Abstract
Hydrogen is mainly produced by steam reforming of natural gas, a nonrenewable resource. Alternative and renewable routes for hydrogen production play an important role in reducing dependence on oil and minimizing the emission of greenhouse gases. In this work, butanol, a model compound of bio-oil, was employed for hydrogen production by steam reforming. The reaction was evaluated for 30 h in a tubular quartz reactor at 500 °C, atmospheric pressure, GHSV of 500,000 h−1, and an aqueous solution feed of 10% v/v butanol. For this reaction, catalysts with 20 wt.% NiO were prepared by wet impregnation using three supports: γ-alumina and alumina modified with 10 wt.% of cerium and lanthanum oxides. Both promoters increased the reduction degree of the catalysts and decreased catalyst acidity, which is closely related to coke formation and deactivation. Ni/La2O3–Al2O3 presented a higher nickel dispersion (14.6%) which, combined with other properties, led to a higher stability, higher mean hydrogen yield (71%), and lower coke formation per mass (56%). On the other hand, the nonpromoted catalyst suffered a significant deactivation associated with coke formation favored by its highest acidity (3.1 µmol m−²).
Highlights
Most of the world’s energy production is dependent on fossil fuels, whose burning is related to greenhouse gases emission, such as carbon dioxide and methane
The search for alternative and cleaner fuels is essential because it plays an important role in reducing the effects of global warming
The main commercial route for hydrogen production is natural gas steam reforming, which is dependent on fossil fuels
Summary
The search for alternative and cleaner fuels is essential because it plays an important role in reducing the effects of global warming. In this context, hydrogen is a promising fuel, as its use in fuel cells produces only water as a byproduct. The main commercial route for hydrogen production is natural gas steam reforming, which is dependent on fossil fuels. This route accounts for 48% of the world’s hydrogen supply [2]. New routes employing renewable resources such as biomass for its production should be developed to make the whole hydrogen production process and use cleaner and sustainable
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