Active magnetic regenerators implemented as a magnetocaloric heat pump for residential buildings

Hicham Johra, Konstantin Filonenko, Per Kvols Heiselberg, Christian Veje, Stefano Dallolio, Kurt Engelbrecht, Christian R. H. Bahl

Publikation: Bidrag til bog/antologi/rapport/konference-proceedingKonferencebidrag i proceedingsForskningpeer review

Resumé

The main objective of the ENOVHEAT project is to develop, build and test the prototype of an innovative and efficient heat pump system based on the active magnetic regenerator technology and to demonstrate that it can be used for building space heating applications. With a maximum COP of 3.93 and a nominal useful heating power output of 2600 W, the ENOVHEAT Gadolinium magnetocaloric heat pump can be integrated into a low-energy house with a vertical borehole ground source heat exchanger and a radiant under-floor heating system within a single hydronic loop. It is able to provide for the dwelling’s space heating needs under Danish winter conditions. Moreover, a control strategy for heat energy storage in the indoor environment can be employed to optimize the MCHP operation and reach seasonal COPs of up to 3.51. However, the layered La(Fe,Mn,Si)13Hy prototype is currently not suitable for such application.
SprogEngelsk
TitelActive magnetic regenerators implemented as a magnetocaloric heat pump for residential buildings
Antal sider6
Dato2019
StatusAccepteret/In press - 2019

Fingeraftryk

Space heating
Regenerators
Pumps
Heating
Heat pump systems
Gadolinium
Boreholes
Energy storage
Heat exchangers
Hot Temperature

Emneord

    Citer dette

    Johra, H., Filonenko, K., Heiselberg, P. K., Veje, C., Dallolio, S., Engelbrecht, K., & Bahl, C. R. H. (Accepteret/In press). Active magnetic regenerators implemented as a magnetocaloric heat pump for residential buildings. I Active magnetic regenerators implemented as a magnetocaloric heat pump for residential buildings
    Johra, Hicham ; Filonenko, Konstantin ; Heiselberg, Per Kvols ; Veje, Christian ; Dallolio, Stefano ; Engelbrecht, Kurt ; Bahl, Christian R. H. / Active magnetic regenerators implemented as a magnetocaloric heat pump for residential buildings. Active magnetic regenerators implemented as a magnetocaloric heat pump for residential buildings. 2019.
    @inproceedings{2214a2fae880489aaaed1326d58e7270,
    title = "Active magnetic regenerators implemented as a magnetocaloric heat pump for residential buildings",
    abstract = "The main objective of the ENOVHEAT project is to develop, build and test the prototype of an innovative and efficient heat pump system based on the active magnetic regenerator technology and to demonstrate that it can be used for building space heating applications. With a maximum COP of 3.93 and a nominal useful heating power output of 2600 W, the ENOVHEAT Gadolinium magnetocaloric heat pump can be integrated into a low-energy house with a vertical borehole ground source heat exchanger and a radiant under-floor heating system within a single hydronic loop. It is able to provide for the dwelling’s space heating needs under Danish winter conditions. Moreover, a control strategy for heat energy storage in the indoor environment can be employed to optimize the MCHP operation and reach seasonal COPs of up to 3.51. However, the layered La(Fe,Mn,Si)13Hy prototype is currently not suitable for such application.",
    keywords = "Magnetocaloric heat pump, magnetic heating, active magnetic regenerator, innovative heating system, building heating energy flexibility controller",
    author = "Hicham Johra and Konstantin Filonenko and Heiselberg, {Per Kvols} and Christian Veje and Stefano Dallolio and Kurt Engelbrecht and Bahl, {Christian R. H.}",
    year = "2019",
    language = "English",
    booktitle = "Active magnetic regenerators implemented as a magnetocaloric heat pump for residential buildings",

    }

    Johra, H, Filonenko, K, Heiselberg, PK, Veje, C, Dallolio, S, Engelbrecht, K & Bahl, CRH 2019, Active magnetic regenerators implemented as a magnetocaloric heat pump for residential buildings. i Active magnetic regenerators implemented as a magnetocaloric heat pump for residential buildings.

    Active magnetic regenerators implemented as a magnetocaloric heat pump for residential buildings. / Johra, Hicham; Filonenko, Konstantin; Heiselberg, Per Kvols; Veje, Christian ; Dallolio, Stefano; Engelbrecht, Kurt ; Bahl, Christian R. H.

    Active magnetic regenerators implemented as a magnetocaloric heat pump for residential buildings. 2019.

    Publikation: Bidrag til bog/antologi/rapport/konference-proceedingKonferencebidrag i proceedingsForskningpeer review

    TY - GEN

    T1 - Active magnetic regenerators implemented as a magnetocaloric heat pump for residential buildings

    AU - Johra, Hicham

    AU - Filonenko, Konstantin

    AU - Heiselberg, Per Kvols

    AU - Veje, Christian

    AU - Dallolio, Stefano

    AU - Engelbrecht, Kurt

    AU - Bahl, Christian R. H.

    PY - 2019

    Y1 - 2019

    N2 - The main objective of the ENOVHEAT project is to develop, build and test the prototype of an innovative and efficient heat pump system based on the active magnetic regenerator technology and to demonstrate that it can be used for building space heating applications. With a maximum COP of 3.93 and a nominal useful heating power output of 2600 W, the ENOVHEAT Gadolinium magnetocaloric heat pump can be integrated into a low-energy house with a vertical borehole ground source heat exchanger and a radiant under-floor heating system within a single hydronic loop. It is able to provide for the dwelling’s space heating needs under Danish winter conditions. Moreover, a control strategy for heat energy storage in the indoor environment can be employed to optimize the MCHP operation and reach seasonal COPs of up to 3.51. However, the layered La(Fe,Mn,Si)13Hy prototype is currently not suitable for such application.

    AB - The main objective of the ENOVHEAT project is to develop, build and test the prototype of an innovative and efficient heat pump system based on the active magnetic regenerator technology and to demonstrate that it can be used for building space heating applications. With a maximum COP of 3.93 and a nominal useful heating power output of 2600 W, the ENOVHEAT Gadolinium magnetocaloric heat pump can be integrated into a low-energy house with a vertical borehole ground source heat exchanger and a radiant under-floor heating system within a single hydronic loop. It is able to provide for the dwelling’s space heating needs under Danish winter conditions. Moreover, a control strategy for heat energy storage in the indoor environment can be employed to optimize the MCHP operation and reach seasonal COPs of up to 3.51. However, the layered La(Fe,Mn,Si)13Hy prototype is currently not suitable for such application.

    KW - Magnetocaloric heat pump

    KW - magnetic heating

    KW - active magnetic regenerator

    KW - innovative heating system

    KW - building heating energy flexibility controller

    M3 - Article in proceedings

    BT - Active magnetic regenerators implemented as a magnetocaloric heat pump for residential buildings

    ER -

    Johra H, Filonenko K, Heiselberg PK, Veje C, Dallolio S, Engelbrecht K et al. Active magnetic regenerators implemented as a magnetocaloric heat pump for residential buildings. I Active magnetic regenerators implemented as a magnetocaloric heat pump for residential buildings. 2019