Algae Harvesting With a High Rate Water Processing Technology: Dissolved Air Flotation

ISSN： 1938-6478

Source： Proceedings of the Water Environment Federation, Vol.2009, Iss.7, 2009-01, pp. : 7937-7954

Disclaimer: Any content in publications that violate the sovereignty, the constitution or regulations of the PRC is not accepted or approved by CNPIEC.

Previous Menu Next

Abstract

This paper discusses possible algae harvesting techniques relevant to the algae-to-biofuels industry. Advantages and disadvantages of each technique are discussed. Emphasis is placed on the dissolved air flotation process because it still remains the most effective means of separating a relatively low concentration of algae from a large body of water. Some of the important design features of dissolved air flotation that promote effective algae separation and harvesting, as well as thickening of the separated algae, are discussed.The efficiency of recovery is a significant issue because it relates to the economics of the separation technique. However, it is not necessarily of overriding importance since the water from the separation unit can be recycled back to the algae growth units. The efficiency of recovery and operation of the separation technique depends to a large extent on the means by which the algae is conditioned. The paper discusses various inorganic and organic chemicals for algae coagulation, to facilitate algae separation by dissolved air flotation, or by other means.Inorganic coagulants tend to be the most effective, although some natural and synthetic polymers are effective. Ideally the coagulant used should not detract from the animal feed option for the co-product from algae biofuel processing. Chitosan is discussed as one option, but other organic polymers that are GRAS certified should be used preferentially to those products that are not certified.