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Trade-offs between engine performance and emissions in diesel engines fueled with hydrogen from ammonia cracking and biodiesel blends

Author

Listed:
  • Arivalagan, Pugazhendhi
  • Kamarudin, S.K.
  • Meenakshi, V.
  • T R, Praveenkumar

Abstract

In this study, hydrogen gas produced from ammonia cracking was used as the secondary fuel in an unmodified diesel engine, and the effects of using 20 % microalgal-based biodiesel blends along with hydrogen on combustion, performance, and emissions were examined. Hydrogen was injected at liters per minute (LPM) into the intake manifold at three different flow rates of 10 LPM, 15 LPM, and 20 LPM. The flow rates were managed by the rotameter, and flashback arrestors were used to avoid backfire. The hydrogen-enriched biodiesel blends enhanced in-cylinder pressure and heat release rate, improving combustion efficiency in the diesel engine. The high cetane number and oxygen content of biodiesel contributed to complete combustion; hydrogen's high flame speed shortened combustion duration and enhanced brake thermal efficiency, particularly in the blend with 20 % biodiesel and hydrogen. The addition of hydrogen at 20 LPM increased the brake thermal efficiency by 23.08 % compared to diesel, while brake specific fuel consumption decreased to 0.36 kg/kWh. Hydrocarbon and carbon monoxide emissions were reduced by 12.6 % and 50 %, respectively at stoichiometric conditions. However, NOx emissions increased by up to 3.4 % due to high combustion temperatures. The combustion duration was reduced by 17.65 %, and peak in-cylinder pressure increases from 32 bar for diesel to 55 bar with hydrogen-enriched blends. The equivalence ratio of 1.1 further reduced emissions but slightly decreased thermal efficiency due to dilution effects.

Suggested Citation

  • Arivalagan, Pugazhendhi & Kamarudin, S.K. & Meenakshi, V. & T R, Praveenkumar, 2025. "Trade-offs between engine performance and emissions in diesel engines fueled with hydrogen from ammonia cracking and biodiesel blends," Renewable Energy, Elsevier, vol. 254(C).
    • Handle: RePEc:eee:renene:v:254:y:2025:i:c:s0960148125014636
    DOI: 10.1016/j.renene.2025.123799
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    References listed on IDEAS

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    1. Chai, Wai Siong & Bao, Yulei & Jin, Pengfei & Tang, Guang & Zhou, Lei, 2021. "A review on ammonia, ammonia-hydrogen and ammonia-methane fuels," Renewable and Sustainable Energy Reviews, Elsevier, vol. 147(C).
    2. Vellaiyan, Suresh, 2023. "Recent advancements in water emulsion fuel to explore efficient and cleaner production from various biodiesels: A retrospective review," Renewable and Sustainable Energy Reviews, Elsevier, vol. 187(C).
    3. Nautiyal, Piyushi & Subramanian, K.A. & Dastidar, M.G. & Kumar, Ashok, 2020. "Experimental assessment of performance, combustion and emissions of a compression ignition engine fuelled with Spirulina platensis biodiesel," Energy, Elsevier, vol. 193(C).
    4. Yaliwal, V.S. & Banapurmath, N.R. & Gaitonde, V.N. & Malipatil, M.D., 2019. "Simultaneous optimization of multiple operating engine parameters of a biodiesel-producer gas operated compression ignition (CI) engine coupled with hydrogen using response surface methodology," Renewable Energy, Elsevier, vol. 139(C), pages 944-959.
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