raw&projectId=10.1016/j.enconman.2018.05.076&type=result"></script>'); --> </script>
For further information contact us at helpdesk@openaire.eudescription Publicationkeyboard_double_arrow_right Article , Other literature type 2024Publisher:American Association for the Advancement of Science (AAAS) Authors:Madalina Vlasceanu;
Madalina Vlasceanu
Madalina Vlasceanu in OpenAIREKimberly C. Doell;
Kimberly C. Doell
Kimberly C. Doell in OpenAIREJoseph B. Bak-Coleman;
Joseph B. Bak-Coleman
Joseph B. Bak-Coleman in OpenAIREBoryana Todorova;
+196 AuthorsBoryana Todorova
Boryana Todorova in OpenAIREMadalina Vlasceanu;
Madalina Vlasceanu
Madalina Vlasceanu in OpenAIREKimberly C. Doell;
Kimberly C. Doell
Kimberly C. Doell in OpenAIREJoseph B. Bak-Coleman;
Joseph B. Bak-Coleman
Joseph B. Bak-Coleman in OpenAIREBoryana Todorova;
Michael M. Berkebile-Weinberg;Boryana Todorova
Boryana Todorova in OpenAIRESamantha J. Grayson;
Samantha J. Grayson
Samantha J. Grayson in OpenAIREYash Patel;
Yash Patel
Yash Patel in OpenAIREDanielle Goldwert;
Yifei Pei; Alek Chakroff;Danielle Goldwert
Danielle Goldwert in OpenAIREEkaterina Pronizius;
Karlijn L. van den Broek;Ekaterina Pronizius
Ekaterina Pronizius in OpenAIREDenisa Vlasceanu;
Denisa Vlasceanu
Denisa Vlasceanu in OpenAIRESara Constantino;
Sara Constantino
Sara Constantino in OpenAIREMichael J. Morais;
Michael J. Morais
Michael J. Morais in OpenAIREPhilipp Schumann;
Steve Rathje;Philipp Schumann
Philipp Schumann in OpenAIREKe Fang;
Salvatore Maria Aglioti;
Salvatore Maria Aglioti
Salvatore Maria Aglioti in OpenAIREMark Alfano;
Mark Alfano
Mark Alfano in OpenAIREAndy J. Alvarado-Yepez;
Andy J. Alvarado-Yepez
Andy J. Alvarado-Yepez in OpenAIREAngélica Andersen;
Angélica Andersen
Angélica Andersen in OpenAIREFrederik Anseel;
Frederik Anseel
Frederik Anseel in OpenAIREMatthew A. J. Apps;
Matthew A. J. Apps
Matthew A. J. Apps in OpenAIREChillar Asadli;
Fonda Jane Awuor;Chillar Asadli
Chillar Asadli in OpenAIREFlavio Azevedo;
Piero Basaglia;Flavio Azevedo
Flavio Azevedo in OpenAIREJocelyn J. Bélanger;
Jocelyn J. Bélanger
Jocelyn J. Bélanger in OpenAIRESebastian Berger;
Sebastian Berger
Sebastian Berger in OpenAIREPaul Bertin;
Paul Bertin
Paul Bertin in OpenAIREMichał Białek;
Michał Białek
Michał Białek in OpenAIREOlga Bialobrzeska;
Olga Bialobrzeska
Olga Bialobrzeska in OpenAIREMichelle Blaya-Burgo;
Michelle Blaya-Burgo
Michelle Blaya-Burgo in OpenAIREDaniëlle N. M. Bleize;
Daniëlle N. M. Bleize
Daniëlle N. M. Bleize in OpenAIRESimen Bø;
Simen Bø
Simen Bø in OpenAIRELea Boecker;
Lea Boecker
Lea Boecker in OpenAIREPaulo S. Boggio;
Paulo S. Boggio
Paulo S. Boggio in OpenAIRESylvie Borau;
Sylvie Borau
Sylvie Borau in OpenAIREBjörn Bos;
Björn Bos
Björn Bos in OpenAIREAyoub Bouguettaya;
Ayoub Bouguettaya
Ayoub Bouguettaya in OpenAIREMarkus Brauer;
Markus Brauer
Markus Brauer in OpenAIRECameron Brick;
Cameron Brick
Cameron Brick in OpenAIRETymofii Brik;
Tymofii Brik
Tymofii Brik in OpenAIRERoman Briker;
Roman Briker
Roman Briker in OpenAIRETobias Brosch;
Tobias Brosch
Tobias Brosch in OpenAIREOndrej Buchel;
Ondrej Buchel
Ondrej Buchel in OpenAIREDaniel Buonauro;
Daniel Buonauro
Daniel Buonauro in OpenAIRERadhika Butalia;
Radhika Butalia
Radhika Butalia in OpenAIREHéctor Carvacho;
Héctor Carvacho
Héctor Carvacho in OpenAIRESarah A. E. Chamberlain;
Sarah A. E. Chamberlain
Sarah A. E. Chamberlain in OpenAIREHang-Yee Chan;
Hang-Yee Chan
Hang-Yee Chan in OpenAIREDawn Chow;
Dawn Chow
Dawn Chow in OpenAIREDongil Chung;
Dongil Chung
Dongil Chung in OpenAIRELuca Cian;
Luca Cian
Luca Cian in OpenAIRENoa Cohen-Eick;
Noa Cohen-Eick
Noa Cohen-Eick in OpenAIRELuis Sebastian Contreras-Huerta;
Luis Sebastian Contreras-Huerta
Luis Sebastian Contreras-Huerta in OpenAIREDavide Contu;
Davide Contu
Davide Contu in OpenAIREVladimir Cristea;
Vladimir Cristea
Vladimir Cristea in OpenAIREJo Cutler;
Silvana D'Ottone;Jo Cutler
Jo Cutler in OpenAIREJonas De Keersmaecker;
Jonas De Keersmaecker
Jonas De Keersmaecker in OpenAIRESarah Delcourt;
Sarah Delcourt
Sarah Delcourt in OpenAIRESylvain Delouvée;
Sylvain Delouvée
Sylvain Delouvée in OpenAIREKathi Diel;
Benjamin D. Douglas;Kathi Diel
Kathi Diel in OpenAIREMoritz A. Drupp;
Moritz A. Drupp
Moritz A. Drupp in OpenAIREShreya Dubey;
Shreya Dubey
Shreya Dubey in OpenAIREJānis Ekmanis;
Jānis Ekmanis
Jānis Ekmanis in OpenAIREChristian T. Elbaek;
Christian T. Elbaek
Christian T. Elbaek in OpenAIREMahmoud Elsherif;
Iris M. Engelhard;Mahmoud Elsherif
Mahmoud Elsherif in OpenAIREYannik A. Escher;
Yannik A. Escher
Yannik A. Escher in OpenAIRETom W. Etienne;
Tom W. Etienne
Tom W. Etienne in OpenAIRELaura Farage;
Laura Farage
Laura Farage in OpenAIREAna Rita Farias;
Ana Rita Farias
Ana Rita Farias in OpenAIREStefan Feuerriegel;
Stefan Feuerriegel
Stefan Feuerriegel in OpenAIREAndrej Findor;
Andrej Findor
Andrej Findor in OpenAIRELucia Freira;
Lucia Freira
Lucia Freira in OpenAIREMalte Friese;
Malte Friese
Malte Friese in OpenAIRENeil Philip Gains;
Neil Philip Gains
Neil Philip Gains in OpenAIREAlbina Gallyamova;
Albina Gallyamova
Albina Gallyamova in OpenAIRESandra J. Geiger;
Sandra J. Geiger
Sandra J. Geiger in OpenAIREOliver Genschow;
Oliver Genschow
Oliver Genschow in OpenAIREBiljana Gjoneska;
Theofilos Gkinopoulos;Biljana Gjoneska
Biljana Gjoneska in OpenAIREBeth Goldberg;
Beth Goldberg
Beth Goldberg in OpenAIREAmit Goldenberg;
Amit Goldenberg
Amit Goldenberg in OpenAIRESarah Gradidge;
Sarah Gradidge
Sarah Gradidge in OpenAIRESimone Grassini;
Kurt Gray; Sonja Grelle;Simone Grassini
Simone Grassini in OpenAIRESiobhán M. Griffin;
Siobhán M. Griffin
Siobhán M. Griffin in OpenAIRELusine Grigoryan;
Lusine Grigoryan
Lusine Grigoryan in OpenAIREAni Grigoryan;
Ani Grigoryan
Ani Grigoryan in OpenAIREDmitry Grigoryev;
Dmitry Grigoryev
Dmitry Grigoryev in OpenAIREJune Gruber;
June Gruber
June Gruber in OpenAIREJohnrev Guilaran;
Johnrev Guilaran
Johnrev Guilaran in OpenAIREBritt Hadar;
Britt Hadar
Britt Hadar in OpenAIREUlf J.J. Hahnel;
Ulf J.J. Hahnel
Ulf J.J. Hahnel in OpenAIREEran Halperin;
Eran Halperin
Eran Halperin in OpenAIREAnnelie J. Harvey;
Annelie J. Harvey
Annelie J. Harvey in OpenAIREChristian A. P. Haugestad;
Christian A. P. Haugestad
Christian A. P. Haugestad in OpenAIREAleksandra M. Herman;
Aleksandra M. Herman
Aleksandra M. Herman in OpenAIREHal E. Hershfield;
Hal E. Hershfield
Hal E. Hershfield in OpenAIREToshiyuki Himichi;
Toshiyuki Himichi
Toshiyuki Himichi in OpenAIREDonald W. Hine;
Wilhelm Hofmann;Donald W. Hine
Donald W. Hine in OpenAIRELauren Howe;
Lauren Howe
Lauren Howe in OpenAIREEnma T. Huaman-Chulluncuy;
Enma T. Huaman-Chulluncuy
Enma T. Huaman-Chulluncuy in OpenAIREGuanxiong Huang;
Guanxiong Huang
Guanxiong Huang in OpenAIRETatsunori Ishii;
Tatsunori Ishii
Tatsunori Ishii in OpenAIREAyahito Ito;
Ayahito Ito
Ayahito Ito in OpenAIREFanli Jia;
Fanli Jia
Fanli Jia in OpenAIREJohn T. Jost;
John T. Jost
John T. Jost in OpenAIREVeljko Jovanović;
Veljko Jovanović
Veljko Jovanović in OpenAIREDominika Jurgiel;
Ondřej Kácha;Dominika Jurgiel
Dominika Jurgiel in OpenAIREReeta Kankaanpää;
Reeta Kankaanpää
Reeta Kankaanpää in OpenAIREJaroslaw Kantorowicz;
Jaroslaw Kantorowicz
Jaroslaw Kantorowicz in OpenAIREElena Kantorowicz-Reznichenko;
Keren Kaplan Mintz;Elena Kantorowicz-Reznichenko
Elena Kantorowicz-Reznichenko in OpenAIREIlker Kaya;
Ilker Kaya
Ilker Kaya in OpenAIREOzgur Kaya;
Ozgur Kaya
Ozgur Kaya in OpenAIRENarine Khachatryan;
Narine Khachatryan
Narine Khachatryan in OpenAIREAnna Klas;
Anna Klas
Anna Klas in OpenAIREColin Klein;
Colin Klein
Colin Klein in OpenAIREChristian A. Klöckner;
Lina Koppel;Christian A. Klöckner
Christian A. Klöckner in OpenAIREAlexandra I. Kosachenko;
Alexandra I. Kosachenko
Alexandra I. Kosachenko in OpenAIREEmily J. Kothe;
Ruth Krebs;Emily J. Kothe
Emily J. Kothe in OpenAIREAmy R. Krosch;
Amy R. Krosch
Amy R. Krosch in OpenAIREAndre P.M. Krouwel;
Andre P.M. Krouwel
Andre P.M. Krouwel in OpenAIREYara Kyrychenko;
Yara Kyrychenko
Yara Kyrychenko in OpenAIREMaria Lagomarsino;
Maria Lagomarsino
Maria Lagomarsino in OpenAIREClaus Lamm;
Claus Lamm
Claus Lamm in OpenAIREFlorian Lange;
Florian Lange
Florian Lange in OpenAIREJulia Lee Cunningham;
Julia Lee Cunningham
Julia Lee Cunningham in OpenAIREJeffrey Lees;
Jeffrey Lees
Jeffrey Lees in OpenAIRETak Yan Leung;
Tak Yan Leung
Tak Yan Leung in OpenAIRENeil Levy;
Neil Levy
Neil Levy in OpenAIREPatricia L. Lockwood;
Patricia L. Lockwood
Patricia L. Lockwood in OpenAIREChiara Longoni;
Chiara Longoni
Chiara Longoni in OpenAIREAlberto López Ortega;
Alberto López Ortega
Alberto López Ortega in OpenAIREDavid D. Loschelder;
David D. Loschelder
David D. Loschelder in OpenAIREJackson G. Lu;
Jackson G. Lu
Jackson G. Lu in OpenAIREYu Luo;
Joseph Luomba;Annika E. Lutz;
Annika E. Lutz
Annika E. Lutz in OpenAIREJohann M. Majer;
Johann M. Majer
Johann M. Majer in OpenAIREEzra Markowitz;
Ezra Markowitz
Ezra Markowitz in OpenAIREAbigail A. Marsh;
Abigail A. Marsh
Abigail A. Marsh in OpenAIREKaren Louise Mascarenhas;
Karen Louise Mascarenhas
Karen Louise Mascarenhas in OpenAIREBwambale Mbilingi;
Bwambale Mbilingi
Bwambale Mbilingi in OpenAIREWinfred Mbungu;
Winfred Mbungu
Winfred Mbungu in OpenAIRECillian McHugh;
Cillian McHugh
Cillian McHugh in OpenAIREMarijn H.C. Meijers;
Marijn H.C. Meijers
Marijn H.C. Meijers in OpenAIREHugo Mercier;
Hugo Mercier
Hugo Mercier in OpenAIREFenant Laurent Mhagama;
Fenant Laurent Mhagama
Fenant Laurent Mhagama in OpenAIREKaterina Michalakis;
Katerina Michalakis
Katerina Michalakis in OpenAIRENace Mikus;
Nace Mikus
Nace Mikus in OpenAIRESarah Milliron;
Sarah Milliron
Sarah Milliron in OpenAIREPanagiotis Mitkidis;
Panagiotis Mitkidis
Panagiotis Mitkidis in OpenAIREFredy S. Monge-Rodríguez;
Fredy S. Monge-Rodríguez
Fredy S. Monge-Rodríguez in OpenAIREYouri L. Mora;
Youri L. Mora
Youri L. Mora in OpenAIREDavid Moreau;
David Moreau
David Moreau in OpenAIREKosuke Motoki;
Kosuke Motoki
Kosuke Motoki in OpenAIREManuel Moyano;
Mathilde Mus;Manuel Moyano
Manuel Moyano in OpenAIREJoaquin Navajas;
Joaquin Navajas
Joaquin Navajas in OpenAIRETam Luong Nguyen;
Tam Luong Nguyen
Tam Luong Nguyen in OpenAIREDung Minh Nguyen;
Dung Minh Nguyen
Dung Minh Nguyen in OpenAIRETrieu Nguyen;
Laura Niemi;Trieu Nguyen
Trieu Nguyen in OpenAIRESari R. R. Nijssen;
Sari R. R. Nijssen
Sari R. R. Nijssen in OpenAIREGustav Nilsonne;
Gustav Nilsonne
Gustav Nilsonne in OpenAIREJonas P. Nitschke;
Jonas P. Nitschke
Jonas P. Nitschke in OpenAIRELaila Nockur;
Ritah Okura;Laila Nockur
Laila Nockur in OpenAIRESezin Öner;
Sezin Öner
Sezin Öner in OpenAIREAsil Ali Özdoğru;
Asil Ali Özdoğru
Asil Ali Özdoğru in OpenAIREHelena Palumbo;
Helena Palumbo
Helena Palumbo in OpenAIRECostas Panagopoulos;
Costas Panagopoulos
Costas Panagopoulos in OpenAIREMaria Serena Panasiti;
Maria Serena Panasiti
Maria Serena Panasiti in OpenAIREPhilip Pärnamets;
Philip Pärnamets
Philip Pärnamets in OpenAIREMariola Paruzel-Czachura;
Mariola Paruzel-Czachura
Mariola Paruzel-Czachura in OpenAIREYuri G. Pavlov;
Yuri G. Pavlov
Yuri G. Pavlov in OpenAIRECésar Payán-Gómez;
César Payán-Gómez
César Payán-Gómez in OpenAIREAdam R. Pearson;
Adam R. Pearson
Adam R. Pearson in OpenAIRELeonor Pereira da Costa;
Leonor Pereira da Costa
Leonor Pereira da Costa in OpenAIREHannes M. Petrowsky;
Hannes M. Petrowsky
Hannes M. Petrowsky in OpenAIREStefan Pfattheicher;
Stefan Pfattheicher
Stefan Pfattheicher in OpenAIRENhat Tan Pham;
Nhat Tan Pham
Nhat Tan Pham in OpenAIREVladimir Ponizovskiy;
Clara Pretus;Vladimir Ponizovskiy
Vladimir Ponizovskiy in OpenAIREGabriel G. Rêgo;
Gabriel G. Rêgo
Gabriel G. Rêgo in OpenAIRERitsaart Reimann;
Ritsaart Reimann
Ritsaart Reimann in OpenAIREShawn A. Rhoads;
Shawn A. Rhoads
Shawn A. Rhoads in OpenAIREJulian Riano-Moreno;
Julian Riano-Moreno
Julian Riano-Moreno in OpenAIREdoi: 10.1126/sciadv.adj5778 , 10.17615/j71a-aj22 , 10.48350/192662 , 10.26181/27048496.v1 , 10.26181/27048496
pmid: 38324680
pmc: PMC10849597
doi: 10.1126/sciadv.adj5778 , 10.17615/j71a-aj22 , 10.48350/192662 , 10.26181/27048496.v1 , 10.26181/27048496
pmid: 38324680
pmc: PMC10849597
Effectively reducing climate change requires marked, global behavior change. However, it is unclear which strategies are most likely to motivate people to change their climate beliefs and behaviors. Here, we tested 11 expert-crowdsourced interventions on four climate mitigation outcomes: beliefs, policy support, information sharing intention, and an effortful tree-planting behavioral task. Across 59,440 participants from 63 countries, the interventions’ effectiveness was small, largely limited to nonclimate skeptics, and differed across outcomes: Beliefs were strengthened mostly by decreasing psychological distance (by 2.3%), policy support by writing a letter to a future-generation member (2.6%), information sharing by negative emotion induction (12.1%), and no intervention increased the more effortful behavior—several interventions even reduced tree planting. Last, the effects of each intervention differed depending on people’s initial climate beliefs. These findings suggest that the impact of behavioral climate interventions varies across audiences and target behaviors.
add ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.All Research productsarrow_drop_down <script type="text/javascript"> <!-- document.write('<div id="oa_widget"></div>'); document.write('<script type="text/javascript" src="https://beta.openaire.eu/index.php?option=com_openaire&view=widget&format=raw&projectId=10.1126/sciadv.adj5778&type=result"></script>'); --> </script>
For further information contact us at helpdesk@openaire.eu36 citations 36 popularity Average influence Top 10% impulse Top 1% Powered by BIP!
more_vert add ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.All Research productsarrow_drop_down <script type="text/javascript"> <!-- document.write('<div id="oa_widget"></div>'); document.write('<script type="text/javascript" src="https://beta.openaire.eu/index.php?option=com_openaire&view=widget&format=raw&projectId=10.1126/sciadv.adj5778&type=result"></script>'); --> </script>
For further information contact us at helpdesk@openaire.eudescription Publicationkeyboard_double_arrow_right Article , Journal 2018Publisher:Frontiers Media SA Funded by:ANR | UNITIANR| UNITIAuthors: Léa Frachon; Léa Frachon; Léa Frachon;Claudia Bartoli;
+6 AuthorsClaudia Bartoli
Claudia Bartoli in OpenAIRELéa Frachon; Léa Frachon; Léa Frachon;Claudia Bartoli;
Sébastien Carrère; Olivier Bouchez;Claudia Bartoli
Claudia Bartoli in OpenAIREAdeline Chaubet;
Mathieu Gautier; Dominique Roby; Fabrice Roux;Adeline Chaubet
Adeline Chaubet in OpenAIREUnderstanding the genetic bases underlying climate adaptation is a key element to predict the potential of species to face climate warming. Although substantial climate variation is observed at a micro-geographic scale, most genomic maps of climate adaptation have been established at broader geographical scales. Here, by using a Pool-Seq approach combined with a Bayesian hierarchical model that control for confounding by population structure, we performed a genome-environment association (GEA) analysis to investigate the genetic basis of adaptation to six climate variables in 168 natural populations of Arabidopsis thaliana distributed in south-west of France. Climate variation among the 168 populations represented up to 24% of climate variation among 521 European locations where A. thaliana inhabits. We identified neat and strong peaks of association, with most of the associated SNPs being significantly enriched in likely functional variants and/or in the extreme tail of genetic differentiation among populations. Furthermore, genes involved in transcriptional mechanisms appear predominant in plant functions associated with local climate adaptation. Globally, our results suggest that climate adaptation is an important driver of genomic variation in A. thaliana at a small spatial scale and mainly involves genome-wide changes in fundamental mechanisms of gene regulation. The identification of climate-adaptive genetic loci at a micro-geographic scale also highlights the importance to include within-species genetic diversity in ecological niche models for projecting potential species distributional shifts over short geographic distances.
Frontiers in Plant S... arrow_drop_down Institut National de la Recherche Agronomique: ProdINRAArticle . 2018License: CC BYData sources: Bielefeld Academic Search Engine (BASE)add ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.All Research productsarrow_drop_down <script type="text/javascript"> <!-- document.write('<div id="oa_widget"></div>'); document.write('<script type="text/javascript" src="https://beta.openaire.eu/index.php?option=com_openaire&view=widget&format=raw&projectId=10.3389/fpls.2018.00967&type=result"></script>'); --> </script>
For further information contact us at helpdesk@openaire.euAccess RoutesGreen gold 61 citations 61 popularity Top 1% influence Top 10% impulse Top 10% Powered by BIP!
more_vert Frontiers in Plant S... arrow_drop_down Institut National de la Recherche Agronomique: ProdINRAArticle . 2018License: CC BYData sources: Bielefeld Academic Search Engine (BASE)add ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.All Research productsarrow_drop_down <script type="text/javascript"> <!-- document.write('<div id="oa_widget"></div>'); document.write('<script type="text/javascript" src="https://beta.openaire.eu/index.php?option=com_openaire&view=widget&format=raw&projectId=10.3389/fpls.2018.00967&type=result"></script>'); --> </script>
For further information contact us at helpdesk@openaire.eudescription Publicationkeyboard_double_arrow_right Article 2022Publisher:MDPI AG Authors:Mauro Luberti;
Mauro Luberti
Mauro Luberti in OpenAIREAlexander Brown;
Marco Balsamo;Alexander Brown
Alexander Brown in OpenAIREMauro Capocelli;
Mauro Capocelli
Mauro Capocelli in OpenAIREdoi: 10.3390/en15031091
The increasing demand for energy and commodities has led to escalating greenhouse gas emissions, the chief of which is represented by carbon dioxide (CO2). Blue hydrogen (H2), a low-carbon hydrogen produced from natural gas with carbon capture technologies applied, has been suggested as a possible alternative to fossil fuels in processes with hard-to-abate emission sources, including refining, chemical, petrochemical and transport sectors. Due to the recent international directives aimed to combat climate change, even existing hydrogen plants should be retrofitted with carbon capture units. To optimize the process economics of such retrofit, it has been proposed to remove CO2 from the pressure swing adsorption (PSA) tail gas to exploit the relatively high CO2 concentration. This study aimed to design and numerically investigate a vacuum pressure swing adsorption (VPSA) process capable of capturing CO2 from the PSA tail gas of an industrial steam methane reforming (SMR)-based hydrogen plant using NaX zeolite adsorbent. The effect of operating conditions, such as purge-to-feed ratio and desorption pressure, were evaluated in relation to CO2 purity, CO2 recovery, bed productivity and specific energy consumption. We found that conventional cycle configurations, namely a 2-bed, 4-step Skarstrom cycle and a 2-bed, 6-step modified Skarstrom cycle with pressure equalization, were able to concentrate CO2 to a purity greater than 95% with a CO2 recovery of around 77% and 90%, respectively. Therefore, the latter configuration could serve as an efficient process to decarbonize existing hydrogen plants and produce blue H2.
add ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.All Research productsarrow_drop_down <script type="text/javascript"> <!-- document.write('<div id="oa_widget"></div>'); document.write('<script type="text/javascript" src="https://beta.openaire.eu/index.php?option=com_openaire&view=widget&format=raw&projectId=10.3390/en15031091&type=result"></script>'); --> </script>
For further information contact us at helpdesk@openaire.euAccess RoutesGreen gold 9 citations 9 popularity Top 10% influence Average impulse Top 10% Powered by BIP!
more_vert add ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.All Research productsarrow_drop_down <script type="text/javascript"> <!-- document.write('<div id="oa_widget"></div>'); document.write('<script type="text/javascript" src="https://beta.openaire.eu/index.php?option=com_openaire&view=widget&format=raw&projectId=10.3390/en15031091&type=result"></script>'); --> </script>
For further information contact us at helpdesk@openaire.eudescription Publicationkeyboard_double_arrow_right Article , Journal 2007 ItalyPublisher:Elsevier BV Authors: George Cristian Lazaroiu;Mariacristina Roscia;
Francesco Gagliardi;Mariacristina Roscia
Mariacristina Roscia in OpenAIREAbstract The sustainable indicators are characterized by a low degree of aggregation and a high amount of information. An indicator must show a synthetic representation of a real environmental, by using a value or a parameter, so that they can be easily used by policy makers. It is necessary to connect, therefore, the various systems in an appropriately integrated sustainable system. The indicators need to be aggregated based on the structure of the data. Each indicator must to be defined through a weight with reference to another weighted indicator. In this paper is illustrated the calculation of the assigned weights that uses a procedure based on fuzzy logic and to define a model that allows us to estimate the sustainability of a city. The final result is, therefore, a combination of values assigned by expert opinion for the various criteria, processed using fuzzy logic to obtain a weight with significant objectivity and as it is possible to estimate the sustainability of the city through the weights.
Energy arrow_drop_down Archivio Istituzionale Università di BergamoArticle . 2007Data sources: Archivio Istituzionale Università di Bergamoadd ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.All Research productsarrow_drop_down <script type="text/javascript"> <!-- document.write('<div id="oa_widget"></div>'); document.write('<script type="text/javascript" src="https://beta.openaire.eu/index.php?option=com_openaire&view=widget&format=raw&projectId=10.1016/j.energy.2006.04.014&type=result"></script>'); --> </script>
For further information contact us at helpdesk@openaire.euAccess Routesbronze 40 citations 40 popularity Top 10% influence Top 10% impulse Top 10% Powered by BIP!
more_vert Energy arrow_drop_down Archivio Istituzionale Università di BergamoArticle . 2007Data sources: Archivio Istituzionale Università di Bergamoadd ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.All Research productsarrow_drop_down <script type="text/javascript"> <!-- document.write('<div id="oa_widget"></div>'); document.write('<script type="text/javascript" src="https://beta.openaire.eu/index.php?option=com_openaire&view=widget&format=raw&projectId=10.1016/j.energy.2006.04.014&type=result"></script>'); --> </script>
For further information contact us at helpdesk@openaire.eudescription Publicationkeyboard_double_arrow_right Article 2024Publisher:Elsevier BV Authors:V. De Bellis;
V. De Bellis
V. De Bellis in OpenAIREM. Piras;
M. Piras
M. Piras in OpenAIREF. Bozza;
F. Bozza
F. Bozza in OpenAIREE. Malfi;
+3 AuthorsE. Malfi
E. Malfi in OpenAIREV. De Bellis;
V. De Bellis
V. De Bellis in OpenAIREM. Piras;
M. Piras
M. Piras in OpenAIREF. Bozza;
F. Bozza
F. Bozza in OpenAIREE. Malfi;
E. Malfi
E. Malfi in OpenAIRER. Novella;
R. Novella
R. Novella in OpenAIREJ. Gomez-Soriano;
J. Gomez-Soriano
J. Gomez-Soriano in OpenAIREM. Olcina-Girona;
M. Olcina-Girona
M. Olcina-Girona in OpenAIREEnergy Conversion an... arrow_drop_down Energy Conversion and ManagementArticle . 2024 . Peer-reviewedLicense: CC BY NC NDData sources: Crossrefadd ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.All Research productsarrow_drop_down <script type="text/javascript"> <!-- document.write('<div id="oa_widget"></div>'); document.write('<script type="text/javascript" src="https://beta.openaire.eu/index.php?option=com_openaire&view=widget&format=raw&projectId=10.1016/j.enconman.2024.118395&type=result"></script>'); --> </script>
For further information contact us at helpdesk@openaire.eu4 citations 4 popularity Average influence Average impulse Average Powered by BIP!
more_vert Energy Conversion an... arrow_drop_down Energy Conversion and ManagementArticle . 2024 . Peer-reviewedLicense: CC BY NC NDData sources: Crossrefadd ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.All Research productsarrow_drop_down <script type="text/javascript"> <!-- document.write('<div id="oa_widget"></div>'); document.write('<script type="text/javascript" src="https://beta.openaire.eu/index.php?option=com_openaire&view=widget&format=raw&projectId=10.1016/j.enconman.2024.118395&type=result"></script>'); --> </script>
For further information contact us at helpdesk@openaire.eudescription Publicationkeyboard_double_arrow_right Article 2023Publisher:MDPI AG Authors:Marco Balato;
Marco Balato
Marco Balato in OpenAIRECarlo Petrarca;
Carlo Petrarca
Carlo Petrarca in OpenAIREAnnalisa Liccardo;
Martina Botti; +1 AuthorsAnnalisa Liccardo
Annalisa Liccardo in OpenAIREMarco Balato;
Marco Balato
Marco Balato in OpenAIRECarlo Petrarca;
Carlo Petrarca
Carlo Petrarca in OpenAIREAnnalisa Liccardo;
Martina Botti; Luigi Verolino;Annalisa Liccardo
Annalisa Liccardo in OpenAIREdoi: 10.3390/en16237882
Mismatching operating conditions affect the energetic performance of PhotoVoltaic (PV) systems because they decrease their efficiency and reliability. The two different approaches used to overcome this problem are Distributed Maximum Power Point Tracking (DMPPT) architecture and reconfigurable PV array architecture. These techniques can be considered not only as alternatives but can be combined to reach better performance. To this aim, the present paper presents a new algorithm, based on the joint action of the DMPPT and reconfiguration approaches, applied to a reconfigurable Series-Parallel-Series architecture, which is suitable for domestic PV application. The core of the algorithm is a deterministic cluster analysis based on the shape of the current vs. voltage characteristic of a single PV module combined with its DC/DC converter to perform the DMPPT function. Experimental results are provided to validate the effectiveness of the proposed algorithm and to demonstrate evidence of its major advantages: robustness, simplicity of implementation and time-saving.
add ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.All Research productsarrow_drop_down <script type="text/javascript"> <!-- document.write('<div id="oa_widget"></div>'); document.write('<script type="text/javascript" src="https://beta.openaire.eu/index.php?option=com_openaire&view=widget&format=raw&projectId=10.3390/en16237882&type=result"></script>'); --> </script>
For further information contact us at helpdesk@openaire.euAccess Routesgold 0 citations 0 popularity Average influence Average impulse Average Powered by BIP!
more_vert add ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.All Research productsarrow_drop_down <script type="text/javascript"> <!-- document.write('<div id="oa_widget"></div>'); document.write('<script type="text/javascript" src="https://beta.openaire.eu/index.php?option=com_openaire&view=widget&format=raw&projectId=10.3390/en16237882&type=result"></script>'); --> </script>
For further information contact us at helpdesk@openaire.eudescription Publicationkeyboard_double_arrow_right Article , Other literature type 2018Publisher:MDPI AG Authors:Maria Cristina Cameretti;
Maria Cristina Cameretti
Maria Cristina Cameretti in OpenAIREAndrea Del Pizzo;
Andrea Del Pizzo
Andrea Del Pizzo in OpenAIRELuigi Pio Di Noia;
Michele Ferrara; +1 AuthorsLuigi Pio Di Noia
Luigi Pio Di Noia in OpenAIREMaria Cristina Cameretti;
Maria Cristina Cameretti
Maria Cristina Cameretti in OpenAIREAndrea Del Pizzo;
Andrea Del Pizzo
Andrea Del Pizzo in OpenAIRELuigi Pio Di Noia;
Michele Ferrara; Ciro Pascarella;Luigi Pio Di Noia
Luigi Pio Di Noia in OpenAIREHybrid electric propulsion in the aviation field is becoming an effective alternative propulsion technology with potential advantages, including fuel savings, lower pollution, and reduced noise emission. On the one hand, the aeroengine manufacturers are working to improve fuel consumption and reduce pollutant emissions with new combustion systems; on the other hand, much attention is given to reducing the weight of the batteries increasing the energy density. Hybrid electric propulsion systems (HEPS) can take advantage of the synergy between two technologies by utilizing both internal combustion engines (ICEs) and electric motors (EMs) together, each operating at their respective optimum conditions. In the present work, some numerical investigations were carried out by using a zero-dimensional code able to simulate the flight mission of a turboprop aircraft, comparing fuel consumption and pollutant emissions of the original engine with other two smaller gas turbines working in hybrid configuration. An algorithm has been implemented to calculate the weight of the batteries for the different configurations examined, evaluating the feasibility of the hybrid propulsion system in terms of number of non-revenue passengers.
add ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.All Research productsarrow_drop_down <script type="text/javascript"> <!-- document.write('<div id="oa_widget"></div>'); document.write('<script type="text/javascript" src="https://beta.openaire.eu/index.php?option=com_openaire&view=widget&format=raw&projectId=10.3390/aerospace5040123&type=result"></script>'); --> </script>
For further information contact us at helpdesk@openaire.euAccess Routesgold 30 citations 30 popularity Top 10% influence Top 10% impulse Top 10% Powered by BIP!
more_vert add ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.All Research productsarrow_drop_down <script type="text/javascript"> <!-- document.write('<div id="oa_widget"></div>'); document.write('<script type="text/javascript" src="https://beta.openaire.eu/index.php?option=com_openaire&view=widget&format=raw&projectId=10.3390/aerospace5040123&type=result"></script>'); --> </script>
For further information contact us at helpdesk@openaire.eu