Bioproducts
Bioproducts or bio-based products are materials, chemicals and energy derived from renewable biological resources.[1][2][3]
Bioresources
Biological resources include agriculture, forestry, and biologically-derived waste, and there are many other renewable bioresource examples. One of the scientific terms used to denote renewable bioresources is lignocellulose. Lignocellulosic tissues are biologically-derived natural resources containing some of the main constituents of the natural world. 1) Holocellulose is the carbohydrate fraction of lignocellulose that includes cellulose, a common building block made of sugar (glucose) that is the most abundant biopolymer, as well as hemicellulose. 2) Lignin is the second most abundant biopolymer. Cellulose and lignin are two of the primary natural polymers used by plants to store energy as well as to give strength, as is the case in woody plant tissues. Other energy storage chemicals in plants include oils, waxes, fats, etc., and because these other plant compounds have distinct properties, they offer potential for a host of different bioproducts [4][5]
Conventional bioproducts and emerging bioproducts are two broad categories used to categorize bioproducts. Examples of conventional bio-based products include building materials, pulp and paper, and forest products. Examples of emerging bioproducts or biobased products include biofuels, bioenergy, starch-based and cellulose-based ethanol, bio-based adhesives, biochemicals, bioplastics, etc.[6][7] Emerging bioproducts are active subjects of research and development, and these efforts have developed significantly since the turn of the 20/21st century, in part driven by the price of traditional petroleum-based products, by the environmental impact of petroleum use, and by an interest in many countries to become independent from foreign sources of oil. Bioproducts derived from bioresources can replace much of the fuels, chemicals, plastics etc. that are currently derived from petroleum [8]
Bioproducts engineering
Bioproducts engineering (also referred to as bioprocess engineering) refers to engineering of bio-products from renewable bioresources. This pertains to the design, development and implementation of processes, technologies for the sustainable manufacture of materials, chemicals and energy from renewable biological resources.
Also referred to as Bioprocess Engineering: Bioprocess Engineering is a specialization of Biotechnology, Chemical Engineering or Biological Engineering or of Agricultural Engineering. It deals with the design and development of equipment and processes for the manufacturing of products such as food, feed, pharmaceuticals, nutraceuticals, chemicals, and polymers and paper from biological materials. Bioprocees engineering is a conglomerate of mathematics, biology and industrial design, and consists of various spectrums like designing of Fermentors, study of fermentors (mode of operations etc.). It also deals with studying various biotechnological processes used in industries for large scale production of biological product for optimization of yield in the end product and the quality of end product. Bio process engineering may include the work of mechanical, electrical and industrial engineers to apply principles of their disciplines to processes based on using living cells or sub component of such cells [9]
Also referred to as Bioresource Engineering: Bioresource engineering is related to the applications of biological engineering, chemical engineering and agricultural engineering usually based on biological and/or agricultural feedstocks. Bioresource engineering is more general and encompasses a wider range of technologies and various elements such as biomass, biological waste treatment, bioenergy, biotransformations and bioresource systems analysis, and technologies associated with Thermochemical conversion technologies: combustion, pyrolysis, gasification, catalysis, etc. Biochemical conversion technologies: aerobic methods, anaerobic digestion, microbial growth processes, enzymatic methods, composting Products: fibre, fuels, feedstocks, fertilisers, building materials, polymers and other industrial products Management: modelling, systems analysis, decisions, support systems. The impact of urbanization and increasing demand for land, food, and water presents engineers in a world with serious challenges. Little attention has been given to the interface between the biological world and traditional engineering in the past. It is the job of bioresource engineers to fill that gap. Agricultural and bioresource engineers develop efficient and environmentally-sensitive methods of producing food, fiber, timber, bio-based products and renewable energy sources for an ever-increasing world population.
See also
- Biofact (biology)
- Biomass
- Biomass (ecology)
- Bioprocess
- Forest
- Outline of forestry
- Biogas
- Biorefining
- Bioenergy
- Biofuels
- Biochemicals
- Bioprocess engineering
- Bioresource engineering
- Non-timber forest products
- European Biomass Association
References
- Singh, S.P., Ekanem, E., Wakefield, T. Jr., and Comer S. (2003) “Emerging importance of bio-based products and bio-energy in the U.S. economy: information dissemination and training of students.” International Food and Agribusiness Management Review Vol. 5(3)
- Biomass Research and Development Initiative, 2006: Vision for Bioenergy and BioProducts in the United States – Bioeconomy for a Sustainable Future 2006 "Archived copy" (PDF). Archived from the original (PDF) on 2009-12-29. Retrieved 2009-01-02.CS1 maint: archived copy as title (link)
- National Research Council, 2000. Bio-based industrial products: priorities for research and commercialization. National Academy Press, Washington DC
- Bowyer, J.L., Ramaswamy, S., 2005: “Redefining undergraduate education for the 21st Century: Minnesota moves aggressively to strengthen program” Forest Products Journal, July-Aug 2005, 55 (7-8): 4-10)
- Ramaswamy, S., Tschirner, U., Chen, Y., 2007: “Transforming Academic Curricula: Pulp and Paper to Biobased Products - Providing Education and Research Training for the Conventional and Emerging Biobased Products Industry and the Bioeconomy” ACS Symposium Series Chapter 4, Section 1, Materials, Chemicals and Energy from Forest Biomass Ed. by Argyropoulos.
- Bowyer, J.L., Ramaswamy, S., 2005: “Redefining undergraduate education for the 21st Century: Minnesota moves aggressively to strengthen program” Forest Products Journal, July-Aug 2005, 55 (7-8): 4-10)
- Ramaswamy, S., Tschirner, U., Chen, Y., 2007: “Transforming Academic Curricula: Pulp and Paper to Biobased Products - Providing Education and Research Training for the Conventional and Emerging Biobased Products Industry and the Bioeconomy” ACS Symposium Series Chapter 4, Section 1, Materials, Chemicals and Energy from Forest Biomass Ed. by Argyropoulos.
- "Archived copy". Archived from the original on 2009-08-26. Retrieved 2009-01-02.CS1 maint: archived copy as title (link)
- Bioprocess engineering- Basic concepts; Shular, Michael A., kargi, Fikret, Prentice Hall of India,2005
Further reading
- Bowyer, J.L., Ramaswamy, S. Bioenergy development: Alignment is essential, Part 1, Bioenergy Technologies Tappi Publication, January 2009, p14-17
- Bowyer, J.L., Ramaswamy, S. Bioenergy development: Alignment is essential for Bioenergy Development, Part II, Exploring possible scenarios resulting from a supply gap, and possible effects of bioenergy development in environmental quality Tappi Publication, March 2009, p16-19
External links
- USDA BioPreferred Program
- Fostering the Bioeconomic Revolution in Biobased Products and Bioenergy, National Renewable Energy Laboratory
- U.S. DOE Biomass Program