Falling film evaporation characteristics of microalgae suspension for biofuel production
Access Status
Authors
Date
2013Type
Metadata
Show full item recordCitation
Source Title
ISSN
School
Collection
Abstract
Microalgae, one of the important biofuel producers, have received considerable attention recently. Dewatering is one of the bottlenecks for its industrialization due to the dilute nature of the suspensions and the small cell size. Traditional liquid-solid separation processes are not efficient for dewatering of microalgae suspensions. In this study, falling film evaporation was employed for dewatering of microalgae suspension, which is a popular process for concentrating heat sensitive materials. The heat transfer coefficient was as high as 9414.20 W/m2 K with mass flow rate of 0.233 kg/s, ∆T of 1.21 °C, and microalgae concentration of 60 g/L. The falling film evaporation process can be made highly energy efficient if it is coupled with Mechanical Vapor Recompression (MVR) or Thermal Vapor Recompression (TVR) system. Heat and mass transfer characteristics of falling film evaporation of microalgae suspension have been investigated here. This will provide the fundamentals for future feasibility study of utilizing the falling film evaporation in the microalgal industry.
Related items
Showing items related by title, author, creator and subject.
-
Zeng, X.; Quek, C.; Danquah, Michael; Woo, M.; Lu, Y.; Chen, X.D. (2014)Microalgae, one of the important biofuel producers, have received considerable attention recently.Dewatering is one of the bottlenecks for its industrialization due to the dilute nature of the suspensions and the small ...
-
Zeng, X.; Quek, C.; Danquah, Michael; Woo, M.; Chen, X.; Lu, Y. (2013)The use of microalgae for biofuels and other microalgal sourced products has received significant interests in recent years. Dewatering is a major obstruction in industrial-scale processing microalgae suspensions. Basically, ...
-
Liu, D.; Dong, Yu; Bhattacharyya, D.; Sui, G. (2017)Novel sandwiched structures of cellulose nanowhiskers (CNWs) were found for the first time at the cross section of fractured starch/CNWs composite films. CNWs were obtained by hydrolysing bleached flax yarns through heating ...