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Platinum nanoparticle catalysis of methanol for thermoelectric power generation

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  • Guggilla, Bhanuprakash Reddy
  • Rusted, Alexander
  • Bakrania, Smitesh

Abstract

Catalytic combustion of hydrocarbon and oxygenated fuels has the potential to provide an alternative power source for portable electronic devices. Our previous studies have demonstrated sustained catalytic combustion for a variety of fuels using multi-channel cordierite substrates. In particular, methanol-air mixtures catalyzed by platinum nanoparticles yielded room-temperature self-ignition and stable combustion. The present work explores a stacked-reactor design of a microcombustion-thermoelectric coupled device that marries thermal management strategies with catalytic combustion. Synthesized platinum nanoparticles (dp∼ 8 nm) were deposited on rectangular cordierite substrate cartridges with 800 μm wide channels. A custom-designed copper-aluminum reactor was used to host the catalytic cartridges. A near-stoichiometric mixture of methanol-air at 8000 mL/min air flow rate produced 62 °C temperature difference across thermoelectric generators. Material analysis demonstrated a non-uniform restructuring of catalyst material across the substrate. A parametric study of catalyst loading and air flow mapped the optimal operational range of the device. While a relatively low power output of 490 mW was measured, a theoretical power potential of 1400 mW was estimated. The results confirm the unique advantages of multi-channel catalytic cartridges and guide future developments in the application of nanocatalytic microcombustion for portable power sources.

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  • Guggilla, Bhanuprakash Reddy & Rusted, Alexander & Bakrania, Smitesh, 2019. "Platinum nanoparticle catalysis of methanol for thermoelectric power generation," Applied Energy, Elsevier, vol. 237(C), pages 155-162.
    • Handle: RePEc:eee:appene:v:237:y:2019:i:c:p:155-162
    DOI: 10.1016/j.apenergy.2018.12.083
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    Cited by:

    1. Zhu, Xingzhuang & Zuo, Zhengxing & Wang, Wei & Jia, Boru & Zhan, Tianzhuo, 2023. "Experimental research and optimization of a thermoelectric generator excited by pulsed combustion mode under limited heat dissipation for combined heat and power supply," Applied Energy, Elsevier, vol. 349(C).
    2. Bhanuprakash Reddy Guggilla & Jack Perelman Camins & Benjamin Taylor & Smitesh Bakrania, 2021. "Examining Thermal Management Strategies for a Microcombustion Power Device," Energies, MDPI, vol. 14(19), pages 1-14, October.
    3. Aravind, B. & Khandelwal, Bhupendra & Ramakrishna, P.A. & Kumar, Sudarshan, 2020. "Towards the development of a high power density, high efficiency, micro power generator," Applied Energy, Elsevier, vol. 261(C).
    4. Li, Guoneng & Zheng, Youqu & Guo, Wenwen & Zhu, Dongya & Tang, Yuanjun, 2020. "Mesoscale combustor-powered thermoelectric generator: Experimental optimization and evaluation metrics," Applied Energy, Elsevier, vol. 272(C).

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