Biomethane Yield, Physicochemical Structures, and Microbial Community Characteristics of Corn Stover Pretreated by Urea Combined with Mild Temperature Hydrotherm

The corn stover (CS)’s compact structure makes it challenging for microorganisms to use in anaerobic digestion (AD). Therefore, improving CS biodegradability has become a key focus in AD studies. Methods are being targeted at the pretreatment of CS, combining advanced urea with mild temperature hydrotherm pretreatment to study its effect on promoting the AD process of CS. The biomethane yield, physicochemical structure, and microbial community characteristics were investigated. CS samples were assigned into groups differed by a range of pretreatment times (from 24 to 96 h) and set at a temperature of 50 °C with a 2% urea addition. Results revealed that the 72-h group obtained the highest biomethane yield of 205 mL/g VS−1, volatile solid (VS) and total solid (TS) removal rates of 69.3% and 47.7%, which were 36.7%, 25.3% and 27.5% higher than those of untreated one, respectively. After conducting several analyses, results confirmed the pretreatment as a method for altering CS microstructures benefits biomethane production. The most resounding differences between pretreated and untreated groups were observed within a microbial community, an integral factor for improved AD performance. This study serves to confirm that this specific pretreatment is an effective method for enhancing biomethane production in CS.

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Effects of temperature and total solid content on biohydrogen production from dark fermentation of rice straw: Performance and microbial community characteristics

Chemosphere ◽

10.1016/j.chemosphere.2021.131655 ◽

2021 ◽

pp. 131655

Author(s):

Hong Chen ◽

Jun Wu ◽

Rong Huang ◽

Wenzhe Zhang ◽

Weining He ◽

...

Keyword(s):

Microbial Community ◽

Rice Straw ◽

Total Solid ◽

Dark Fermentation ◽

Solid Content ◽

Biohydrogen Production ◽

Community Characteristics ◽

Total Solid Content ◽

Effects Of Temperature

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Improving Biomethane Production and Mass Bioconversion of Corn Stover Anaerobic Digestion by Adding NaOH Pretreatment and Trace Elements

BioMed Research International ◽

10.1155/2015/125241 ◽

2015 ◽

Vol 2015 ◽

pp. 1-8 ◽

Cited By ~ 4

Author(s):

ChunMei Liu ◽

HaiRong Yuan ◽

DeXun Zou ◽

YanPing Liu ◽

BaoNing Zhu ◽

...

Keyword(s):

Trace Elements ◽

Biological Activity ◽

Anaerobic Digestion ◽

Corn Stover ◽

Experimental Tests ◽

Total Solid ◽

System Operation ◽

Naoh Pretreatment ◽

Operation Stability ◽

Biomethane Production

This research applied sodium hydroxide (NaOH) pretreatment and trace elements to improve biomethane production when using corn stover for anaerobic digestion. Full-factor experimental tests identified the best combination of trace elements with the NaOH pretreatment, indicating that the best combination was with 1.0, 0.4, and 0.4 mg·L−1·d−1of elements Fe, Co, and Ni, respectively. The cumulative biomethane production adding NaOH pretreatment and trace elements was 11,367 mL; total solid bioconversion rate was 55.7%, which was 41.8%–62.2% higher than with NaOH-pretreatment alone and 22.2%–56.3% higher than with untreated corn stover. The best combination was obtained 5–9 days shorter than T90and maintained good system operation stability. Only a fraction of the trace elements in the best combination was present in the resulting solution; more than 85% of the total amounts added were transferred into the solid fraction. Adding 0.897 g of Fe, 0.389 g of Co, and 0.349 g of Ni satisfied anaerobic digestion needs and enhanced biological activity at the beginning of the operation. The results showed that NaOH pretreatment and adding trace elements improve corn stover biodegradability and enhance biomethane production.

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Biogas Production from Corn Stover by Solid-State Anaerobic Co-digestion of Food Waste

Jurnal Teknik Kimia dan Lingkungan ◽

10.33795/jtkl.v4i1.125 ◽

2020 ◽

Vol 4 (1) ◽

pp. 44

Author(s):

Lukhi Mulia Shitophyta ◽

Gita Indah Budiarti ◽

Yusuf Eko Nugroho ◽

Dika Fajariyanto

Keyword(s):

Anaerobic Digestion ◽

Solid State ◽

Kinetic Model ◽

Corn Stover ◽

Food Waste ◽

Biogas Production ◽

Total Solid ◽

Order Kinetic ◽

Volatile Solid ◽

Biogas Yield

Biogas telah menjadi bahan bakar alternatif untuk mengurangi kelangkaan bahan bakar fosil. Biogas dapat dihasilkan dari limbah makanan seperti tongkol jagung. Tongkol jagung merupakan biomassa lignoselulosa dan mengandung kandungan total solid (TS) >15%. Produksi biogas dilakukan dengan solid-state anaerobic digestion dengan penambahan co-digestion limbah makanan. Co-digestion berfungsi untuk membantu proses pemecahan tongkol jagung. Tujuan penelitian ini adalah untuk mengkaji pengaruh persentase limbah makanan, reduksi volatile solid (VS), dan model kinetika produksi biogas dari tongkol jagung. Hasil peneltiian menunjukkan bahwa limbah makanan berpengaruh signifikan terhadap yield biogas (p < 0,05). Yield biogas tertinggi sebesar 584,49 mL g-1 VS-1 dan reduksi VS tertinggi sebesar 40% diperoleh pada limbah makanan 20%. Model kinetika produksi biogas dari tongkol jagung dan limbah makanan mengikuti model kinetika orde pertama.Biogas has become an alternative fuel to reduce the lack of fossil fuel. Biogas can be produced from organic wastes such as corn stover. Corn stover is a typical lignocellulosic biomass and contains a total solid (TS) content higher of 15%. Biogas production was conducted by solid-state anaerobic digestion with addition co-digestion of food waste. Co-digestion is useful to help the digestion of corn stover. The purposes of this study were to investigate the effect of the percentage of food waste, volatile solid (VS) reduction, and kinetic model on biogas production from corn stover. Results showed that food waste had a significant effect on biogas yield (p < 0.05). The highest biogas yield of 584.49 mL g-1 VS-1 and the highest VS reduction of 40% was obtained at food waste of 20%. The kinetic model of biogas production from corn stover and food waste followed the first-order kinetic model.

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Investigation of microbial community structure and its potential for biomethane production by co‐digestion of cassava pulp and distillery stillage

Environmental Progress & Sustainable Energy ◽

10.1002/ep.13695 ◽

2021 ◽

Author(s):

Chonradee Witchayapong ◽

Pongdet Piromyou ◽

Pailin Boontawan ◽

Panlada Tittabutr ◽

Apichat Boontawan

Keyword(s):

Community Structure ◽

Microbial Community ◽

Microbial Community Structure ◽

Cassava Pulp ◽

Biomethane Production

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Soil aggregate–associated mercury (Hg) and organic carbon distribution and microbial community characteristics under typical farmland–use types

Chemosphere ◽

10.1016/j.chemosphere.2021.129987 ◽

2021 ◽

Vol 275 ◽

pp. 129987

Author(s):

Penggang Pei ◽

Tao Sun ◽

Yingming Xu ◽

Yuebing Sun

Keyword(s):

Microbial Community ◽

Organic Carbon ◽

Soil Aggregate ◽

Carbon Distribution ◽

Community Characteristics

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Ethanol Production from Corn Stover Using Soaking Pretreatment

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.171-172.261 ◽

2010 ◽

Vol 171-172 ◽

pp. 261-265

Author(s):

Zhuang Zuo ◽

Xiu Shan Yang

Keyword(s):

Ethanol Production ◽

Corn Stover ◽

Simultaneous Saccharification And Fermentation ◽

Pichia Stipitis ◽

Liquid Ratio ◽

Mild Conditions ◽

Whole Process ◽

Conversion Rates ◽

Mild Temperature ◽

Simultaneous Saccharification

Corn stover was pretreated using different soaking conditions at mild temperature. Among the tested conditions, the best was 1% NaOH+8% NH4OH，50°C，48 h, Solid-to-liquid ratio 1:10. The results showed that soaking pretreatment achieved 63.6% deligniﬁcation, retained the xylan and glucan. After enzymatic hydrolysis, conversion rates of xylan and glucan were 70.9% and 78.5%, respectively. The pretreated filtration re-soaking cause 52.7% xylan and 65.0% glucan conversion. NaOH+NH4OH treatment can be performed under mild conditions, gives a good buffering effect, low carbohydates degradation and extensive removal of lignin. Additionally, simultaneous sacchariﬁcation and fermentation was conducted with pretreated corn stover to assess the ethanol production. For the whole process, 0.15g ethanol /g corn stover was achieved using Saccharomyces cerevisiae Y5, and 0.19g ethanol /g corn stover when using Pichia stipitis.

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