Daoqi Zhu scite author profile

The reaction kinetics of the pyrolysis of heavy oil in the presence of supercritical water (SCW) and high pressure N 2 were measured. At any reaction temperature applied, the pyrolysis under SCW environments is faster than that under N 2 environments. Meanwhile, at lower temperatures the pyrolysis under both environments is accelerated by the introduction of coke into the feedstock. On the basis of a first-order four-lump reaction network consisting of the sequential condensation of maltenes and asphaltenes, the pyrolysis in whichever medium can be preferably described either by the lumped reaction kinetic model modified with autocatalysis and pseudoequilibrium or by the model modified solely with pseudoequilibrium. Benefited from the reduced limitation of diffusion to reaction kinetics, the pyrolysis in the SCW phase is more sensitive to the increase in reaction temperature than that in the oil phase, disengaging readily from the dependence on autocatalysis at a lower temperature.

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Pyrolysis of heavy oil in the presence of supercritical water: The reaction kinetics in different phases

Tan

Liu

Zhu

et al. 2014

AIChE Journal

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In the presence of supercritical water (SCW) and N 2 , the pyrolysis of heavy oil was investigated to distinguish the difference in the reaction kinetics between the upgrading in the SCW and oil phases. The pyrolysis in the SCW phase is faster than that in the oil phase, but the reaction in whichever phase is retarded by vigorous stirring. The pyrolysis can be preferably described by a four-lump kinetic model consisting of the condensation of maltenes and asphaltenes in series. In the SCW phase, highly dispersed asphaltenes are isolated by water clusters from maltenes dissolved in SCW surroundings, by which the condensation of asphaltenes is drastically accelerated. Benefited from excellent mass transfer environments in SCW, the condensation of maltenes is promoted simultaneously. The introduction of SCW into the pyrolysis of heavy oil results in an effectively increased upgrading efficiency, but its influence on the properties of equilibrium liquid products is minor.

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Curcumin enhances radiosensitization of nasopharyngeal carcinoma by regulating circRNA network

Yang

Zhu

Liu

et al. 2019

Molecular Carcinogenesis

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Circular RNAs (circRNAs) are involved in the regulation of gene expression in different physiological and pathological processes. These macromolecules can act as microRNA (miRNA) sponges and play an important role as gene regulators throughout the circRNA‐miRNA pathway. In this study, we established a radioresistance model with the nasopharyngeal carcinoma cell line CNE‐2, and then analyzed the differences in the circRNAs between radioresistant and normal nasopharyngeal carcinoma cell lines using a high‐throughput microarray. Tested circRNAs included 1042 upregulated and 1558 downregulated circRNAs. Relevant signaling pathways associated with the circRNAs and their target miRNAs were analyzed using bioinformatics analysis to determine the radioresistance of the differentially expressed circRNAs. Curcumin was used to treat irradiated cell lines, and changes in the circRNA before and after curcumin treatment were analyzed to investigate the radiosensitization effects of curcumin. The results showed that curcumin could regulate the circRNA‐miRNA‐messenger RNA network and inhibit the epidermal growth factor receptor (EGFR), signal transducers and activators of transcription 3 (STAT3), and growth factor receptor‐bound protein 2 (GRB2) to achieve radiosensitization. Thus, circRNA acted as a miRNA sponge and regulated the expression of miRNA, thereby affecting EGFR, STAT3, and GRB2 expression and radiosensitization.

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Daoqi Zhu

Lumped reaction kinetic models for pyrolysis of heavy oil in the presence of supercritical water

Pyrolysis of heavy oil in the presence of supercritical water: The reaction kinetics in different phases

Curcumin enhances radiosensitization of nasopharyngeal carcinoma by regulating circRNA network

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