ricardo.lima 1873422949 Lima Ricardo ricardo.lima@hesge.ch fr 1 On On

{"id":7866224,"role":"RP","display":false,"displayRole":true,"displayFinancialPartner":true,"displayAcademicPartner":true,"displayProfessionalPartner":true,"collaborator":"ricardo.lima","project":{"translations":{"fr":{"id":19680,"title":"Airport Net Zero Demonstrator for Reengineered Operations of Mobility and Energy Networks. Prime H2020 \/ Horizon EU - AIR0DROME","description":"The journey & actions of EuroAirport, Tallinn and Schoenhagen towards carbon neutrality by 2030, demonstrating the components of a new Sustainable Airport Energy Network (SAEN), an Airport Mobility Performance Package (AMPP) and Airport Stakeholder Sustainability Influencing Framework (ASSIF) for integrated and enhanced solutions within and between airport ecosystems in Europe.\r\nThe project proposal combines demonstrated technologies and innovative solutions for producing green energy onsite, decarbonizing processes & services as well as promoting the use of public transport and Sustainable Aviation Fuels. Leading organizations from science and industry formed an expert team to deploy optimized solutionsand circular economy concepts, aiming to reduce GHG emissions of buildings, energy networks, land- & airside operationsas well asaircraft fuel burn and airport ground access, using a three-tiered approach:\r\n-\tAssessment and modelling of existing infrastructures and procedures in order to substantially reduce the emissions and the impact of GHG and noise with technologies that are available today and can be economically implemented & scaled in a modular approach.\r\n-\tOptimizing existing and introducing new sources of energy and waste recycling approaches in a complementary system as a transition towards a net zero carbon footprint of European airports.\r\n-\tIntegrating the airport in current and new sustainable transport networks to promote public & individual mobility at regional scale and overcoming the intermodality obstaclesand social acceptance of the airport ecosystem and air travel in general.\r\nThe project putsspecial emphasis on the monitoring and impact assessment of realized innovations, taking account of the regulatory incentives required to achieve the net-zero goals. The dissemination of the findings will be done via an open platform to allow for peer review, domain discussions and knowledge sharing with academic and public stakeholders."},"en":{"id":19681,"title":"Airport Net Zero Demonstrator for Reengineered Operations of Mobility and Energy Networks. Prime H2020 \/ Horizon EU - AIR0DROME","description":"The journey & actions of EuroAirport, Tallinn and Schoenhagen towards carbon neutrality by 2030, demonstrating the components of a new Sustainable Airport Energy Network (SAEN), an Airport Mobility Performance Package (AMPP) and Airport Stakeholder Sustainability Influencing Framework (ASSIF) for integrated and enhanced solutions within and between airport ecosystems in Europe.\r\nThe project proposal combines demonstrated technologies and innovative solutions for producing green energy onsite, decarbonizing processes & services as well as promoting the use of public transport and Sustainable Aviation Fuels. Leading organizations from science and industry formed an expert team to deploy optimized solutionsand circular economy concepts, aiming to reduce GHG emissions of buildings, energy networks, land- & airside operationsas well asaircraft fuel burn and airport ground access, using a three-tiered approach:\r\n-\tAssessment and modelling of existing infrastructures and procedures in order to substantially reduce the emissions and the impact of GHG and noise with technologies that are available today and can be economically implemented & scaled in a modular approach.\r\n-\tOptimizing existing and introducing new sources of energy and waste recycling approaches in a complementary system as a transition towards a net zero carbon footprint of European airports.\r\n-\tIntegrating the airport in current and new sustainable transport networks to promote public & individual mobility at regional scale and overcoming the intermodality obstaclesand social acceptance of the airport ecosystem and air travel in general.\r\nThe project putsspecial emphasis on the monitoring and impact assessment of realized innovations, taking account of the regulatory incentives required to achieve the net-zero goals. The dissemination of the findings will be done via an open platform to allow for peer review, domain discussions and knowledge sharing with academic and public stakeholders."},"de":{"id":19682,"title":"Airport Net Zero Demonstrator for Reengineered Operations of Mobility and Energy Networks. Prime H2020 \/ Horizon EU - AIR0DROME","description":"The journey & actions of EuroAirport, Tallinn and Schoenhagen towards carbon neutrality by 2030, demonstrating the components of a new Sustainable Airport Energy Network (SAEN), an Airport Mobility Performance Package (AMPP) and Airport Stakeholder Sustainability Influencing Framework (ASSIF) for integrated and enhanced solutions within and between airport ecosystems in Europe.\r\nThe project proposal combines demonstrated technologies and innovative solutions for producing green energy onsite, decarbonizing processes & services as well as promoting the use of public transport and Sustainable Aviation Fuels. Leading organizations from science and industry formed an expert team to deploy optimized solutionsand circular economy concepts, aiming to reduce GHG emissions of buildings, energy networks, land- & airside operationsas well asaircraft fuel burn and airport ground access, using a three-tiered approach:\r\n-\tAssessment and modelling of existing infrastructures and procedures in order to substantially reduce the emissions and the impact of GHG and noise with technologies that are available today and can be economically implemented & scaled in a modular approach.\r\n-\tOptimizing existing and introducing new sources of energy and waste recycling approaches in a complementary system as a transition towards a net zero carbon footprint of European airports.\r\n-\tIntegrating the airport in current and new sustainable transport networks to promote public & individual mobility at regional scale and overcoming the intermodality obstaclesand social acceptance of the airport ecosystem and air travel in general.\r\nThe project putsspecial emphasis on the monitoring and impact assessment of realized innovations, taking account of the regulatory incentives required to achieve the net-zero goals. The dissemination of the findings will be done via an open platform to allow for peer review, domain discussions and knowledge sharing with academic and public stakeholders."}},"id":119270,"acronym":"P3 - Prime H2020 \/ Horizon EU - AIR0DROME","mainTitle":"Airport Net Zero Demonstrator for Reengineered Operations of Mobility and Energy Networks. 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Leading organizations from science and industry formed an expert team to deploy optimized solutionsand circular economy concepts, aiming to reduce GHG emissions of buildings, energy networks, land- & airside operationsas well asaircraft fuel burn and airport ground access, using a three-tiered approach:\r\n-\tAssessment and modelling of existing infrastructures and procedures in order to substantially reduce the emissions and the impact of GHG and noise with technologies that are available today and can be economically implemented & scaled in a modular approach.\r\n-\tOptimizing existing and introducing new sources of energy and waste recycling approaches in a complementary system as a transition towards a net zero carbon footprint of European airports.\r\n-\tIntegrating the airport in current and new sustainable transport networks to promote public & individual mobility at regional scale and overcoming the intermodality obstaclesand social acceptance of the airport ecosystem and air travel in general.\r\nThe project putsspecial emphasis on the monitoring and impact assessment of realized innovations, taking account of the regulatory incentives required to achieve the net-zero goals. The dissemination of the findings will be done via an open platform to allow for peer review, domain discussions and knowledge sharing with academic and public stakeholders.","value":"15000.00","finished":false,"pilier":6,"url":null,"keywords":null,"disciplines":[],"axes":[],"partners":[{"id":1862681,"name":"","confidential":false,"types":[{"id":4,"code":"CO"}],"institution":"FR - EIA - Institut iSIS","class":"academique"},{"id":1862682,"name":"","confidential":false,"types":[{"id":3,"code":"RP"},{"id":4,"code":"CO"}],"institution":"HEPIA inPACT","class":"academique"}],"collaborators":[{"id":7866224,"role":"RP","display":false,"displayRole":true,"displayFinancialPartner":true,"displayAcademicPartner":true,"displayProfessionalPartner":true,"collaborator":"ricardo.lima","project":119270},{"id":7866225,"role":"CO","display":false,"displayRole":true,"displayFinancialPartner":true,"displayAcademicPartner":true,"displayProfessionalPartner":true,"collaborator":"roland.scherwey","project":119270},{"id":7866226,"role":"ME","display":false,"displayRole":true,"displayFinancialPartner":true,"displayAcademicPartner":true,"displayProfessionalPartner":true,"collaborator":"denis.iglesias","project":119270},{"id":7866227,"role":"CO","display":false,"displayRole":true,"displayFinancialPartner":true,"displayAcademicPartner":true,"displayProfessionalPartner":true,"collaborator":"wolfgang.berns","project":119270},{"id":7866228,"role":"ME","display":false,"displayRole":true,"displayFinancialPartner":true,"displayAcademicPartner":true,"displayProfessionalPartner":true,"collaborator":"gabriel.python","project":119270},{"id":7866229,"role":"ME","display":false,"displayRole":true,"displayFinancialPartner":true,"displayAcademicPartner":true,"displayProfessionalPartner":true,"collaborator":"philipp.eickelma","project":119270}],"dataHub":true,"startAt":"2022-04-12T00:00:00+02:00","endAt":"2025-12-31T00:00:00+01:00","fundingSource":"HES-SO Rectorat","publications":[],"projectUrl":null,"repo_name":null}}

{"id":7863059,"role":"RP","display":false,"displayRole":true,"displayFinancialPartner":true,"displayAcademicPartner":true,"displayProfessionalPartner":true,"collaborator":"ricardo.lima","project":{"translations":{"fr":{"id":22116,"title":"Programme de soutien au d\u00e9p\u00f4t de projets li\u00e9s \u00e0 l'obtention de fonds de tiers 2023. EU (Horizon) - DHCORE.","description":"Programme de soutien au d\u00e9p\u00f4t de projets li\u00e9s \u00e0 l'obtention de fonds de tiers 2023. EU (Horizon) - DHCORE."},"en":{"id":22117,"title":"Programme de soutien au d\u00e9p\u00f4t de projets li\u00e9s \u00e0 l'obtention de fonds de tiers 2023. EU (Horizon) - DHCORE.","description":"Programme de soutien au d\u00e9p\u00f4t de projets li\u00e9s \u00e0 l'obtention de fonds de tiers 2023. EU (Horizon) - DHCORE."},"de":{"id":22118,"title":"Programme de soutien au d\u00e9p\u00f4t de projets li\u00e9s \u00e0 l'obtention de fonds de tiers 2023. EU (Horizon) - DHCORE.","description":"Programme de soutien au d\u00e9p\u00f4t de projets li\u00e9s \u00e0 l'obtention de fonds de tiers 2023. EU (Horizon) - DHCORE."}},"id":126394,"acronym":"P3 - Prime Horizon EU - DHCORE","mainTitle":"Programme de soutien au d\u00e9p\u00f4t de projets li\u00e9s \u00e0 l'obtention de fonds de tiers 2023. EU (Horizon) - DHCORE.","mainDescription":"Programme de soutien au d\u00e9p\u00f4t de projets li\u00e9s \u00e0 l'obtention de fonds de tiers 2023. EU (Horizon) - DHCORE.","value":"7500.00","finished":false,"pilier":6,"url":null,"keywords":null,"disciplines":[],"axes":[],"partners":[{"id":1861988,"name":"","confidential":false,"types":[{"id":3,"code":"RP"},{"id":4,"code":"CO"}],"institution":"HEPIA inPACT","class":"academique"}],"collaborators":[{"id":7863059,"role":"RP","display":false,"displayRole":true,"displayFinancialPartner":true,"displayAcademicPartner":true,"displayProfessionalPartner":true,"collaborator":"ricardo.lima","project":126394}],"dataHub":true,"startAt":"2023-05-23T00:00:00+02:00","endAt":"2025-12-31T00:00:00+01:00","fundingSource":"HES-SO Rectorat","publications":[],"projectUrl":null,"repo_name":null}}

{"id":7859564,"role":"ME","display":false,"displayRole":true,"displayFinancialPartner":true,"displayAcademicPartner":true,"displayProfessionalPartner":true,"collaborator":"ricardo.lima","project":{"translations":{"fr":{"id":23922,"title":"Programme de soutien au d\u00e9p\u00f4t de projets li\u00e9s \u00e0 l'obtention de fonds de tiers ; Prime Horizon EU - DEMOPED.","description":"Programme de soutien au d\u00e9p\u00f4t de projets li\u00e9s \u00e0 l'obtention de fonds de tiers ; Prime Horizon EU - DEMOPED."},"en":{"id":23923,"title":"Programme de soutien au d\u00e9p\u00f4t de projets li\u00e9s \u00e0 l'obtention de fonds de tiers ; Prime Horizon EU - DEMOPED.","description":"Programme de soutien au d\u00e9p\u00f4t de projets li\u00e9s \u00e0 l'obtention de fonds de tiers ; Prime Horizon EU - DEMOPED."},"de":{"id":23924,"title":"Programme de soutien au d\u00e9p\u00f4t de projets li\u00e9s \u00e0 l'obtention de fonds de tiers ; Prime Horizon EU - DEMOPED.","description":"Programme de soutien au d\u00e9p\u00f4t de projets li\u00e9s \u00e0 l'obtention de fonds de tiers ; Prime Horizon EU - DEMOPED."}},"id":132722,"acronym":"P3 - Prime Horizon EU - DEMOPED","mainTitle":"Programme de soutien au d\u00e9p\u00f4t de projets li\u00e9s \u00e0 l'obtention de fonds de tiers ; Prime Horizon EU - DEMOPED.","mainDescription":"Programme de soutien au d\u00e9p\u00f4t de projets li\u00e9s \u00e0 l'obtention de fonds de tiers ; Prime Horizon EU - DEMOPED.","value":"15000.00","finished":false,"pilier":6,"url":null,"keywords":null,"disciplines":[],"axes":[],"partners":[{"id":1861304,"name":"","confidential":false,"types":[{"id":3,"code":"RP"},{"id":4,"code":"CO"}],"institution":"HEPIA inPACT","class":"academique"},{"id":1861305,"name":"Desthieux Gilles","confidential":false,"types":[{"id":3,"code":"RP"},{"id":4,"code":"CO"}],"institution":"HEPIA inPACT","class":"academique"}],"collaborators":[{"id":7859562,"role":"ME","display":false,"displayRole":true,"displayFinancialPartner":true,"displayAcademicPartner":true,"displayProfessionalPartner":true,"collaborator":"adriano.cassella","project":132722},{"id":7859563,"role":"RP","display":false,"displayRole":true,"displayFinancialPartner":true,"displayAcademicPartner":true,"displayProfessionalPartner":true,"collaborator":"gilles.desthieu","project":132722},{"id":7859564,"role":"ME","display":false,"displayRole":true,"displayFinancialPartner":true,"displayAcademicPartner":true,"displayProfessionalPartner":true,"collaborator":"ricardo.lima","project":132722},{"id":7859565,"role":"ME","display":false,"displayRole":true,"displayFinancialPartner":true,"displayAcademicPartner":true,"displayProfessionalPartner":true,"collaborator":"nikos.zarkadis","project":132722},{"id":7859566,"role":"ME","display":false,"displayRole":true,"displayFinancialPartner":true,"displayAcademicPartner":true,"displayProfessionalPartner":true,"collaborator":"reto.camponov","project":132722},{"id":7859567,"role":"ME","display":false,"displayRole":true,"displayFinancialPartner":true,"displayAcademicPartner":true,"displayProfessionalPartner":true,"collaborator":"michael.elkharro","project":132722}],"dataHub":true,"startAt":"2024-06-05T00:00:00+02:00","endAt":"2025-12-31T00:00:00+01:00","fundingSource":"HES-SO Rectorat","publications":[],"projectUrl":null,"repo_name":null}}

{"id":7788772,"role":"ME","display":false,"displayRole":true,"displayFinancialPartner":true,"displayAcademicPartner":true,"displayProfessionalPartner":true,"collaborator":"ricardo.lima","project":{"translations":{"fr":{"id":10918,"title":"Mandats pour fili\u00e8re Technique des b\u00e2timents en 2017_2018_2019","description":"Mandats pour fili\u00e8re Technique des b\u00e2timents en 2017_2018_2019"},"en":{"id":10919,"title":"Mandats pour fili\u00e8re Technique des b\u00e2timents en 2017_2018_2019","description":"Mandats pour fili\u00e8re Technique des b\u00e2timents en 2017_2018_2019"},"de":{"id":10920,"title":"Mandats pour fili\u00e8re Technique des b\u00e2timents en 2017_2018_2019","description":"Mandats pour fili\u00e8re Technique des b\u00e2timents en 2017_2018_2019"}},"id":70785,"acronym":"Mandats_Technique_B\u00e2timents_2017-2019","mainTitle":"Mandats pour fili\u00e8re Technique des b\u00e2timents en 2017_2018_2019","mainDescription":"Mandats pour fili\u00e8re Technique des b\u00e2timents en 2017_2018_2019","value":"950.00","finished":true,"pilier":6,"url":null,"keywords":null,"disciplines":[],"axes":[],"partners":[{"id":1843838,"name":"","confidential":false,"types":[{"id":3,"code":"RP"},{"id":4,"code":"CO"}],"institution":"hepia inPACT","class":"academique"},{"id":1843839,"name":"Boix Jose","confidential":false,"types":[{"id":3,"code":"RP"},{"id":4,"code":"CO"}],"institution":"hepia inPACT","class":"academique"}],"collaborators":[{"id":7788772,"role":"ME","display":false,"displayRole":true,"displayFinancialPartner":true,"displayAcademicPartner":true,"displayProfessionalPartner":true,"collaborator":"ricardo.lima","project":70785},{"id":7788773,"role":"RP","display":false,"displayRole":true,"displayFinancialPartner":true,"displayAcademicPartner":true,"displayProfessionalPartner":true,"collaborator":"jose.boix","project":70785}],"dataHub":true,"startAt":"2017-01-01T00:00:00+01:00","endAt":"2019-12-31T00:00:00+01:00","fundingSource":"Ville de Sierre","publications":[],"projectUrl":null,"repo_name":null}}

{"id":7788708,"role":"ME","display":false,"displayRole":true,"displayFinancialPartner":true,"displayAcademicPartner":true,"displayProfessionalPartner":true,"collaborator":"ricardo.lima","project":{"translations":{"fr":{"id":10912,"title":"Prestations de services pour fili\u00e8re Technique des b\u00e2timents en 2017","description":"Prestations de services pour fili\u00e8re Technique des b\u00e2timents en 2017\r\n\r\nLa PS avec Chopard & Cie est confidentielle.\r\n"},"en":{"id":10913,"title":"Prestations de services pour fili\u00e8re Technique des b\u00e2timents en 2017","description":"Prestations de services pour fili\u00e8re Technique des b\u00e2timents en 2017\r\n\r\nLa PS avec Chopard & Cie est confidentielle.\r\n"},"de":{"id":10914,"title":"Prestations de services pour fili\u00e8re Technique des b\u00e2timents en 2017","description":"Prestations de services pour fili\u00e8re Technique des b\u00e2timents en 2017\r\n\r\nLa PS avec Chopard & Cie est confidentielle.\r\n"}},"id":70783,"acronym":"PS_Technique_B\u00e2timents_2017","mainTitle":"Prestations de services pour fili\u00e8re Technique des b\u00e2timents en 2017","mainDescription":"Prestations de services pour fili\u00e8re Technique des b\u00e2timents en 2017\r\n\r\nLa PS avec Chopard & Cie est confidentielle.\r\n","value":"8134.45","finished":true,"pilier":5,"url":null,"keywords":null,"disciplines":[],"axes":[],"partners":[{"id":1843800,"name":"","confidential":false,"types":[{"id":3,"code":"RP"},{"id":4,"code":"CO"}],"institution":"hepia inPACT","class":"academique"},{"id":1843801,"name":"Boix Jose","confidential":false,"types":[{"id":3,"code":"RP"},{"id":4,"code":"CO"}],"institution":"hepia inPACT","class":"academique"}],"collaborators":[{"id":7788708,"role":"ME","display":false,"displayRole":true,"displayFinancialPartner":true,"displayAcademicPartner":true,"displayProfessionalPartner":true,"collaborator":"ricardo.lima","project":70783},{"id":7788709,"role":"ME","display":false,"displayRole":true,"displayFinancialPartner":true,"displayAcademicPartner":true,"displayProfessionalPartner":true,"collaborator":"anabela.inacio","project":70783},{"id":7788710,"role":"ME","display":false,"displayRole":true,"displayFinancialPartner":true,"displayAcademicPartner":true,"displayProfessionalPartner":true,"collaborator":"basile.grandjea","project":70783},{"id":7788711,"role":"RP","display":false,"displayRole":true,"displayFinancialPartner":true,"displayAcademicPartner":true,"displayProfessionalPartner":true,"collaborator":"jose.boix","project":70783},{"id":7788712,"role":"ME","display":false,"displayRole":true,"displayFinancialPartner":true,"displayAcademicPartner":true,"displayProfessionalPartner":true,"collaborator":"claude.willemin","project":70783}],"dataHub":true,"startAt":"2017-01-01T00:00:00+01:00","endAt":"2017-12-31T00:00:00+01:00","fundingSource":"Bassicarella Architectes; ENERGY2031 SA; Chauffage Concept S\u00e0rl; David Scuderi; Le Petit-Fils de L.-U. CHOPARD & Cie S.A.","publications":[],"projectUrl":null,"repo_name":null}}

{"id":7784984,"role":"RP","display":false,"displayRole":true,"displayFinancialPartner":true,"displayAcademicPartner":true,"displayProfessionalPartner":true,"collaborator":"ricardo.lima","project":{"translations":{"fr":{"id":19779,"title":"DEmonstrator of industrial CArbon-free power Generation from Orc-based waste-heat-to- Energy systems. Prime H2020 \/ Horizon EU - DECAGONE","description":"The objective of DECAGONE is to develop innovative industrial waste heat-to-power conversion systems. The proposed key- innovations will make ORC systems more efficient, more cost- effective and adaptable to more diverse sectors meeting critical Key Performance Indicators (KPI) for broad industrial uptake. They will be demonstrated at TRL7 by a 2 MW unit integrated into a steel production plant, located in T'inec, Czech Republic and owned by T'ineck\u00e9 'elez\u00e1rny, mother company of partner Energetika T'inec (ET). The demonstration will validate and showcase a portfolio of solutions for replicable, flexible and adjustable WHR units, aiming at increasing the market uptake for  ORC technologies in energy-intensive industries and fostering  largescale CO2 emission reductions in Europe and worldwide."},"en":{"id":19780,"title":"DEmonstrator of industrial CArbon-free power Generation from Orc-based waste-heat-to- Energy systems. Prime H2020 \/ Horizon EU - DECAGONE","description":"The objective of DECAGONE is to develop innovative industrial waste heat-to-power conversion systems. The proposed key- innovations will make ORC systems more efficient, more cost- effective and adaptable to more diverse sectors meeting critical Key Performance Indicators (KPI) for broad industrial uptake. They will be demonstrated at TRL7 by a 2 MW unit integrated into a steel production plant, located in T'inec, Czech Republic and owned by T'ineck\u00e9 'elez\u00e1rny, mother company of partner Energetika T'inec (ET). The demonstration will validate and showcase a portfolio of solutions for replicable, flexible and adjustable WHR units, aiming at increasing the market uptake for  ORC technologies in energy-intensive industries and fostering  largescale CO2 emission reductions in Europe and worldwide."},"de":{"id":19781,"title":"DEmonstrator of industrial CArbon-free power Generation from Orc-based waste-heat-to- Energy systems. Prime H2020 \/ Horizon EU - DECAGONE","description":"The objective of DECAGONE is to develop innovative industrial waste heat-to-power conversion systems. The proposed key- innovations will make ORC systems more efficient, more cost- effective and adaptable to more diverse sectors meeting critical Key Performance Indicators (KPI) for broad industrial uptake. They will be demonstrated at TRL7 by a 2 MW unit integrated into a steel production plant, located in T'inec, Czech Republic and owned by T'ineck\u00e9 'elez\u00e1rny, mother company of partner Energetika T'inec (ET). The demonstration will validate and showcase a portfolio of solutions for replicable, flexible and adjustable WHR units, aiming at increasing the market uptake for  ORC technologies in energy-intensive industries and fostering  largescale CO2 emission reductions in Europe and worldwide."}},"id":119110,"acronym":"P3 - Prime H2020 - Horizon EU - DECAGONE","mainTitle":"DEmonstrator of industrial CArbon-free power Generation from Orc-based waste-heat-to- Energy systems. Prime H2020 \/ Horizon EU - DECAGONE","mainDescription":"The objective of DECAGONE is to develop innovative industrial waste heat-to-power conversion systems. The proposed key- innovations will make ORC systems more efficient, more cost- effective and adaptable to more diverse sectors meeting critical Key Performance Indicators (KPI) for broad industrial uptake. They will be demonstrated at TRL7 by a 2 MW unit integrated into a steel production plant, located in T'inec, Czech Republic and owned by T'ineck\u00e9 'elez\u00e1rny, mother company of partner Energetika T'inec (ET). The demonstration will validate and showcase a portfolio of solutions for replicable, flexible and adjustable WHR units, aiming at increasing the market uptake for  ORC technologies in energy-intensive industries and fostering  largescale CO2 emission reductions in Europe and worldwide.","value":"7500.00","finished":false,"pilier":6,"url":null,"keywords":null,"disciplines":[],"axes":[],"partners":[{"id":1842232,"name":"","confidential":false,"types":[{"id":3,"code":"RP"},{"id":4,"code":"CO"}],"institution":"HEPIA inPACT","class":"academique"}],"collaborators":[{"id":7784984,"role":"RP","display":false,"displayRole":true,"displayFinancialPartner":true,"displayAcademicPartner":true,"displayProfessionalPartner":true,"collaborator":"ricardo.lima","project":119110}],"dataHub":true,"startAt":"2022-04-12T00:00:00+02:00","endAt":"2025-12-31T00:00:00+01:00","fundingSource":"HES-SO Rectorat","publications":[],"projectUrl":null,"repo_name":null}}

{"id":7781506,"role":"RP","display":false,"displayRole":true,"displayFinancialPartner":true,"displayAcademicPartner":true,"displayProfessionalPartner":true,"collaborator":"ricardo.lima","project":{"translations":{"fr":{"id":19677,"title":"Are PEDs a suitable instrument to govern the Swiss energy transition ?\r\nPrime FNS - PEDSET","description":"\"Globally, societies have accepted Anthropocene climate change as a fact and are multiplying efforts to address this challenge. In Switzerland, the parliament has recently (25.09.2020) adopted a complete revision of the CO2 law, setting the objectives and measures of the Swiss climate policy until 2030. The challenge crosses sectors and domains, and for this reason, solutions can only be found through collective innovation efforts spanning a broad spectrum of interdisciplinary sciences. New paradigms are being introduced. The concept of Positive Energy Districts (PEDs) is one such paradigm. The principle of PEDs is to create an area within a city's boundaries capable of generating more energy than consumed and agile\/flexible enough to respond to the dynamics of the energy market. Thus, PEDs offer a framework to promote higher energy efficiency, higher renewable energy generation, and higher flexibility in energy management at the local level. The rationale for tackling problems at the neighbourhood scale is that it enables coordination of energy use between buildings, while allowing more flexibility than e.g. the city scale. PEDs aim to have a positive impact on the regional energy system beyond energy balance, for example by providing flexibility or increasing system resilience. The concept of PEDs integrates a wide range of physical scales of objects, from domestic appliances to regional energy networks, as well as a broad range of human activities such as behaviour, laws, taxation etc. Its study therefore integrates a wide spectrum of sciences (e.g., technology, society, business and policy).\r\nIn a recent synthesis of 61 European PED and towards-PED cases, Bossi et al. (2020) note that the lack of appropriate business models and funding schemes is the most frequent challenge in the implementation of projects; conversely the existence of such schemes is one of the most frequently cited success factors. While in Europe, the Commission and member countries have massively invested in this concept through research and financial support programs, no projects under the PED concept have been identified in Switzerland. Taking as reference (a) existing Swiss energy programs (e.g. 2000W Society), (b) current theory on socio-technical systems and transitions management, (c) societal energy aspirations and (d) availability of innovative technologies, this project's main research question are : are PEDs a suitable instrument to govern the Swiss energy transition? What learnings for governance, citizens involvement, socio-technical implementation and technology deployment are becoming decisive? What would be critical next actions (further research and guidelines) in order to upscale PED in Switzerland? To answer these questions, a participative and interdisciplinary approach is proposed including four perspectives (society, policy, business and technological) to address typology and scalability of existing cases under the full range of conditions in European countries. With this approach, the main objectives addressed are:\r\nObjective 1: Identification and analysis of existing PEDs concepts and challenges. This addresses the research question: Whether or how existing concepts (including CH PED related concepts) successfully address and coordinate the needs of involved actors in CH and EU?\r\nObjective 2: Potential impact of PEDs on the Swiss energy transition context. This addresses the research question: What is the expected impact of the deployment of PEDs in the Swiss energy transition context (business model, society and technology), including interaction with Swiss related concepts (e.g., 2000W society, Minergie, prosumer and self-consumption communities)?\r\nObjective 3: A deeper understanding of an effective deployment of PED concepts in the Swiss context. This addresses the research question: What are the specific coordination requirements of actors for an effective PED deployment in Switzerland?\""},"en":{"id":19678,"title":"Are PEDs a suitable instrument to govern the Swiss energy transition ?\r\nPrime FNS - PEDSET","description":"\"Globally, societies have accepted Anthropocene climate change as a fact and are multiplying efforts to address this challenge. In Switzerland, the parliament has recently (25.09.2020) adopted a complete revision of the CO2 law, setting the objectives and measures of the Swiss climate policy until 2030. The challenge crosses sectors and domains, and for this reason, solutions can only be found through collective innovation efforts spanning a broad spectrum of interdisciplinary sciences. New paradigms are being introduced. The concept of Positive Energy Districts (PEDs) is one such paradigm. The principle of PEDs is to create an area within a city's boundaries capable of generating more energy than consumed and agile\/flexible enough to respond to the dynamics of the energy market. Thus, PEDs offer a framework to promote higher energy efficiency, higher renewable energy generation, and higher flexibility in energy management at the local level. The rationale for tackling problems at the neighbourhood scale is that it enables coordination of energy use between buildings, while allowing more flexibility than e.g. the city scale. PEDs aim to have a positive impact on the regional energy system beyond energy balance, for example by providing flexibility or increasing system resilience. The concept of PEDs integrates a wide range of physical scales of objects, from domestic appliances to regional energy networks, as well as a broad range of human activities such as behaviour, laws, taxation etc. Its study therefore integrates a wide spectrum of sciences (e.g., technology, society, business and policy).\r\nIn a recent synthesis of 61 European PED and towards-PED cases, Bossi et al. (2020) note that the lack of appropriate business models and funding schemes is the most frequent challenge in the implementation of projects; conversely the existence of such schemes is one of the most frequently cited success factors. While in Europe, the Commission and member countries have massively invested in this concept through research and financial support programs, no projects under the PED concept have been identified in Switzerland. Taking as reference (a) existing Swiss energy programs (e.g. 2000W Society), (b) current theory on socio-technical systems and transitions management, (c) societal energy aspirations and (d) availability of innovative technologies, this project's main research question are : are PEDs a suitable instrument to govern the Swiss energy transition? What learnings for governance, citizens involvement, socio-technical implementation and technology deployment are becoming decisive? What would be critical next actions (further research and guidelines) in order to upscale PED in Switzerland? To answer these questions, a participative and interdisciplinary approach is proposed including four perspectives (society, policy, business and technological) to address typology and scalability of existing cases under the full range of conditions in European countries. With this approach, the main objectives addressed are:\r\nObjective 1: Identification and analysis of existing PEDs concepts and challenges. This addresses the research question: Whether or how existing concepts (including CH PED related concepts) successfully address and coordinate the needs of involved actors in CH and EU?\r\nObjective 2: Potential impact of PEDs on the Swiss energy transition context. This addresses the research question: What is the expected impact of the deployment of PEDs in the Swiss energy transition context (business model, society and technology), including interaction with Swiss related concepts (e.g., 2000W society, Minergie, prosumer and self-consumption communities)?\r\nObjective 3: A deeper understanding of an effective deployment of PED concepts in the Swiss context. This addresses the research question: What are the specific coordination requirements of actors for an effective PED deployment in Switzerland?\""},"de":{"id":19679,"title":"Are PEDs a suitable instrument to govern the Swiss energy transition ?\r\nPrime FNS - PEDSET","description":"\"Globally, societies have accepted Anthropocene climate change as a fact and are multiplying efforts to address this challenge. In Switzerland, the parliament has recently (25.09.2020) adopted a complete revision of the CO2 law, setting the objectives and measures of the Swiss climate policy until 2030. The challenge crosses sectors and domains, and for this reason, solutions can only be found through collective innovation efforts spanning a broad spectrum of interdisciplinary sciences. New paradigms are being introduced. The concept of Positive Energy Districts (PEDs) is one such paradigm. The principle of PEDs is to create an area within a city's boundaries capable of generating more energy than consumed and agile\/flexible enough to respond to the dynamics of the energy market. Thus, PEDs offer a framework to promote higher energy efficiency, higher renewable energy generation, and higher flexibility in energy management at the local level. The rationale for tackling problems at the neighbourhood scale is that it enables coordination of energy use between buildings, while allowing more flexibility than e.g. the city scale. PEDs aim to have a positive impact on the regional energy system beyond energy balance, for example by providing flexibility or increasing system resilience. The concept of PEDs integrates a wide range of physical scales of objects, from domestic appliances to regional energy networks, as well as a broad range of human activities such as behaviour, laws, taxation etc. Its study therefore integrates a wide spectrum of sciences (e.g., technology, society, business and policy).\r\nIn a recent synthesis of 61 European PED and towards-PED cases, Bossi et al. (2020) note that the lack of appropriate business models and funding schemes is the most frequent challenge in the implementation of projects; conversely the existence of such schemes is one of the most frequently cited success factors. While in Europe, the Commission and member countries have massively invested in this concept through research and financial support programs, no projects under the PED concept have been identified in Switzerland. Taking as reference (a) existing Swiss energy programs (e.g. 2000W Society), (b) current theory on socio-technical systems and transitions management, (c) societal energy aspirations and (d) availability of innovative technologies, this project's main research question are : are PEDs a suitable instrument to govern the Swiss energy transition? What learnings for governance, citizens involvement, socio-technical implementation and technology deployment are becoming decisive? What would be critical next actions (further research and guidelines) in order to upscale PED in Switzerland? To answer these questions, a participative and interdisciplinary approach is proposed including four perspectives (society, policy, business and technological) to address typology and scalability of existing cases under the full range of conditions in European countries. With this approach, the main objectives addressed are:\r\nObjective 1: Identification and analysis of existing PEDs concepts and challenges. This addresses the research question: Whether or how existing concepts (including CH PED related concepts) successfully address and coordinate the needs of involved actors in CH and EU?\r\nObjective 2: Potential impact of PEDs on the Swiss energy transition context. This addresses the research question: What is the expected impact of the deployment of PEDs in the Swiss energy transition context (business model, society and technology), including interaction with Swiss related concepts (e.g., 2000W society, Minergie, prosumer and self-consumption communities)?\r\nObjective 3: A deeper understanding of an effective deployment of PED concepts in the Swiss context. This addresses the research question: What are the specific coordination requirements of actors for an effective PED deployment in Switzerland?\""}},"id":119114,"acronym":"P7 - Prime FNS - PEDSET","mainTitle":"Are PEDs a suitable instrument to govern the Swiss energy transition ?\r\nPrime FNS - PEDSET","mainDescription":"\"Globally, societies have accepted Anthropocene climate change as a fact and are multiplying efforts to address this challenge. In Switzerland, the parliament has recently (25.09.2020) adopted a complete revision of the CO2 law, setting the objectives and measures of the Swiss climate policy until 2030. The challenge crosses sectors and domains, and for this reason, solutions can only be found through collective innovation efforts spanning a broad spectrum of interdisciplinary sciences. New paradigms are being introduced. The concept of Positive Energy Districts (PEDs) is one such paradigm. The principle of PEDs is to create an area within a city's boundaries capable of generating more energy than consumed and agile\/flexible enough to respond to the dynamics of the energy market. Thus, PEDs offer a framework to promote higher energy efficiency, higher renewable energy generation, and higher flexibility in energy management at the local level. The rationale for tackling problems at the neighbourhood scale is that it enables coordination of energy use between buildings, while allowing more flexibility than e.g. the city scale. PEDs aim to have a positive impact on the regional energy system beyond energy balance, for example by providing flexibility or increasing system resilience. The concept of PEDs integrates a wide range of physical scales of objects, from domestic appliances to regional energy networks, as well as a broad range of human activities such as behaviour, laws, taxation etc. Its study therefore integrates a wide spectrum of sciences (e.g., technology, society, business and policy).\r\nIn a recent synthesis of 61 European PED and towards-PED cases, Bossi et al. (2020) note that the lack of appropriate business models and funding schemes is the most frequent challenge in the implementation of projects; conversely the existence of such schemes is one of the most frequently cited success factors. While in Europe, the Commission and member countries have massively invested in this concept through research and financial support programs, no projects under the PED concept have been identified in Switzerland. Taking as reference (a) existing Swiss energy programs (e.g. 2000W Society), (b) current theory on socio-technical systems and transitions management, (c) societal energy aspirations and (d) availability of innovative technologies, this project's main research question are : are PEDs a suitable instrument to govern the Swiss energy transition? What learnings for governance, citizens involvement, socio-technical implementation and technology deployment are becoming decisive? What would be critical next actions (further research and guidelines) in order to upscale PED in Switzerland? To answer these questions, a participative and interdisciplinary approach is proposed including four perspectives (society, policy, business and technological) to address typology and scalability of existing cases under the full range of conditions in European countries. With this approach, the main objectives addressed are:\r\nObjective 1: Identification and analysis of existing PEDs concepts and challenges. This addresses the research question: Whether or how existing concepts (including CH PED related concepts) successfully address and coordinate the needs of involved actors in CH and EU?\r\nObjective 2: Potential impact of PEDs on the Swiss energy transition context. This addresses the research question: What is the expected impact of the deployment of PEDs in the Swiss energy transition context (business model, society and technology), including interaction with Swiss related concepts (e.g., 2000W society, Minergie, prosumer and self-consumption communities)?\r\nObjective 3: A deeper understanding of an effective deployment of PED concepts in the Swiss context. This addresses the research question: What are the specific coordination requirements of actors for an effective PED deployment in Switzerland?\"","value":"15000.00","finished":false,"pilier":6,"url":null,"keywords":null,"disciplines":[],"axes":[],"partners":[{"id":1841329,"name":"","confidential":false,"types":[{"id":3,"code":"RP"},{"id":4,"code":"CO"}],"institution":"HEPIA inPACT","class":"academique"}],"collaborators":[{"id":7781506,"role":"RP","display":false,"displayRole":true,"displayFinancialPartner":true,"displayAcademicPartner":true,"displayProfessionalPartner":true,"collaborator":"ricardo.lima","project":119114}],"dataHub":true,"startAt":"2022-04-12T00:00:00+02:00","endAt":"2026-05-31T00:00:00+02:00","fundingSource":"HES-SO Rectorat","publications":[],"projectUrl":null,"repo_name":null}}

{"id":7774912,"role":"RP","display":false,"displayRole":true,"displayFinancialPartner":true,"displayAcademicPartner":true,"displayProfessionalPartner":true,"collaborator":"ricardo.lima","project":{"translations":{"fr":{"id":19668,"title":"Low temperature district heating and cooling networks asa nucleus for a 100% renewable energy system. Prime H2020 \/ Horizon EU - INTEGRATE3","description":"The The vast majority of district heating and cooling (DHC) systems in Europe (and beyond) can be classified as 2nd or 3rd generation with low decarbonization potential. Current research is focussing on the 4th generation of DHC networks and beyond with up to 100% renewablesand waste heat, however there are still significant barriers for an efficient and large-scale implementation of 4th and 5th generation DHC networks.\r\nINTEGRATE3 will develop, validate and replicate key enabling solutions on a technological and strategic level as well as innovative business models for significantly improving the performance and the business case of DHC networks on a local, urban and national scale and for a large variety of network conditions in the EU. The INTEGRATE3 solutions will enable a powerful (r)evolution towards significantly reduced network temperature levels, that in turn will trigger large potentials for increasing the network efficiency, the share of renewable, waste heat sources, storage optionsand end user involvement.\r\nThe INTEGRATE3 solutions will support the further diffusion of 4th and 5th generation DHC networks and the decarbonization of 2nd and 3rd generation DHC networks as well as initiate key synergies for sector integration with the national grid and that way benefitting from overall energy system optimization.\r\nThis will be achieved by: 1. Developing key enabling solutionsat three levels (local level: Key innovations for low temperature DHC networks, urban level: Decarbonisation of urban DHC networks and national level:Synergies to the national energy system. Those solutions will be amplified and connected via the development of key enabling and innovative business models. 2. Validating the INTEGRATE3 solutions in 4 dedicated validation sitesand 3. Developing partner-backed viable plans for the demonstration, exploitation and replication of the INTEGRATE3 solutions in different H&C marketsand climate zones in Europe including 6 replication sites."},"en":{"id":19669,"title":"Low temperature district heating and cooling networks asa nucleus for a 100% renewable energy system. Prime H2020 \/ Horizon EU - INTEGRATE3","description":"The The vast majority of district heating and cooling (DHC) systems in Europe (and beyond) can be classified as 2nd or 3rd generation with low decarbonization potential. Current research is focussing on the 4th generation of DHC networks and beyond with up to 100% renewablesand waste heat, however there are still significant barriers for an efficient and large-scale implementation of 4th and 5th generation DHC networks.\r\nINTEGRATE3 will develop, validate and replicate key enabling solutions on a technological and strategic level as well as innovative business models for significantly improving the performance and the business case of DHC networks on a local, urban and national scale and for a large variety of network conditions in the EU. The INTEGRATE3 solutions will enable a powerful (r)evolution towards significantly reduced network temperature levels, that in turn will trigger large potentials for increasing the network efficiency, the share of renewable, waste heat sources, storage optionsand end user involvement.\r\nThe INTEGRATE3 solutions will support the further diffusion of 4th and 5th generation DHC networks and the decarbonization of 2nd and 3rd generation DHC networks as well as initiate key synergies for sector integration with the national grid and that way benefitting from overall energy system optimization.\r\nThis will be achieved by: 1. Developing key enabling solutionsat three levels (local level: Key innovations for low temperature DHC networks, urban level: Decarbonisation of urban DHC networks and national level:Synergies to the national energy system. Those solutions will be amplified and connected via the development of key enabling and innovative business models. 2. Validating the INTEGRATE3 solutions in 4 dedicated validation sitesand 3. Developing partner-backed viable plans for the demonstration, exploitation and replication of the INTEGRATE3 solutions in different H&C marketsand climate zones in Europe including 6 replication sites."},"de":{"id":19670,"title":"Low temperature district heating and cooling networks asa nucleus for a 100% renewable energy system. Prime H2020 \/ Horizon EU - INTEGRATE3","description":"The The vast majority of district heating and cooling (DHC) systems in Europe (and beyond) can be classified as 2nd or 3rd generation with low decarbonization potential. Current research is focussing on the 4th generation of DHC networks and beyond with up to 100% renewablesand waste heat, however there are still significant barriers for an efficient and large-scale implementation of 4th and 5th generation DHC networks.\r\nINTEGRATE3 will develop, validate and replicate key enabling solutions on a technological and strategic level as well as innovative business models for significantly improving the performance and the business case of DHC networks on a local, urban and national scale and for a large variety of network conditions in the EU. The INTEGRATE3 solutions will enable a powerful (r)evolution towards significantly reduced network temperature levels, that in turn will trigger large potentials for increasing the network efficiency, the share of renewable, waste heat sources, storage optionsand end user involvement.\r\nThe INTEGRATE3 solutions will support the further diffusion of 4th and 5th generation DHC networks and the decarbonization of 2nd and 3rd generation DHC networks as well as initiate key synergies for sector integration with the national grid and that way benefitting from overall energy system optimization.\r\nThis will be achieved by: 1. Developing key enabling solutionsat three levels (local level: Key innovations for low temperature DHC networks, urban level: Decarbonisation of urban DHC networks and national level:Synergies to the national energy system. Those solutions will be amplified and connected via the development of key enabling and innovative business models. 2. Validating the INTEGRATE3 solutions in 4 dedicated validation sitesand 3. Developing partner-backed viable plans for the demonstration, exploitation and replication of the INTEGRATE3 solutions in different H&C marketsand climate zones in Europe including 6 replication sites."}},"id":119108,"acronym":"P3 - Prime H2020 - Horizon EU - INTEGRATE3","mainTitle":"Low temperature district heating and cooling networks asa nucleus for a 100% renewable energy system. Prime H2020 \/ Horizon EU - INTEGRATE3","mainDescription":"The The vast majority of district heating and cooling (DHC) systems in Europe (and beyond) can be classified as 2nd or 3rd generation with low decarbonization potential. Current research is focussing on the 4th generation of DHC networks and beyond with up to 100% renewablesand waste heat, however there are still significant barriers for an efficient and large-scale implementation of 4th and 5th generation DHC networks.\r\nINTEGRATE3 will develop, validate and replicate key enabling solutions on a technological and strategic level as well as innovative business models for significantly improving the performance and the business case of DHC networks on a local, urban and national scale and for a large variety of network conditions in the EU. The INTEGRATE3 solutions will enable a powerful (r)evolution towards significantly reduced network temperature levels, that in turn will trigger large potentials for increasing the network efficiency, the share of renewable, waste heat sources, storage optionsand end user involvement.\r\nThe INTEGRATE3 solutions will support the further diffusion of 4th and 5th generation DHC networks and the decarbonization of 2nd and 3rd generation DHC networks as well as initiate key synergies for sector integration with the national grid and that way benefitting from overall energy system optimization.\r\nThis will be achieved by: 1. Developing key enabling solutionsat three levels (local level: Key innovations for low temperature DHC networks, urban level: Decarbonisation of urban DHC networks and national level:Synergies to the national energy system. Those solutions will be amplified and connected via the development of key enabling and innovative business models. 2. Validating the INTEGRATE3 solutions in 4 dedicated validation sitesand 3. Developing partner-backed viable plans for the demonstration, exploitation and replication of the INTEGRATE3 solutions in different H&C marketsand climate zones in Europe including 6 replication sites.","value":"7500.00","finished":false,"pilier":6,"url":null,"keywords":null,"disciplines":[],"axes":[],"partners":[{"id":1839449,"name":"","confidential":false,"types":[{"id":3,"code":"RP"},{"id":4,"code":"CO"}],"institution":"HEPIA inPACT","class":"academique"}],"collaborators":[{"id":7774912,"role":"RP","display":false,"displayRole":true,"displayFinancialPartner":true,"displayAcademicPartner":true,"displayProfessionalPartner":true,"collaborator":"ricardo.lima","project":119108}],"dataHub":true,"startAt":"2022-04-12T00:00:00+02:00","endAt":"2025-12-31T00:00:00+01:00","fundingSource":"HES-SO Rectorat","publications":[],"projectUrl":null,"repo_name":null}}

{"id":7774233,"role":"RP","display":false,"displayRole":true,"displayFinancialPartner":true,"displayAcademicPartner":true,"displayProfessionalPartner":true,"collaborator":"ricardo.lima","project":{"translations":{"fr":{"id":25292,"title":"R\u00e9seau de Distribution de Chaleur et de Froid de 6\u00e8me G\u00e9n\u00e9ration : Simulation et Essai Exp\u00e9rimental.","description":"Les r\u00e9seaux de distribution d'\u00e9nergie thermique sont des composants importants du syst\u00e8me \u00e9nerg\u00e9tique territorial. Malgr\u00e9 les avanc\u00e9es technologiques de 5 g\u00e9n\u00e9rations successives de r\u00e9seaux, le principe de base ' circulation d'un fluide monophasique avec \u00e9change de chaleur sensible ' est rest\u00e9 inchang\u00e9. Le but de ce projet est de simuler et d'exp\u00e9rimenter un innovant r\u00e9seau de distribution de chaleur et de froid de 6\u00e8me g\u00e9n\u00e9ration, le r\u00e9seau CO2.  \r\nLe principe du premier r\u00e9seau de distribution de chaleur, datant de 14\u00e8me si\u00e8cle, est rest\u00e9 inchang\u00e9e pendant 4 g\u00e9n\u00e9rations technologiques : production de l'\u00e9nergie-chaleur distribu\u00e9e par un fluide monophasique avec un grand \u00e9cart de temp\u00e9rature avec l'environnement. Ce syst\u00e8me est caract\u00e9ris\u00e9 par une seule prestation (chauffage ou refroidissement), des r\u00f4les producteur et consommateur fig\u00e9s (aucune interaction), des \u00e9carts de temp\u00e9rature \u00e9lev\u00e9s entre le fluide et l'environnement (pertes), et une densit\u00e9 \u00e9nerg\u00e9tique moyenne imposant des diam\u00e8tres inadapt\u00e9s \u00e0 un d\u00e9ploiement urbain. En alternative, le r\u00e9seau de 5\u00e8me g\u00e9n\u00e9ration - r\u00e9seau aenergie - distribue de l'eau froide (temp\u00e9rature ambiante 10 \u00e0 25\u00b0C). Cette eau alimente des pompes \u00e0 chaleur ou de froid qui \u00e9l\u00e8vent ou diminuent la temp\u00e9rature de la puissance-chaleur aux niveaux requis. La diminution de la temp\u00e9rature du r\u00e9seau a permis de r\u00e9duire les pertes, mais a provoqu\u00e9 une diminution de sa densit\u00e9 \u00e9nerg\u00e9tique compens\u00e9e par l'augmentation du diam\u00e8tre du r\u00e9seau. Cela rend ce r\u00e9seau encore moins adapt\u00e9 au tissu urbain, o\u00f9 le sous-sol est d\u00e9j\u00e0 surexploit\u00e9 et o\u00f9 les gros travaux ont un fort impact sur l'\u00e9conomie locale. Afin de r\u00e9soudre cette probl\u00e9matique, une 6\u00e8me g\u00e9n\u00e9ration de r\u00e9seaux a \u00e9t\u00e9 d\u00e9velopp\u00e9e, le r\u00e9seau CO2. Ce r\u00e9seau utilise un fluide caloporteur sous les phases de liquide et de vapeur (syst\u00e8me diphasique) et utilise l'enthalpie de vaporisation et\/ou de condensation pour \u00e9changer sa chaleur. Ce syst\u00e8me cumule les avantages de toutes les g\u00e9n\u00e9rations pr\u00e9c\u00e9dentes. En exploitant la densit\u00e9 \u00e9nerg\u00e9tique associ\u00e9e au changement de phase, ce r\u00e9seau utilise un diam\u00e8tre de conduite plus compact, plus simple \u00e0 d\u00e9ployer. \r\n \r\nS'agissant d'une technologie r\u00e9cente, il n'existe ni de mod\u00e8le num\u00e9rique ni d'installation physique. Or, il est important de disposer d'un outil exp\u00e9rimental permettant d'\u00e9tudier de mani\u00e8re simple et s\u00e9curis\u00e9e le comportement du r\u00e9seau et de ses composants face \u00e0 diff\u00e9rents types de sollicitations. De m\u00eame, un outil num\u00e9rique doit permettre d'optimiser les d\u00e9marches exp\u00e9rimentales. \r\n \r\nLe but de ce projet est d'\u00e9tudier le comportement dynamique, par la simulation et l'exp\u00e9rimentation, d'un innovant r\u00e9seau de distribution de chaleur et de froid de 6\u00e8me g\u00e9n\u00e9ration, le r\u00e9seau CO2. Les objectifs sont (a) caract\u00e9riser et transposer un cas d'\u00e9tude afin de (b) le mod\u00e9liser et de le simuler num\u00e9riquement, (c) d'\u00e9muler son fonctionnement exp\u00e9rimentalement avec une installation \u00e0 l'\u00e9chelle, et (d) de valoriser et diffuser les acquis. Les connaissances acquises permettront de comprendre la dynamique d'un tel r\u00e9seau, notamment au vu des interactions stochastiques entre producteurs\/consommateurs et entre r\u00e9seaux thermiques et \u00e9lectriques. Seront \u00e9galement maitris\u00e9s les composants constituant le r\u00e9seau. Finalement, l'exp\u00e9rience acquise permettra au consortium de poursuivre sa collaboration et d'entreprendre la conception, le d\u00e9ploiement et le support technico-scientifique de syst\u00e8mes dans le cadre de futurs projets de plus grande envergure."},"en":{"id":25293,"title":"R\u00e9seau de Distribution de Chaleur et de Froid de 6\u00e8me G\u00e9n\u00e9ration : Simulation et Essai Exp\u00e9rimental.","description":"Les r\u00e9seaux de distribution d'\u00e9nergie thermique sont des composants importants du syst\u00e8me \u00e9nerg\u00e9tique territorial. Malgr\u00e9 les avanc\u00e9es technologiques de 5 g\u00e9n\u00e9rations successives de r\u00e9seaux, le principe de base ' circulation d'un fluide monophasique avec \u00e9change de chaleur sensible ' est rest\u00e9 inchang\u00e9. Le but de ce projet est de simuler et d'exp\u00e9rimenter un innovant r\u00e9seau de distribution de chaleur et de froid de 6\u00e8me g\u00e9n\u00e9ration, le r\u00e9seau CO2.  \r\nLe principe du premier r\u00e9seau de distribution de chaleur, datant de 14\u00e8me si\u00e8cle, est rest\u00e9 inchang\u00e9e pendant 4 g\u00e9n\u00e9rations technologiques : production de l'\u00e9nergie-chaleur distribu\u00e9e par un fluide monophasique avec un grand \u00e9cart de temp\u00e9rature avec l'environnement. Ce syst\u00e8me est caract\u00e9ris\u00e9 par une seule prestation (chauffage ou refroidissement), des r\u00f4les producteur et consommateur fig\u00e9s (aucune interaction), des \u00e9carts de temp\u00e9rature \u00e9lev\u00e9s entre le fluide et l'environnement (pertes), et une densit\u00e9 \u00e9nerg\u00e9tique moyenne imposant des diam\u00e8tres inadapt\u00e9s \u00e0 un d\u00e9ploiement urbain. En alternative, le r\u00e9seau de 5\u00e8me g\u00e9n\u00e9ration - r\u00e9seau aenergie - distribue de l'eau froide (temp\u00e9rature ambiante 10 \u00e0 25\u00b0C). Cette eau alimente des pompes \u00e0 chaleur ou de froid qui \u00e9l\u00e8vent ou diminuent la temp\u00e9rature de la puissance-chaleur aux niveaux requis. La diminution de la temp\u00e9rature du r\u00e9seau a permis de r\u00e9duire les pertes, mais a provoqu\u00e9 une diminution de sa densit\u00e9 \u00e9nerg\u00e9tique compens\u00e9e par l'augmentation du diam\u00e8tre du r\u00e9seau. Cela rend ce r\u00e9seau encore moins adapt\u00e9 au tissu urbain, o\u00f9 le sous-sol est d\u00e9j\u00e0 surexploit\u00e9 et o\u00f9 les gros travaux ont un fort impact sur l'\u00e9conomie locale. Afin de r\u00e9soudre cette probl\u00e9matique, une 6\u00e8me g\u00e9n\u00e9ration de r\u00e9seaux a \u00e9t\u00e9 d\u00e9velopp\u00e9e, le r\u00e9seau CO2. Ce r\u00e9seau utilise un fluide caloporteur sous les phases de liquide et de vapeur (syst\u00e8me diphasique) et utilise l'enthalpie de vaporisation et\/ou de condensation pour \u00e9changer sa chaleur. Ce syst\u00e8me cumule les avantages de toutes les g\u00e9n\u00e9rations pr\u00e9c\u00e9dentes. En exploitant la densit\u00e9 \u00e9nerg\u00e9tique associ\u00e9e au changement de phase, ce r\u00e9seau utilise un diam\u00e8tre de conduite plus compact, plus simple \u00e0 d\u00e9ployer. \r\n \r\nS'agissant d'une technologie r\u00e9cente, il n'existe ni de mod\u00e8le num\u00e9rique ni d'installation physique. Or, il est important de disposer d'un outil exp\u00e9rimental permettant d'\u00e9tudier de mani\u00e8re simple et s\u00e9curis\u00e9e le comportement du r\u00e9seau et de ses composants face \u00e0 diff\u00e9rents types de sollicitations. De m\u00eame, un outil num\u00e9rique doit permettre d'optimiser les d\u00e9marches exp\u00e9rimentales. \r\n \r\nLe but de ce projet est d'\u00e9tudier le comportement dynamique, par la simulation et l'exp\u00e9rimentation, d'un innovant r\u00e9seau de distribution de chaleur et de froid de 6\u00e8me g\u00e9n\u00e9ration, le r\u00e9seau CO2. Les objectifs sont (a) caract\u00e9riser et transposer un cas d'\u00e9tude afin de (b) le mod\u00e9liser et de le simuler num\u00e9riquement, (c) d'\u00e9muler son fonctionnement exp\u00e9rimentalement avec une installation \u00e0 l'\u00e9chelle, et (d) de valoriser et diffuser les acquis. Les connaissances acquises permettront de comprendre la dynamique d'un tel r\u00e9seau, notamment au vu des interactions stochastiques entre producteurs\/consommateurs et entre r\u00e9seaux thermiques et \u00e9lectriques. Seront \u00e9galement maitris\u00e9s les composants constituant le r\u00e9seau. Finalement, l'exp\u00e9rience acquise permettra au consortium de poursuivre sa collaboration et d'entreprendre la conception, le d\u00e9ploiement et le support technico-scientifique de syst\u00e8mes dans le cadre de futurs projets de plus grande envergure."},"de":{"id":25294,"title":"R\u00e9seau de Distribution de Chaleur et de Froid de 6\u00e8me G\u00e9n\u00e9ration : Simulation et Essai Exp\u00e9rimental.","description":"Les r\u00e9seaux de distribution d'\u00e9nergie thermique sont des composants importants du syst\u00e8me \u00e9nerg\u00e9tique territorial. Malgr\u00e9 les avanc\u00e9es technologiques de 5 g\u00e9n\u00e9rations successives de r\u00e9seaux, le principe de base ' circulation d'un fluide monophasique avec \u00e9change de chaleur sensible ' est rest\u00e9 inchang\u00e9. Le but de ce projet est de simuler et d'exp\u00e9rimenter un innovant r\u00e9seau de distribution de chaleur et de froid de 6\u00e8me g\u00e9n\u00e9ration, le r\u00e9seau CO2.  \r\nLe principe du premier r\u00e9seau de distribution de chaleur, datant de 14\u00e8me si\u00e8cle, est rest\u00e9 inchang\u00e9e pendant 4 g\u00e9n\u00e9rations technologiques : production de l'\u00e9nergie-chaleur distribu\u00e9e par un fluide monophasique avec un grand \u00e9cart de temp\u00e9rature avec l'environnement. Ce syst\u00e8me est caract\u00e9ris\u00e9 par une seule prestation (chauffage ou refroidissement), des r\u00f4les producteur et consommateur fig\u00e9s (aucune interaction), des \u00e9carts de temp\u00e9rature \u00e9lev\u00e9s entre le fluide et l'environnement (pertes), et une densit\u00e9 \u00e9nerg\u00e9tique moyenne imposant des diam\u00e8tres inadapt\u00e9s \u00e0 un d\u00e9ploiement urbain. En alternative, le r\u00e9seau de 5\u00e8me g\u00e9n\u00e9ration - r\u00e9seau aenergie - distribue de l'eau froide (temp\u00e9rature ambiante 10 \u00e0 25\u00b0C). Cette eau alimente des pompes \u00e0 chaleur ou de froid qui \u00e9l\u00e8vent ou diminuent la temp\u00e9rature de la puissance-chaleur aux niveaux requis. La diminution de la temp\u00e9rature du r\u00e9seau a permis de r\u00e9duire les pertes, mais a provoqu\u00e9 une diminution de sa densit\u00e9 \u00e9nerg\u00e9tique compens\u00e9e par l'augmentation du diam\u00e8tre du r\u00e9seau. Cela rend ce r\u00e9seau encore moins adapt\u00e9 au tissu urbain, o\u00f9 le sous-sol est d\u00e9j\u00e0 surexploit\u00e9 et o\u00f9 les gros travaux ont un fort impact sur l'\u00e9conomie locale. Afin de r\u00e9soudre cette probl\u00e9matique, une 6\u00e8me g\u00e9n\u00e9ration de r\u00e9seaux a \u00e9t\u00e9 d\u00e9velopp\u00e9e, le r\u00e9seau CO2. Ce r\u00e9seau utilise un fluide caloporteur sous les phases de liquide et de vapeur (syst\u00e8me diphasique) et utilise l'enthalpie de vaporisation et\/ou de condensation pour \u00e9changer sa chaleur. Ce syst\u00e8me cumule les avantages de toutes les g\u00e9n\u00e9rations pr\u00e9c\u00e9dentes. En exploitant la densit\u00e9 \u00e9nerg\u00e9tique associ\u00e9e au changement de phase, ce r\u00e9seau utilise un diam\u00e8tre de conduite plus compact, plus simple \u00e0 d\u00e9ployer. \r\n \r\nS'agissant d'une technologie r\u00e9cente, il n'existe ni de mod\u00e8le num\u00e9rique ni d'installation physique. Or, il est important de disposer d'un outil exp\u00e9rimental permettant d'\u00e9tudier de mani\u00e8re simple et s\u00e9curis\u00e9e le comportement du r\u00e9seau et de ses composants face \u00e0 diff\u00e9rents types de sollicitations. De m\u00eame, un outil num\u00e9rique doit permettre d'optimiser les d\u00e9marches exp\u00e9rimentales. \r\n \r\nLe but de ce projet est d'\u00e9tudier le comportement dynamique, par la simulation et l'exp\u00e9rimentation, d'un innovant r\u00e9seau de distribution de chaleur et de froid de 6\u00e8me g\u00e9n\u00e9ration, le r\u00e9seau CO2. Les objectifs sont (a) caract\u00e9riser et transposer un cas d'\u00e9tude afin de (b) le mod\u00e9liser et de le simuler num\u00e9riquement, (c) d'\u00e9muler son fonctionnement exp\u00e9rimentalement avec une installation \u00e0 l'\u00e9chelle, et (d) de valoriser et diffuser les acquis. Les connaissances acquises permettront de comprendre la dynamique d'un tel r\u00e9seau, notamment au vu des interactions stochastiques entre producteurs\/consommateurs et entre r\u00e9seaux thermiques et \u00e9lectriques. Seront \u00e9galement maitris\u00e9s les composants constituant le r\u00e9seau. Finalement, l'exp\u00e9rience acquise permettra au consortium de poursuivre sa collaboration et d'entreprendre la conception, le d\u00e9ploiement et le support technico-scientifique de syst\u00e8mes dans le cadre de futurs projets de plus grande envergure."}},"id":132536,"acronym":"VAL_P2 - ROADMAP","mainTitle":"R\u00e9seau de Distribution de Chaleur et de Froid de 6\u00e8me G\u00e9n\u00e9ration : Simulation et Essai Exp\u00e9rimental.","mainDescription":"Les r\u00e9seaux de distribution d'\u00e9nergie thermique sont des composants importants du syst\u00e8me \u00e9nerg\u00e9tique territorial. Malgr\u00e9 les avanc\u00e9es technologiques de 5 g\u00e9n\u00e9rations successives de r\u00e9seaux, le principe de base ' circulation d'un fluide monophasique avec \u00e9change de chaleur sensible ' est rest\u00e9 inchang\u00e9. Le but de ce projet est de simuler et d'exp\u00e9rimenter un innovant r\u00e9seau de distribution de chaleur et de froid de 6\u00e8me g\u00e9n\u00e9ration, le r\u00e9seau CO2.  \r\nLe principe du premier r\u00e9seau de distribution de chaleur, datant de 14\u00e8me si\u00e8cle, est rest\u00e9 inchang\u00e9e pendant 4 g\u00e9n\u00e9rations technologiques : production de l'\u00e9nergie-chaleur distribu\u00e9e par un fluide monophasique avec un grand \u00e9cart de temp\u00e9rature avec l'environnement. Ce syst\u00e8me est caract\u00e9ris\u00e9 par une seule prestation (chauffage ou refroidissement), des r\u00f4les producteur et consommateur fig\u00e9s (aucune interaction), des \u00e9carts de temp\u00e9rature \u00e9lev\u00e9s entre le fluide et l'environnement (pertes), et une densit\u00e9 \u00e9nerg\u00e9tique moyenne imposant des diam\u00e8tres inadapt\u00e9s \u00e0 un d\u00e9ploiement urbain. En alternative, le r\u00e9seau de 5\u00e8me g\u00e9n\u00e9ration - r\u00e9seau aenergie - distribue de l'eau froide (temp\u00e9rature ambiante 10 \u00e0 25\u00b0C). Cette eau alimente des pompes \u00e0 chaleur ou de froid qui \u00e9l\u00e8vent ou diminuent la temp\u00e9rature de la puissance-chaleur aux niveaux requis. La diminution de la temp\u00e9rature du r\u00e9seau a permis de r\u00e9duire les pertes, mais a provoqu\u00e9 une diminution de sa densit\u00e9 \u00e9nerg\u00e9tique compens\u00e9e par l'augmentation du diam\u00e8tre du r\u00e9seau. Cela rend ce r\u00e9seau encore moins adapt\u00e9 au tissu urbain, o\u00f9 le sous-sol est d\u00e9j\u00e0 surexploit\u00e9 et o\u00f9 les gros travaux ont un fort impact sur l'\u00e9conomie locale. Afin de r\u00e9soudre cette probl\u00e9matique, une 6\u00e8me g\u00e9n\u00e9ration de r\u00e9seaux a \u00e9t\u00e9 d\u00e9velopp\u00e9e, le r\u00e9seau CO2. Ce r\u00e9seau utilise un fluide caloporteur sous les phases de liquide et de vapeur (syst\u00e8me diphasique) et utilise l'enthalpie de vaporisation et\/ou de condensation pour \u00e9changer sa chaleur. Ce syst\u00e8me cumule les avantages de toutes les g\u00e9n\u00e9rations pr\u00e9c\u00e9dentes. En exploitant la densit\u00e9 \u00e9nerg\u00e9tique associ\u00e9e au changement de phase, ce r\u00e9seau utilise un diam\u00e8tre de conduite plus compact, plus simple \u00e0 d\u00e9ployer. \r\n \r\nS'agissant d'une technologie r\u00e9cente, il n'existe ni de mod\u00e8le num\u00e9rique ni d'installation physique. Or, il est important de disposer d'un outil exp\u00e9rimental permettant d'\u00e9tudier de mani\u00e8re simple et s\u00e9curis\u00e9e le comportement du r\u00e9seau et de ses composants face \u00e0 diff\u00e9rents types de sollicitations. De m\u00eame, un outil num\u00e9rique doit permettre d'optimiser les d\u00e9marches exp\u00e9rimentales. \r\n \r\nLe but de ce projet est d'\u00e9tudier le comportement dynamique, par la simulation et l'exp\u00e9rimentation, d'un innovant r\u00e9seau de distribution de chaleur et de froid de 6\u00e8me g\u00e9n\u00e9ration, le r\u00e9seau CO2. Les objectifs sont (a) caract\u00e9riser et transposer un cas d'\u00e9tude afin de (b) le mod\u00e9liser et de le simuler num\u00e9riquement, (c) d'\u00e9muler son fonctionnement exp\u00e9rimentalement avec une installation \u00e0 l'\u00e9chelle, et (d) de valoriser et diffuser les acquis. Les connaissances acquises permettront de comprendre la dynamique d'un tel r\u00e9seau, notamment au vu des interactions stochastiques entre producteurs\/consommateurs et entre r\u00e9seaux thermiques et \u00e9lectriques. Seront \u00e9galement maitris\u00e9s les composants constituant le r\u00e9seau. Finalement, l'exp\u00e9rience acquise permettra au consortium de poursuivre sa collaboration et d'entreprendre la conception, le d\u00e9ploiement et le support technico-scientifique de syst\u00e8mes dans le cadre de futurs projets de plus grande envergure.","value":"12500.00","finished":false,"pilier":6,"url":null,"keywords":null,"disciplines":[],"axes":[],"partners":[{"id":1839292,"name":"","confidential":false,"types":[{"id":3,"code":"RP"},{"id":4,"code":"CO"}],"institution":"HEPIA inPACT","class":"academique"}],"collaborators":[{"id":7774233,"role":"RP","display":false,"displayRole":true,"displayFinancialPartner":true,"displayAcademicPartner":true,"displayProfessionalPartner":true,"collaborator":"ricardo.lima","project":132536}],"dataHub":true,"startAt":"2024-05-30T00:00:00+02:00","endAt":"2025-12-31T00:00:00+01:00","fundingSource":"HES-SO Rectorat","publications":[],"projectUrl":null,"repo_name":null}}

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Moreover, social and process innovations are to be demonstrated for having different stakeholders engaged not only for the co-creation of constructions but also for post occupation stage with maintenance and use. Each demonstration has also neighbourhood dimension expanding the views over single building to cover local activities, traffic, services and collaboration between occupants. The consortium combines leading REC large companies,SMEs, municipalities as owners of demo sites and universities."},"en":{"id":19666,"title":"Creating Vortex-of-change for Sustainable Green Buildings and Neighbourhoods. Prime H2020 \/ Horizon EU - ALL4CHANGE","description":"The ALL4CHANGE project presents a holistic approach for realizing transformation of the Real Estate and Construction Sector (REC) to be significant contributor for reaching climate neutrality and improvements. The focus of ALL4CHANGE is to explore and demonstrate diffusion of systemic innovations with maximum sectoral influence. 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These include deep renovations, new building construction, building upgrades and neighborhood developments for demonstrating the capabilities of technologies with improved readiness levels achieved as results. Moreover, social and process innovations are to be demonstrated for having different stakeholders engaged not only for the co-creation of constructions but also for post occupation stage with maintenance and use. Each demonstration has also neighbourhood dimension expanding the views over single building to cover local activities, traffic, services and collaboration between occupants. The consortium combines leading REC large companies,SMEs, municipalities as owners of demo sites and universities."},"de":{"id":19667,"title":"Creating Vortex-of-change for Sustainable Green Buildings and Neighbourhoods. 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