Add to ORKGTo replace existing high impact ammonia production technologies, a new sustainability-driven waste-based process producing green ammonia with and without urea was devised using life cycle thinking and sustainable design principles, targeting efficiency, carbon emissions, water, and power use competitiveness. Through this process, food waste and brown water are fed into a two-stage Dark Fermentation (DF) coupled with Anaerobic Digestion (AD)/AD-only bioreactors, resulting in the production of biogas. The biogas is then upgraded into hydrogen through a series of operating stages (emerging membranes) and reacts with nitrogen derived from the migration of air through a membrane in order to produce ammonia. This process is assessed via differe...
About 40% of our food would not exist without synthetic ammonia (NH3) for fertilization. Yet, NH3 pr...
Ammonia has been proposed as a replacement for fossil fuels. Like hydrogen, emissions from the combu...
The world is steadily moving toward greener alternatives of established chemical production process...
To replace existing high impact ammonia production technologies, a new sustainability-driven waste-b...
Global demand for both clean energy carriers and agricultural nutrients continues to grow rapidly, a...
To replace existing high impact ammonia production technologies, a new sustainability-driven waste-b...
Ammonia production has traditionally been based on large-scale plants. The thrust toward large-scale...
Summary: Blue and green ammonia production have been proposed as low-carbon alternatives to emission...
The environmental impacts of the ammonia production process are because of the discharge of harmful ...
In this paper, an alternative means for nitrogen fixation that may consume less energy and release l...
Ammonia is increasingly recognized as an important, sustainable fuel for global use in the future. A...
Ammonia production currently accounts for over 1.8% of the world’s consumption of fossil fuels and ...
International audienceThe Covid era has made us aware of the need for resilient, self-sufficient, an...
Worldwide ammonia production consumes 1-2% of the world's annual energy supply together with about 4...
The techno-economic feasibility of low-carbon based ammonia (NH3) production has been explored in th...
About 40% of our food would not exist without synthetic ammonia (NH3) for fertilization. Yet, NH3 pr...
Ammonia has been proposed as a replacement for fossil fuels. Like hydrogen, emissions from the combu...
The world is steadily moving toward greener alternatives of established chemical production process...
To replace existing high impact ammonia production technologies, a new sustainability-driven waste-b...
Global demand for both clean energy carriers and agricultural nutrients continues to grow rapidly, a...
To replace existing high impact ammonia production technologies, a new sustainability-driven waste-b...
Ammonia production has traditionally been based on large-scale plants. The thrust toward large-scale...
Summary: Blue and green ammonia production have been proposed as low-carbon alternatives to emission...
The environmental impacts of the ammonia production process are because of the discharge of harmful ...
In this paper, an alternative means for nitrogen fixation that may consume less energy and release l...
Ammonia is increasingly recognized as an important, sustainable fuel for global use in the future. A...
Ammonia production currently accounts for over 1.8% of the world’s consumption of fossil fuels and ...
International audienceThe Covid era has made us aware of the need for resilient, self-sufficient, an...
Worldwide ammonia production consumes 1-2% of the world's annual energy supply together with about 4...
The techno-economic feasibility of low-carbon based ammonia (NH3) production has been explored in th...
About 40% of our food would not exist without synthetic ammonia (NH3) for fertilization. Yet, NH3 pr...
Ammonia has been proposed as a replacement for fossil fuels. Like hydrogen, emissions from the combu...
The world is steadily moving toward greener alternatives of established chemical production process...