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Journal Abstract Search

152 related items for PubMed ID: 32652418

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  • 3. Comparative (co-)pyrolytic performances and by-products of textile dyeing sludge and cattle manure: Deeper insights from Py-GC/MS, TG-FTIR, 2D-COS and PCA analyses.
    Zhang J, Zou H, Liu J, Evrendilek F, Xie W, He Y, Buyukada M.
    J Hazard Mater; 2021 Jan 05; 401():123276. PubMed ID: 32634665
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  • 4. CO2-assisted co-pyrolysis of textile dyeing sludge and hyperaccumulator biomass: Dynamic and comparative analyses of evolved gases, bio-oils, biochars, and reaction mechanisms.
    Song Y, Hu J, Liu J, Evrendilek F, Buyukada M.
    J Hazard Mater; 2020 Dec 05; 400():123190. PubMed ID: 32947737
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  • 5. Co-pyrolysis performances, synergistic mechanisms, and products of textile dyeing sludge and medical plastic wastes.
    Ding Z, Liu J, Chen H, Huang S, Evrendilek F, He Y, Zheng L.
    Sci Total Environ; 2021 Dec 10; 799():149397. PubMed ID: 34371397
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  • 10. Nitrogen transformation during pyrolysis of oilfield sludge with high polymer content.
    Wang Y, Dong B, Fan Y, Hu Y, Zhai X, Deng C, Xu Y, Shen D, Dai X.
    Chemosphere; 2019 Mar 10; 219():383-389. PubMed ID: 30551104
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  • 11. Multi-response optimization toward efficient and clean (co-)combustions of textile dyeing sludge and second-generation feedstock.
    Wen S, Zou H, Liu J, Evrendilek DE, Yan Y, Liang G.
    J Hazard Mater; 2021 Apr 15; 408():124824. PubMed ID: 33373950
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  • 12. Nitrogen conversion in relation to NH3 and HCN during microwave pyrolysis of sewage sludge.
    Tian Y, Zhang J, Zuo W, Chen L, Cui Y, Tan T.
    Environ Sci Technol; 2013 Apr 02; 47(7):3498-505. PubMed ID: 23477529
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  • 13. Microplastics as emerging contaminants in textile dyeing sludge: Their impacts on co-combustion/pyrolysis products, residual metals, and temperature dependency of emissions.
    Ding Z, Li W, Chen Z, Wang L, Huang S, Evrendilek F, Yang C, Cai H, Zhong S, Yang Z, Liu J.
    J Hazard Mater; 2024 Mar 15; 466():133465. PubMed ID: 38246059
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  • 14. Co-pyrolysis of sewage sludge and rice husk/ bamboo sawdust for biochar with high aromaticity and low metal mobility.
    Zhang J, Jin J, Wang M, Naidu R, Liu Y, Man YB, Liang X, Wong MH, Christie P, Zhang Y, Song C, Shan S.
    Environ Res; 2020 Dec 15; 191():110034. PubMed ID: 32827522
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  • 15. Kinetics, thermodynamics, gas evolution and empirical optimization of (co-)combustion performances of spent mushroom substrate and textile dyeing sludge.
    Huang J, Liu J, Kuo J, Xie W, Zhang X, Chang K, Buyukada M, Evrendilek F.
    Bioresour Technol; 2019 May 15; 280():313-324. PubMed ID: 30780091
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  • 16. Comparative study for fluidized bed pyrolysis of textile dyeing sludge and municipal sewage sludge.
    Liu Y, Ran C, Siyal AA, Song Y, Jiang Z, Dai J, Chtaeva P, Fu J, Ao W, Deng Z, Zhang T.
    J Hazard Mater; 2020 Sep 05; 396():122619. PubMed ID: 32361128
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  • 17. Bottom slag-to-flue gas controls on S and Cl from co-combustion of textile dyeing sludge and waste biochar: Their interactions with temperature, atmosphere, and blend ratio.
    Huang H, Liu J, Evrendilek F, Zhang G, Sun S, He Y.
    J Hazard Mater; 2022 Aug 05; 435():129007. PubMed ID: 35500343
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  • 18. Thermogravimetric Analysis of Textile Dyeing Sludge (TDS) in N₂/CO₂/O₂ Atmospheres and its Combustion Model with Coal.
    Zhuo Z, Liu J, Sun S, Kuo J, Sun J, Chang KL, Fu J.
    Water Environ Res; 2018 Jan 01; 90(1):30-41. PubMed ID: 29268837
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  • 19. Co-pyrolysis of dyeing sludge and pine sawdust in a fluidized bed: Characterization and analysis of pyrolytic products and investigation of synergetic effects.
    Yao B, Li X, Zhou C, Lv F, Zhang C, Wang L, Yu M, Yuan Y, Zhang Y, Jin Y, Liu Y, Dai J.
    Waste Manag; 2023 Jul 15; 167():122-134. PubMed ID: 37257326
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  • 20. Investigation on emission control of NOx precursors and phosphorus reclamation during pyrolysis of ferric sludge.
    Xiao K, Yu Z, Wang H, Yang J, Liang S, Hu J, Hou H, Liu B.
    Sci Total Environ; 2019 Jun 20; 670():932-940. PubMed ID: 30921725
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