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    Development and energy evaluation of phase change material composite for building energy-saving

    Neue Suche nach: Ji, R
    Neue Suche nach: Zou, Z
    Neue Suche nach: Liu, L
    Neue Suche nach: Wei, S
    Neue Suche nach: Qu, S

    SUMMARY Phase change materials (PCMs) contributed to building energy‐saving and thermal comfort through increasing the thermal capacity of building envelopes. In this study, a phase change material composite was developed by using the PCMs mixture of capric acid (CA) and lauric acid (LA) as the primary phase change energy storage agent and using the solid waste fly ash as a carrier material. The results showed that for Guangdong, the ideal PCMs mixture should have a transition temperature of 25.5oC, which could be obtained by using a mass ratio of CA/LA of 4:6. Then, experiment results also indicate that the optimum adsorption ratio of 2:1 (FA/PCMs) was detected for the synthesis of this FA/PCMs composite, which has the latent heat of 45.38 J/g and exists excellent thermal reliability. Moreover, simulation results by using EnergyPlus show that the proposed composite has a good building energy‐saving effect.

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    Development and energy evaluation of phase change material composite for building energy-saving

    Neue Suche nach: Ji, R
    Neue Suche nach: Zou, Z
    Neue Suche nach: Liu, L
    Neue Suche nach: Wei, S
    Neue Suche nach: Qu, S

    SUMMARY Phase change materials (PCMs) contributed to building energy‐saving and thermal comfort through increasing the thermal capacity of building envelopes. In this study, a phase change material composite was developed by using the PCMs mixture of capric acid (CA) and lauric acid (LA) as the primary phase change energy storage agent and using the solid waste fly ash as a carrier material. The results showed that for Guangdong, the ideal PCMs mixture should have a transition temperature of 25.5oC, which could be obtained by using a mass ratio of CA/LA of 4:6. Then, experiment results also indicate that the optimum adsorption ratio of 2:1 (FA/PCMs) was detected for the synthesis of this FA/PCMs composite, which has the latent heat of 45.38 J/g and exists excellent thermal reliability. Moreover, simulation results by using EnergyPlus show that the proposed composite has a good building energy‐saving effect.

    Zugriff

    Download

    Development and energy evaluation of phase change material composite for building energy-saving

    Neue Suche nach: Ji, R
    Neue Suche nach: Zou, Z
    Neue Suche nach: Liu, L
    Neue Suche nach: Wei, S
    Neue Suche nach: Qu, S

    SUMMARY Phase change materials (PCMs) contributed to building energy‐saving and thermal comfort through increasing the thermal capacity of building envelopes. In this study, a phase change material composite was developed by using the PCMs mixture of capric acid (CA) and lauric acid (LA) as the primary phase change energy storage agent and using the solid waste fly ash as a carrier material. The results showed that for Guangdong, the ideal PCMs mixture should have a transition temperature of 25.5oC, which could be obtained by using a mass ratio of CA/LA of 4:6. Then, experiment results also indicate that the optimum adsorption ratio of 2:1 (FA/PCMs) was detected for the synthesis of this FA/PCMs composite, which has the latent heat of 45.38 J/g and exists excellent thermal reliability. Moreover, simulation results by using EnergyPlus show that the proposed composite has a good building energy‐saving effect.

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    Titel:

    Development and energy evaluation of phase change material composite for building energy-saving

    Beteiligte:

    Ji, R (Autor:in) / Zou, Z (Autor:in) / Liu, L (Autor:in) / Wei, S (Autor:in) / Qu, S (Autor:in)

    Erscheinungsdatum:

    01.11.2019

    Anmerkungen:

    International Journal of Energy Research , 43 (14) pp. 8674-8683. (2019)

    Medientyp:

    Aufsatz (Zeitschrift)

    Format:

    Elektronische Ressource

    Sprache:

    Englisch

    Schlagwörter:

    WALLBOARDS , Science & Technology , building energy-saving , Technology , Nuclear Science & Technology , PCMS , OPTIMIZATION , THERMAL PERFORMANCE , lauric acid , Energy & Fuels , STORAGE , COAL , ACID , capric acid , WALL , phase change materials , fly ash

    Klassifikation:

    DDC:  690

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