Overview
- Editors:
-
-
Rakesh Bajpai
-
Department of Chemical Engineering, University of Louisiana at Lafayette, Lafayette, USA
-
Aleš Prokop
-
Chemical and Biological Engineering, Vanderbilt University, Nashville, USA
-
Mark Zappi
-
Department of Chemical Engineering, University of Louisiana at Lafayette, Lafayette, USA
- Understand the nature and processes involved in Biorefinery design
- Compare different algae production systems
- See how its benefits relate to energy production
- Delineate the costs and cost savings involved
- Optimize medium use
- Includes supplementary material: sn.pub/extras
Access this book
Other ways to access
About this book
Over the past century, the majority of chemical and energy needs of our industrial society has originated from fossilized carbon sources (coal, crude oil, natural gas). Increasingly, there is a realization that utilization of the fossilized carbon sources has adverse environmental consequences in the form of increasing concentration of greenhouse gases. We are also becoming aware of the limited nature of these resources. As a result, considerable efforts are being made to produce chemicals and fuels from renewable resources such as forest products, agricultural residues and plant products. All of these systems capture solar energy and atmospheric carbon dioxide as a part of the natural carbon cycle. Serious research efforts are also underway, targeting cultivation of photosynthetic autotrophic microbes for the production of biomass and lipids. In this category, algae appears to offer the most potential for capturing solar energy and atmospheric carbon dioxide and delivering sufficient quantities of biomass/lipids that can offset the fossilized carbon utilization in a meaningful manner without impacting food output adversely. However, several advances, both technologically as well as politically, are needed before we can realize its full potential. It is also clear that a biorefinery approach must be undertaken in order to harvest renewable energy and chemicals from algae economically.
This edited, multi-authored volume on Algal Biorefineries will document new advances involving algae-based technology.
Similar content being viewed by others
Table of contents (12 chapters)
-
Front Matter
Pages i-xiii
-
Bioreactors for Cultivation of Algae
-
-
- Rakesh Bajpai, Mark Zappi, Stephen Dufreche, Ramalingam Subramaniam, Ales Prokop
Pages 3-24
-
- Alexandra D. Holland, Joseph M. Dragavon
Pages 25-68
-
- Manjinder Singh, K. C. Das
Pages 69-82
-
- João C. M. Carvalho, Marcelo C. Matsudo, Raquel P. Bezerra, Lívia S. Ferreira-Camargo, Sunao Sato
Pages 83-126
-
-
- Jiří Doucha, Karel Lívanský
Pages 147-173
-
Algae Products
-
Front Matter
Pages 175-175
-
- Amarjeet Bassi, Priyanka Saxena, Ana-Maria Aguirre
Pages 177-202
-
- Linda Vuorijoki, Pauli Kallio, Patrik R. Jones
Pages 203-216
-
- Vilém Zachleder, Irena Brányiková
Pages 217-240
-
- Pavel Přibyl, Vladislav Cepák, Vilém Zachleder
Pages 241-273
-
- Kelly Hudek, Lawrence C. Davis, Jwan Ibbini, Larry Erickson
Pages 275-295
-
- Dheeban Chakravarthi Kannan, Vikram M. Pattarkine
Pages 297-310
-
Back Matter
Pages 311-324