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Biofuels 2016 | 17536
Journal of Chemical Engineering & Process Technology

Journal of Chemical Engineering & Process Technology
Open Access

ISSN: 2157-7048

+44-20-4587-4809

Biofuels 2016


International Conference on Chemical Engineering

September 12-14, 2016 Phoenix, USA

Ravindra Pogaku

University Malaysia Sabah, Malaysia

Scientific Tracks Abstracts: J Chem Eng Process Technol

Abstract :

Fossil energy resources are declining at a rapid rate creating alarming unstable equilibrium between nature and humanity. We must develop and deploy renewable energy systems. An attractive alternative is to convert lignocellulose biomass into transportation fuels. The abundance of energy and its products are a key factor for the status of any nation in the modern world. The amenities (e.g., wealth, education, health care, transportation, etc.) enjoyed by developed nations depend on abundant energy, about 85% of which is derived from fossil resources (i.e., oil, coal, and natural gas). There is a strong correlation between wealth production and energy consumption. The faster we consume energy, the more wealth we produce. In the last few centuries, developed nations have become rich largely by consuming fossil energy. Our lives continue to get better as we consume more energy. The human development index (HDI), a composite metric of health, education, and living standards. At low rates of energy consumption, HDI rises very rapidly, and then levels off above about 4 kW per capita. Our lives do not continue to improve significantly as we consume more energy beyond 4 kW/ person. By approximately 2025, global population will be about 8 billion. If everyone were to consume primary energy at a rate of 4 kW/ person, the global energy consumption rate would be 32 terawatt (TW). Currently, we consume about 16 TW, so if we were to raise the average global living standard to the equivalent of 4 kW/person, we would need to double primary energy production by 2025. Hence, biofuel technology is the boon to provide sufficient energy for the sustainable world. To address our energy needs, one strategy is to increase bioenergy by using large-scale renewable lignocellulose energy systems as they are essential as fossil energy cannot provide the energy required to enable and underpin long-term prosperity. To ensure sustainable prosperity, we must develop and deploy renewable lignocellulose energy systems at the multi-terawatt scale. In the workshop generation biofuels from various lignocelluloses are highlighted. The biological thermodynamics, biochemical reaction rates, design of bioprocess technology are emphasized for exploiting bio resources for large scale biofuels production.

Biography :

Ravindra Pogaku has diverse and intense, yet rewarding experiences in teaching, research, industry, executive and administrative fields spanning over 35 years. He has an expertise in the area of Bioenergy and Bioprocess Technology. At present, his research group is focused on green economy, green processes and products. He was a Visiting Professor at Pennsylvania State University and Visiting Scientist at Cornell University. He has received Gold and Silver medals for his research contributions in the Green Energy and Green Engineering Fields. He was a UNESCO consultant on sustainable energy projects. He is a consultant for many renewable and green based industries. He has published more than 200 papers in referred journals and proceedings. He has edited and authored books and articles related to green technologies. He has reviewed thousands of journal manuscripts for reputed international journals. He serves as the Editor-in-Chief, Editorial Board Member, guest editor and reviewer for multiple referred journals. He focuses on developing green engineering and technology with different renewable feedstocks for sustainable development of the society.

Email: dr_ravindra@hotmail.com

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