Anaerobic digestion and gasification of seaweed

The potential of algal biomass as a source of liquid and gaseous biofuels is a highly topical theme, with over 70 years of sometimes intensive research and considerable financial investment. A wide range of unit operations can be combined to produce algal biofuel, but as yet there is no successful commercial system producing such biofuel. This suggests that there are major technical and engineering difficulties to be resolved before economically viable algal biofuel production can be achieved. Both gasification and anaerobic digestion have been suggested as promising methods for exploiting bioenergy from biomass, and two major projects have been funded in the UK on the gasification and anaerobic digestion of seaweed, MacroBioCrude and SeaGas. This chapter discusses the use of gasification and anaerobic digestion of seaweed for the production of biofuel

Microwave assisted extraction of polysaccharide

In this chapter, the use of microwave irradiation has been reviewed and dicussed for the extraction of polysaccharides as well as for combined processes involving extraction and hydrolysis of these compounds. Special attention has been paid to polysaccharides with bioactive properties. Fundamentals and instrumentation, together with a detailed discussion on the effect of the most important parameters affecting the microwave-assisted extraction (MAE) process are presented. Some of the most recent and outstanding applications of MAE for the extraction of polysaccharides, mainly from food matrices or food byproducts, are described and classified according to the type of polysaccharide extracted. The comparison in terms of speed, yield, etc. of MAE with other conventional (solid-liquid extraction) or emerging techniques (pressurized liquid extraction, ultrasound-assisted extraction) is also shown. The scale-up of MAE technique and the development of hybrid systems (e.g. ultrasound-microwave-assisted extraction, UMAE) are presented as future trends. To conclude, MAE is presented as a promising emerging technique for extraction of polysaccharides from natural sources.Peer reviewe

Microwave-assisted extraction of polysaccharides

In this chapter, the use of microwave irradiation has been reviewed and discussed for the extraction of polysaccharides as well as for combined processes involving extraction and hydrolysis of these compounds. Special attention has been paid to polysaccharides with bioactive properties. Fundamentals and instrumentation, together with a detailed discussion on the effect of the most important parameters affecting the microwave-assisted extraction (MAE) process, are presented. Some of the most recent and outstanding applications of MAE for the extraction of polysaccharides, mainly from food matrices or food by-products, are described and classified according to the type of polysaccharide extracted. The comparison in terms of speed, yield, etc. of MAE with other conventional (solid–liquid extraction) or emerging techniques (pressurized liquid extraction, ultrasound-assisted extraction) is also shown. The scale-up of MAE technique and the development of hybrid systems (e.g., ultrasonic–microwave-assisted extraction, UMAE) are shown as future trends. To conclude, MAE is shown as a promising emerging technique for extraction of polysaccharides from natural sources.This work has been funded by Ministerio de Economía y Competitividad (project CTQ2012-32957), Junta de Andalucía (project AGR-7626), and Comunidad de Madrid (project Avansecal). L. Ruiz-Aceituno is supported by a JAE-Predoc grant from CSIC and cofinanced by the European Social Fund (ESF). A.C.S. thanks Ministerio de Economía y Competitividad of Spain for a Ramón y Cajal contract.Peer reviewe