Add to ORKGThe current energy market requires urgent revision for the introduction of renewable, less-polluting and inexpensive energy sources. Biohydrogen (bioH2) is considered to be one of the most appropriate options for this model shift, being easily produced through the anaerobic fermentation of carbohydrate-containing biomass. Ideally, the feedstock should be low-cost, widely available and convertible into a product of interest. Microalgae are considered to possess the referred properties, being also highly valued for their capability to assimilate CO2 [1]. The microalga Spirogyra sp. is able to accumulate high concentrations of intracellular starch, a preferential carbon source for some bioH2 producing bacteria such as Clostridium butyricum [2]...
Interest is growing in the production of biohydrogen from algae through dark fermentation, as altern...
This paper presents an energetic and environmental evaluation of the fermentative hydrogen productio...
Interest is growing in the production of biohydrogen from algae through dark fermentation, as altern...
The current energy market requires urgent revision for the introduction of renewable, less-polluting...
ABSTRACT: In this work, hydrogen (H-2) was produced through the fermentation of Spirogyra sp. biomas...
The biological hydrogen production from Spirogyra sp. biomass was studied in a SBR (sequential batch...
Renewable, sustainable and carbon-neutral energy production is needed to deal with the challenges of...
This paper presents the life cycle inventory (LCI) of hydrogen production by Clostridium butyricum f...
This paper discusses the overall energy consumption and greenhouse gas emissions when extracting pig...
Abstract Background Hydrogen is a promising source of alternative energy. Fermentative production is...
Fossil fuels are a limited type of feedstock, increasingly expensive, and carrying strong polluting ...
Abstract Microalgae are simple chlorophyll containing organisms, they have high photosynthetic effic...
ABSTRACT Due to its high carbohydrate content, algae biomass can be employed as feedstock to produce...
Hydrogen (H2) gas is seen as an ideal future energy carrier because it is easily converted into elec...
Optimizing the design and operating parameters for optimum production of hydrogen and other bioprodu...
Interest is growing in the production of biohydrogen from algae through dark fermentation, as altern...
This paper presents an energetic and environmental evaluation of the fermentative hydrogen productio...
Interest is growing in the production of biohydrogen from algae through dark fermentation, as altern...
The current energy market requires urgent revision for the introduction of renewable, less-polluting...
ABSTRACT: In this work, hydrogen (H-2) was produced through the fermentation of Spirogyra sp. biomas...
The biological hydrogen production from Spirogyra sp. biomass was studied in a SBR (sequential batch...
Renewable, sustainable and carbon-neutral energy production is needed to deal with the challenges of...
This paper presents the life cycle inventory (LCI) of hydrogen production by Clostridium butyricum f...
This paper discusses the overall energy consumption and greenhouse gas emissions when extracting pig...
Abstract Background Hydrogen is a promising source of alternative energy. Fermentative production is...
Fossil fuels are a limited type of feedstock, increasingly expensive, and carrying strong polluting ...
Abstract Microalgae are simple chlorophyll containing organisms, they have high photosynthetic effic...
ABSTRACT Due to its high carbohydrate content, algae biomass can be employed as feedstock to produce...
Hydrogen (H2) gas is seen as an ideal future energy carrier because it is easily converted into elec...
Optimizing the design and operating parameters for optimum production of hydrogen and other bioprodu...
Interest is growing in the production of biohydrogen from algae through dark fermentation, as altern...
This paper presents an energetic and environmental evaluation of the fermentative hydrogen productio...
Interest is growing in the production of biohydrogen from algae through dark fermentation, as altern...