Q3755142 (Q3755142): Difference between revisions
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(Changed label, description and/or aliases in en: Setting new description) |
(Created claim: summary (P836): The aim of the project is to use various waste and side streams generated in society to produce new raw materials. The project will develop a unique concept of circular economy ecosystem combining anaerobic and hydrometallurgical process to efficiently produce energy, organic acids, fertiliser and rare earths from local waste and side streams. The project utilises the anaerobic fermentation process in a new way, allowing bio-waste to produce org...) |
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The aim of the project is to use various waste and side streams generated in society to produce new raw materials. The project will develop a unique concept of circular economy ecosystem combining anaerobic and hydrometallurgical process to efficiently produce energy, organic acids, fertiliser and rare earths from local waste and side streams. The project utilises the anaerobic fermentation process in a new way, allowing bio-waste to produce organic acids in addition to biogas. This will be done by optimising the acid phase of the anaerobic process, where the Resource Centre has long-term expertise in several projects. The residue of the anaerobic process will be utilised by combining power plant ash to obtain a recyclable raw material suitable for fertiliser use. The organic acids produced can, after purification, be used as industrial raw materials or further recovered to recover metals from electronic waste. The University of Jyväskylä has extensive experience in the recovery of metals using hydrometallurgical methods, and the recovery of organic acids in the treatment of electronic waste has been developed in an earlier ERDF project (KITA, research platform for the circular economy, 2019-2021). The concept of circular economy ecosystem developed in this project will be piloted by Natural Resources Institute Finland and the University of Jyväskylä towards the end of the project.The solutions and results of the project will be widely communicated so that the target companies (electronic scrap recycling, biogas and energy sectors) will receive up-to-date information on the activities of the development project. The project will explore potential users of manufactured recycled products as well as commercialisers of developed processes, who will be involved in the project by organising a Circular Economy workshop during the project. The workshop will involve companies in the subject area of the project and allow the results of the development to be applied in a wide-ranging manner. The expertise of the companies involved in the development project will be used to support the development work, which can take into account, for example, the functioning of the processes in different existing plant solutions. In addition to new expertise, the project will produce new business opportunities in Central Finland and strengthen local self-sufficiency for a wide range of raw materials. When the necessary raw materials are manufactured internally from Finland’s own secondary flows, dependence on global production chains decreases and can be safeguarded even in crisis situations. Virgin natural resources are also saved and the carbon footprint of products is reduced when recycled raw materials are used. The project will result in new growth and self-sufficiency in raw materials, which will have a significant impact on recovery from the COVID-19 crisis. (English) | |||||||||||||||
| Property / summary: The aim of the project is to use various waste and side streams generated in society to produce new raw materials. The project will develop a unique concept of circular economy ecosystem combining anaerobic and hydrometallurgical process to efficiently produce energy, organic acids, fertiliser and rare earths from local waste and side streams. The project utilises the anaerobic fermentation process in a new way, allowing bio-waste to produce organic acids in addition to biogas. This will be done by optimising the acid phase of the anaerobic process, where the Resource Centre has long-term expertise in several projects. The residue of the anaerobic process will be utilised by combining power plant ash to obtain a recyclable raw material suitable for fertiliser use. The organic acids produced can, after purification, be used as industrial raw materials or further recovered to recover metals from electronic waste. The University of Jyväskylä has extensive experience in the recovery of metals using hydrometallurgical methods, and the recovery of organic acids in the treatment of electronic waste has been developed in an earlier ERDF project (KITA, research platform for the circular economy, 2019-2021). The concept of circular economy ecosystem developed in this project will be piloted by Natural Resources Institute Finland and the University of Jyväskylä towards the end of the project.The solutions and results of the project will be widely communicated so that the target companies (electronic scrap recycling, biogas and energy sectors) will receive up-to-date information on the activities of the development project. The project will explore potential users of manufactured recycled products as well as commercialisers of developed processes, who will be involved in the project by organising a Circular Economy workshop during the project. The workshop will involve companies in the subject area of the project and allow the results of the development to be applied in a wide-ranging manner. The expertise of the companies involved in the development project will be used to support the development work, which can take into account, for example, the functioning of the processes in different existing plant solutions. In addition to new expertise, the project will produce new business opportunities in Central Finland and strengthen local self-sufficiency for a wide range of raw materials. When the necessary raw materials are manufactured internally from Finland’s own secondary flows, dependence on global production chains decreases and can be safeguarded even in crisis situations. Virgin natural resources are also saved and the carbon footprint of products is reduced when recycled raw materials are used. The project will result in new growth and self-sufficiency in raw materials, which will have a significant impact on recovery from the COVID-19 crisis. (English) / rank | |||||||||||||||
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| Property / summary: The aim of the project is to use various waste and side streams generated in society to produce new raw materials. The project will develop a unique concept of circular economy ecosystem combining anaerobic and hydrometallurgical process to efficiently produce energy, organic acids, fertiliser and rare earths from local waste and side streams. The project utilises the anaerobic fermentation process in a new way, allowing bio-waste to produce organic acids in addition to biogas. This will be done by optimising the acid phase of the anaerobic process, where the Resource Centre has long-term expertise in several projects. The residue of the anaerobic process will be utilised by combining power plant ash to obtain a recyclable raw material suitable for fertiliser use. The organic acids produced can, after purification, be used as industrial raw materials or further recovered to recover metals from electronic waste. The University of Jyväskylä has extensive experience in the recovery of metals using hydrometallurgical methods, and the recovery of organic acids in the treatment of electronic waste has been developed in an earlier ERDF project (KITA, research platform for the circular economy, 2019-2021). The concept of circular economy ecosystem developed in this project will be piloted by Natural Resources Institute Finland and the University of Jyväskylä towards the end of the project.The solutions and results of the project will be widely communicated so that the target companies (electronic scrap recycling, biogas and energy sectors) will receive up-to-date information on the activities of the development project. The project will explore potential users of manufactured recycled products as well as commercialisers of developed processes, who will be involved in the project by organising a Circular Economy workshop during the project. The workshop will involve companies in the subject area of the project and allow the results of the development to be applied in a wide-ranging manner. The expertise of the companies involved in the development project will be used to support the development work, which can take into account, for example, the functioning of the processes in different existing plant solutions. In addition to new expertise, the project will produce new business opportunities in Central Finland and strengthen local self-sufficiency for a wide range of raw materials. When the necessary raw materials are manufactured internally from Finland’s own secondary flows, dependence on global production chains decreases and can be safeguarded even in crisis situations. Virgin natural resources are also saved and the carbon footprint of products is reduced when recycled raw materials are used. The project will result in new growth and self-sufficiency in raw materials, which will have a significant impact on recovery from the COVID-19 crisis. (English) / qualifier | |||||||||||||||
point in time: 23 November 2021
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Revision as of 03:36, 23 November 2021
Project Q3755142 in France
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | No label defined |
Project Q3755142 in France |
Statements
398,203 Euro
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498,753.0 Euro
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79.84 percent
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1 April 2021
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31 March 2023
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Jyväskylän yliopisto
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Hankkeen tavoitteena on käyttää erilaisia yhteiskunnassa muodostuvia jäte- ja sivuvirtoja uusien raaka-aineiden valmistamiseksi. Hankkeessa kehitetään ainutlaatuinen konsepti kiertotalouden ekosysteemistä, jossa anaerobinen ja hydrometallurginen prosessi yhdistetään tuottamaan tehokkaasti energiaa, orgaanisia happoja, lannoitetta ja harvinaisia maametalleja paikallisista jäte- ja sivuvirroista. Hankkeessa hyödynnetään anaerobista käymisprosessia uudella tavalla, jolloin biojätteestä voidaan biokaasun lisäksi tuottaa orgaanisia happoja. Tämä tullaan toteuttamaan anaerobisen prosessin happovaiheen optimoinnilla, josta Luonnonvarakeskuksella on pitkäaikaista asiantuntemusta useissa eri hankkeissa. Anaerobisen prosessin jäännöstä tullaan hyödyntämään yhdistämällä siihen voimalaitostuhkaa, jolloin saadaan lannoitekäyttöön soveltuva kierrätysraaka-aine. Tuotettuja orgaanisia happoja voidaan puhdistuksen jälkeen käyttää teollisuuden raaka-aineina, tai hyödyntää niitä edelleen metallien talteen ottamiseksi elektroniikkajätteestä. Jyväskylän yliopistolla on laaja kokemus metallien talteenotosta hydrometallurgisilla menetelmillä, ja orgaanisten happojen hyödyntämistä elektroniikkajätteen käsittelyssä on kehitetty aiemmassa EAKR-hankkeessa (Kiertotalouden tutkimusalusta KITA, 2019-2021). Tässä hankkeessa kehitettävää konseptia kiertotalouden ekosysteemistä tullaan pilotoimaan Luonnonvarakeskuksen ja Jyväskylän yliopiston toimesta hankkeen loppupuolella.Hankkeen ratkaisuista ja tuloksista viestitään laajasti, jotta kohderyhmänä toimivat yritykset (elektroniikkaromun kierrätys, biokaasu- ja energiasektorit) saavat ajantasaista tietoa kehityshankkeen toimista. Hankkeessa selvitetään valmistettujen kierrätystuotteiden mahdollisia käyttäjiä sekä kehitettyjen prosessien kaupallistajia, jotka saadaan hankkeen toimintaan mukaan järjestämällä Kiertotalouden työpaja hankkeen aikana. Työpaja-toiminta osallistaa hankkeen aihepiirin yrityksiä ja mahdollistaa kehitystyön tulosten soveltamisen laaja-alaisesti. Kehityshankkeessa mukana olevien yritysten osaamista tullaan hyödyntämään kehitystyön tukena, jolloin voidaan huomioida esimerkiksi prosessien toimivuus erilaisissa olemassa olevissa laitosratkaisuissa. Uuden osaamisen lisäksi hanke tulee tuottamaan Keski-Suomeen uusia liiketoimintamahdollisuuksia sekä vahvistamaan paikallista omavaraisuutta useiden eri raaka-aineiden osalta. Kun tarvittavat raaka-aineet valmistetaan Suomen sisäisesti omista sekundäärivirroista, riippuvuus globaaleista tuotantoketjuista vähenee ja voidaan turvata teollisuuden toiminta myös kriisitilanteissa. Myös neitseelliset luonnonvarat säästyvät ja tuotteiden hiilijalanjälki pienenee käytettäessä kierrätysraaka-aineita. Hankkeen tuloksena luodaan uutta kasvua ja omavaraisuutta raaka-aineiden suhteen, millä tulee olemaan merkittäviä vaikutuksia koronakriisistä toipumisessa. (Finnish)
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The aim of the project is to use various waste and side streams generated in society to produce new raw materials. The project will develop a unique concept of circular economy ecosystem combining anaerobic and hydrometallurgical process to efficiently produce energy, organic acids, fertiliser and rare earths from local waste and side streams. The project utilises the anaerobic fermentation process in a new way, allowing bio-waste to produce organic acids in addition to biogas. This will be done by optimising the acid phase of the anaerobic process, where the Resource Centre has long-term expertise in several projects. The residue of the anaerobic process will be utilised by combining power plant ash to obtain a recyclable raw material suitable for fertiliser use. The organic acids produced can, after purification, be used as industrial raw materials or further recovered to recover metals from electronic waste. The University of Jyväskylä has extensive experience in the recovery of metals using hydrometallurgical methods, and the recovery of organic acids in the treatment of electronic waste has been developed in an earlier ERDF project (KITA, research platform for the circular economy, 2019-2021). The concept of circular economy ecosystem developed in this project will be piloted by Natural Resources Institute Finland and the University of Jyväskylä towards the end of the project.The solutions and results of the project will be widely communicated so that the target companies (electronic scrap recycling, biogas and energy sectors) will receive up-to-date information on the activities of the development project. The project will explore potential users of manufactured recycled products as well as commercialisers of developed processes, who will be involved in the project by organising a Circular Economy workshop during the project. The workshop will involve companies in the subject area of the project and allow the results of the development to be applied in a wide-ranging manner. The expertise of the companies involved in the development project will be used to support the development work, which can take into account, for example, the functioning of the processes in different existing plant solutions. In addition to new expertise, the project will produce new business opportunities in Central Finland and strengthen local self-sufficiency for a wide range of raw materials. When the necessary raw materials are manufactured internally from Finland’s own secondary flows, dependence on global production chains decreases and can be safeguarded even in crisis situations. Virgin natural resources are also saved and the carbon footprint of products is reduced when recycled raw materials are used. The project will result in new growth and self-sufficiency in raw materials, which will have a significant impact on recovery from the COVID-19 crisis. (English)
23 November 2021
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