Add to ORKGDiverse species of green algae were investigated. They were obtained in the proximity of the city of Santo Domingo, particularly near the rivers Isabela, Ozama and Manoguayabo. The potential of the diverse species of algae to produce Hydrogen in absence of Sulfur, in anaerobe conditions and in the presence of light was examined. We achieved the successful production of Hydrogen in three species of algae, one of them from the genus Chlorella and the other two of the genus Chlamydomonas. The time elapsed between the Sulfur absence evidence and the production of Hydrogen was lower than 48 hours for the Chlorella vulgaris, while for the Chlamydomonas angustae was lower than 72 hours. Finally the Chlamydomonas reinhardtii generated it at the end...
Hydrogen production by microalgae seems to be interesting in the context of clean hydrogen productio...
Photo-bioproduction of hydrogen by using green algae, Chlamydomonas reinhardtii, was investigated in...
Abstract Background Photobiological H2 production has the potential of becoming a carbon-free renewa...
In the present investigation, we report the growth and hydrogen production of two wild type Chlamydo...
O uso intensificado de combustíveis fósseis como fonte de energia, vê-se a necessidade do desenvolvi...
Abstract. Today, as the world is facing a crisis in terms of energy economization, different studies...
The world is finding ways of producing fuel from many sources to replace the fossil fuels. Hydrogen ...
In this study, the photosynthetic hydrogen production rates by some strains of green microalgae were...
An overview of photosynthetic hydrogen and oxygen production by green algae in the context of its po...
A study was made of the effects of environmental factors on the development and control of hydrogen ...
It is well known that over the last 60 years the trend of long-lived greenhouse gas emissions have s...
Algae technology represents an extensive research field which has developed rapidly over the last de...
A variety of unicellular green algae have the ability to photo-produce molecular hydrogen (H2). Usin...
Microorganisms can produce hydrogen biologically, with species ranging from photosynthetic and ferme...
The green alga Chlamydomonas reinhardtii has the ability to produce molecular hydrogen (H2) through ...
Hydrogen production by microalgae seems to be interesting in the context of clean hydrogen productio...
Photo-bioproduction of hydrogen by using green algae, Chlamydomonas reinhardtii, was investigated in...
Abstract Background Photobiological H2 production has the potential of becoming a carbon-free renewa...
In the present investigation, we report the growth and hydrogen production of two wild type Chlamydo...
O uso intensificado de combustíveis fósseis como fonte de energia, vê-se a necessidade do desenvolvi...
Abstract. Today, as the world is facing a crisis in terms of energy economization, different studies...
The world is finding ways of producing fuel from many sources to replace the fossil fuels. Hydrogen ...
In this study, the photosynthetic hydrogen production rates by some strains of green microalgae were...
An overview of photosynthetic hydrogen and oxygen production by green algae in the context of its po...
A study was made of the effects of environmental factors on the development and control of hydrogen ...
It is well known that over the last 60 years the trend of long-lived greenhouse gas emissions have s...
Algae technology represents an extensive research field which has developed rapidly over the last de...
A variety of unicellular green algae have the ability to photo-produce molecular hydrogen (H2). Usin...
Microorganisms can produce hydrogen biologically, with species ranging from photosynthetic and ferme...
The green alga Chlamydomonas reinhardtii has the ability to produce molecular hydrogen (H2) through ...
Hydrogen production by microalgae seems to be interesting in the context of clean hydrogen productio...
Photo-bioproduction of hydrogen by using green algae, Chlamydomonas reinhardtii, was investigated in...
Abstract Background Photobiological H2 production has the potential of becoming a carbon-free renewa...