Cycle-resolved emissions analysis of polyfuel reciprocating engines via in-situ laser absorption spectroscopy - Archive ouverte HAL
Communication Dans Un Congrès Année : 2022

Cycle-resolved emissions analysis of polyfuel reciprocating engines via in-situ laser absorption spectroscopy

Résumé

A high-speed in-situ laser absorption sensor has been developed for cycle-resolved emissions analysis in the exhaust manifold of production-scale internal combustion engines. An inline sensor module, using optical fiber-coupling of interband and quantum cascade lasers, targets the fundamental rovibrational absorption lines of carbon monoxide and nitric oxide near 5 µm in wavelength. The sensor module was integrated into a commercial EPA-certified natural gas spark-ignition generator operated at 3,300 rpm for measurements of exhaust pulse temperature, CO, and NO concentrations at a rate of 10 kHz. Novel high-temperature optomechanical design enabled in-stream sensor coupling near the exhaust valve with local gas temperatures up to ∼1200 K and valve to sensor gas transit times on the order of milliseconds. Measurement results reveal high degrees of intra-cycle and cycle-to-cycle variations which are otherwise undetectable with standard emission gas analyzers. Sensor response to variations in fuel composition were evaluated by introduction of 1-10% NH 3 or H 2 into the natural gas fuel system. The effects of fuel blending on exhaust emissions of CO and NO were well-distinguished even at 1% volume fraction, and the sensor captured both intra-cycle and cycle-averaged emissions differences between the three fuel types. Measured concentrations of CO and NO ranged from 0.1-2.8% and 30-3500 ppm with detection limits of 0.07% and 26 ppm, respectively. The exhaust sensor presented here has potential for integration with real-time control systems to enable adaptive optimization of polyfuel internal combustion engines to meet the need for flexible, low-carbon, on-demand energy conversion.
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Dates et versions

hal-04123257 , version 1 (21-06-2023)

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Kevin Schwarm, Nicolas Minesi, Barathan Jeevaretanam, Sarah Enayati, Tsu-Chin Tsao, et al.. Cycle-resolved emissions analysis of polyfuel reciprocating engines via in-situ laser absorption spectroscopy. Internal Combustion Engine ICE Forward Conference, ASME, Oct 2022, Indianapolis, IN, France. ⟨10.1115/ICEF2022-88543⟩. ⟨hal-04123257⟩
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