Electrogenesis reduces the combustion efficiency of sewage sludge
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DOI: 10.1016/j.apenergy.2013.09.049
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Cited by:
- Xie, Candie & Liu, Jingyong & Zhang, Xiaochun & Xie, Wuming & Sun, Jian & Chang, Kenlin & Kuo, Jiahong & Xie, Wenhao & Liu, Chao & Sun, Shuiyu & Buyukada, Musa & Evrendilek, Fatih, 2018. "Co-combustion thermal conversion characteristics of textile dyeing sludge and pomelo peel using TGA and artificial neural networks," Applied Energy, Elsevier, vol. 212(C), pages 786-795.
- Ju-Hyoung Park & Min-Ho Jin & Young-Joo Lee & Gyu-Seob Song & Jong Won Choi & Dong-Wook Lee & Young-Chan Choi & Se-Joon Park & Kwang Ho Song & Joeng-Geun Kim, 2019. "Two-in-One Fuel Synthetic Bioethanol-Lignin from Lignocellulose with Sewage Sludge and Its Air Pollutants Reduction Effects," Energies, MDPI, vol. 12(16), pages 1-15, August.
- Ni, Zhanshi & Bi, Haobo & Jiang, Chunlong & Sun, Hao & Zhou, Wenliang & Qiu, Zhicong & He, Liqun & Lin, Qizhao, 2022. "Research on the co-pyrolysis of coal slime and lignin based on the combination of TG-FTIR, artificial neural network, and principal component analysis," Energy, Elsevier, vol. 261(PA).
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Keywords
Electrogenesis; Sewage sludge; Combustion; Thermogravimetric analysis; Principal component analysis;All these keywords.
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