Add to ORKGOur project addresses one of the today\u27s biggest challenges: the sustainable management of food waste. An effective use of food waste could be chemical conversion into biofuel through the hydrothermal liquefaction (HTL) process. The objective of our project is to study the effectiveness of red mud, and pure metal oxides derived from its composition as potential catalysts for HTL. These catalysts impact on the production of bio-oil will be compared to that of Ceria Zirconia in the hopes of finding a cheaper alternative
Due to the energy burden that represents the drying step, wet biomass is often underexploited for en...
In the last decades, the dwindling of the fossil sources of energy coupled with the growth of energy...
Growing interest in renewable energies due to shrinking reserves of fossil fuels and climate change ...
The objective of this study is to demonstrate potential large-scale application of wet biowaste hydr...
International audienceAgricultural and food processing wastes are one of the most abundant resources...
The large volumes of organic waste streams produced daily as a part of our food and water supply sys...
Background: Food wastes are an abundant resource that can be effectively valorised by hydrothermal l...
>Magister Scientiae - MScThe global dependence on non-renewable fossil fuels to meet energy needs ca...
International audienceThe upcoming depletion of fossil fuels calls for the development of alternativ...
Background: Food wastes are an abundant resource that can be effectively valorised by hydrothermal l...
724 pagesIntensive farming, which is widely implemented in agricultural sector and food production t...
This research examines the use of hydrothermal liquefaction (HTL) process for a treatment of biomas...
The introduction of a bio-refinery approach in producing bio-chemicals represents a potential opport...
Approximately 15 million dry tons of food waste is produced annually in the United States (USA), and...
Food wastes are an abundant resource that can be effectively valorised by hydrothermal liquefaction ...
Due to the energy burden that represents the drying step, wet biomass is often underexploited for en...
In the last decades, the dwindling of the fossil sources of energy coupled with the growth of energy...
Growing interest in renewable energies due to shrinking reserves of fossil fuels and climate change ...
The objective of this study is to demonstrate potential large-scale application of wet biowaste hydr...
International audienceAgricultural and food processing wastes are one of the most abundant resources...
The large volumes of organic waste streams produced daily as a part of our food and water supply sys...
Background: Food wastes are an abundant resource that can be effectively valorised by hydrothermal l...
>Magister Scientiae - MScThe global dependence on non-renewable fossil fuels to meet energy needs ca...
International audienceThe upcoming depletion of fossil fuels calls for the development of alternativ...
Background: Food wastes are an abundant resource that can be effectively valorised by hydrothermal l...
724 pagesIntensive farming, which is widely implemented in agricultural sector and food production t...
This research examines the use of hydrothermal liquefaction (HTL) process for a treatment of biomas...
The introduction of a bio-refinery approach in producing bio-chemicals represents a potential opport...
Approximately 15 million dry tons of food waste is produced annually in the United States (USA), and...
Food wastes are an abundant resource that can be effectively valorised by hydrothermal liquefaction ...
Due to the energy burden that represents the drying step, wet biomass is often underexploited for en...
In the last decades, the dwindling of the fossil sources of energy coupled with the growth of energy...
Growing interest in renewable energies due to shrinking reserves of fossil fuels and climate change ...