TY - JOUR A1 - Kemppainen, Erno A1 - Bagacki, Rory A1 - Schary, Christian A1 - Bao, Fuxi A1 - Dorbandt, Iris A1 - Janke, Stefan A1 - Emery, Quiterie A1 - Stannowski, Bernd A1 - Schlatmann, Rutger A1 - Calnan, Sonya T1 - Dynamic Operation of a Heat Exchanger in a Thermally Integrated Photovoltaic Electrolyzer JF - Energy Technology N2 - The outdoor operation of an up‐scaled thermally photovoltaic electrolyzer (PV EC), constructed using a heat exchanger (HE) made of low‐cost materials, compared to its nonintegrated counterpart to quantify heat transfer and its effects, is studied. Thermal coupling of the PV and EC can reduce the difference between their temperatures, benefitting device performance. Such devices can produce hydrogen at rooftop installations of small‐to‐medium‐sized nonindustrial buildings. The devices are tested outdoors using automated real‐time monitoring. Under ≈880 W m−2 peak irradiance, they produced hydrogen at ≈120 and ≈110 mL min−1 rate with and without HE, respectively, corresponding to about 8.5% and 7.8% solar‐to‐hydrogen efficiencies. During about 700 h of testing, the HE is beneficial at over ≈500 W m−2 due to cyclic device operation. Under lower irradiance levels, pumping previously heated electrolyte through the HE increases the PV and reduces the electrolyte temperature, reducing the device performance. The HE increases the cumulative hydrogen production (≈800 L from both devices), so even relatively modest heat transfer rates can improve the PV EC operation. Improving the HE should further increase the benefits, but additional measures may be needed to maximize the hydrogen production. KW - electrolyzers KW - heat transfer KW - outdoor characterizations KW - photovoltaics KW - solar water splitting KW - thermal integration KW - Wärmeaustauscher KW - Fotovoltaik KW - Wasserstoff Y1 - 2022 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:523-16903 VL - 11 IS - 2 ER -