Characterization of Spartina alterniflora as feedstock for anaerobic digestion

• Published in: Biomass & bioenergy Vol. 33; no. 4; pp. 597 - 602
• Main Authors: Yang, Shiguan, Li, Jihong, Zheng, Zheng, Meng, Zhuo
• Format: Journal Article
• Language: English
• Published: Kidlington Elsevier Ltd 01.04.2009; Elsevier
• Subjects: acetic acid; acidification; anaerobes; anaerobic digesters; Anaerobic digestion; Applied sciences; Biodegradability; biodegradation; Biogas; Biomass; biorefining; carbon nitrogen ratio; continuous systems; dry matter accumulation; Energy; enzymatic hydrolysis; Exact sciences and technology; feedstocks; fermentation; fuel production; lignocellulose; Natural energy; nutrient content; potassium; propionic acid; salt marsh plants; sodium; Spartina alterniflora; volatile fatty acids; yields; Biogas; Biodegradability; Spartina alterniflora; Anaerobic digestion; Methane; Monocotyledones; Gramineae; Angiospermae; Production; Spermatophyta; Biomass
• ISSN: 0961-9534; 1873-2909
• DOI: 10.1016/j.biombioe.2008.09.007

Smooth cordgrass ( Spartina alterniflora), a saltmarsh plant with high production, was characterized for its potential for use as feedstock for anaerobic digestion processes. The anaerobic digestibility and biogas yield of S. alterniflora were evaluated by anaerobic batch digestion experiments performed at 35 ± 1 °C at initial volatile solids (VS) of 6%. The nutrient content analysis indicated that S. alterniflora contained the required nutrition for anaerobic microorganisms, but its high C/N of 58.8, high K and Na contents of 8.1, 22.7 g kg −1, respectively, may be disadvantageous to its anaerobic digestion. The cumulative biogas yield was determined to be 358 L kg −1 VS and the biodegradation efficiency was 45% after 60 days of digestion. The methane content of biogas increased from 53% on day 3 to around 62% after 13 days of digestion. The changes of volatile fatty acids (VFAs) indicated that the acidification of S. alterniflora was propionate-type fermentation with proportion of acetate and propionate ranging from 54.8% to 98.4%, and the hydrolysis of lignocellulose was the rate-limiting step for its anaerobic digestion. The analysis of cations suggested that K + and Mg 2+, with the maximum concentration of 1.35 and 0.43 g L −1 in fermentation liquor, respectively, could be inhibitory to the anaerobic digestion of S. alterniflora. It is concluded that S. alterniflora can be transformed into clean energy by anaerobic digestion and the high contents of K, Na, Ca and Mg may be the inhibitory factors when S. alterniflora is digested by continuous or semi-continuous anaerobic process.