Renewable energies are becoming increasingly significant all around the world as a means of reducing our environmental footprint and combating climate change. Solar, wind, hydropower, geothermal, marine, and other forms of energy should be the primary clean energy sources for eco-friendly processes. However, developing new technologies and intensifying current processes is essential to aid in the transition to renewable energy.
Biotechnology is a wide-ranging field that uses biological systems, living organisms, or derivatives to develop or produce new products or processes for various applications. It involves a combination of biology, chemistry, genetics, bioengineering, and other scientific disciplines.
An important application field of biotechnology is White Biotechnology (industrial biotechnology), which plays a vital role in the global economy and contributes to the energy transition, while also helping to mitigate climate change. The latest developments in synthetic biology, metabolic engineering, and molecular genetics, among others, provide sustainable solutions for generating biofuels (bioethanol and biodiesel, biogas, biohydrogen, and synthetic biology for biofuels), bio-based chemicals, bioremediation, waste treatment and resource recovery from renewable natural sources. Therefore, by implementing eco-friendly biological processes in industrial settings, it is possible to reduce the environmental impact and promote a circular economy, which is essential in the fight against climate change.
In summary, white biotechnology is a key enabler in the energy transition, providing sustainable solutions to produce energy from renewable natural sources.
Applying biological processes in industrial settings contributes to reducing the environmental footprint in the struggle against climate change and promoting a more sustainable and circular economy.
The Scope of this special issue titled “White Biotechnology in the Energy Transition” aims to review, analyze, and discuss the potential of White Biotechnology and its impact on the energy transition by compiling recent technological advances and applications that provide sustainable solutions in syntony with global guidelines in the energy transition. A list of specific themes to be addressed are:
1. Advanced bioethanol processes
2. Biotechnology in biodiesel production
3. Biogas (Methane)
4. Biohydrogen
5. Synthetic biology for biofuels
Keywords:
white biotechnology, biofuels, bioremediation, energy transition, bio-based chemicals, carbon capture, circular economy
Important Note:
All contributions to this Research Topic must be within the scope of the section and journal to which they are submitted, as defined in their mission statements. Frontiers reserves the right to guide an out-of-scope manuscript to a more suitable section or journal at any stage of peer review.
Renewable energies are becoming increasingly significant all around the world as a means of reducing our environmental footprint and combating climate change. Solar, wind, hydropower, geothermal, marine, and other forms of energy should be the primary clean energy sources for eco-friendly processes. However, developing new technologies and intensifying current processes is essential to aid in the transition to renewable energy.
Biotechnology is a wide-ranging field that uses biological systems, living organisms, or derivatives to develop or produce new products or processes for various applications. It involves a combination of biology, chemistry, genetics, bioengineering, and other scientific disciplines.
An important application field of biotechnology is White Biotechnology (industrial biotechnology), which plays a vital role in the global economy and contributes to the energy transition, while also helping to mitigate climate change. The latest developments in synthetic biology, metabolic engineering, and molecular genetics, among others, provide sustainable solutions for generating biofuels (bioethanol and biodiesel, biogas, biohydrogen, and synthetic biology for biofuels), bio-based chemicals, bioremediation, waste treatment and resource recovery from renewable natural sources. Therefore, by implementing eco-friendly biological processes in industrial settings, it is possible to reduce the environmental impact and promote a circular economy, which is essential in the fight against climate change.
In summary, white biotechnology is a key enabler in the energy transition, providing sustainable solutions to produce energy from renewable natural sources.
Applying biological processes in industrial settings contributes to reducing the environmental footprint in the struggle against climate change and promoting a more sustainable and circular economy.
The Scope of this special issue titled “White Biotechnology in the Energy Transition” aims to review, analyze, and discuss the potential of White Biotechnology and its impact on the energy transition by compiling recent technological advances and applications that provide sustainable solutions in syntony with global guidelines in the energy transition. A list of specific themes to be addressed are:
1. Advanced bioethanol processes
2. Biotechnology in biodiesel production
3. Biogas (Methane)
4. Biohydrogen
5. Synthetic biology for biofuels
Keywords:
white biotechnology, biofuels, bioremediation, energy transition, bio-based chemicals, carbon capture, circular economy
Important Note:
All contributions to this Research Topic must be within the scope of the section and journal to which they are submitted, as defined in their mission statements. Frontiers reserves the right to guide an out-of-scope manuscript to a more suitable section or journal at any stage of peer review.