Xiao Hua Gu scite author profile

To investigate the enhanced oil recovery (EOR) technology by chemical flooding in an edge water reservoir, a 3D physical simulation experimental device for the edge water reservoir was developed, and polymer/surfactant binary flooding experiments were carried out under different edge water energies. In addition, the effect and mechanism of binary flooding on EOR under different edge water energies were comprehensively analyzed. Experimental results show that edge water intrusion considerably affects EOR by binary flooding. The stronger the edge water energy, the worse the effect of EOR by binary flooding. Edge water possibly diluted the concentration of the chemical agent medium that is injected into the reservoir, and the degree of dilution varied in different regions. The dilution region was mainly distributed between the injection wells and edge water. The stronger the edge water energy, the higher the dilution multiple of chemical agent and the greater the recovery loss rate by binary flooding.

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Effects of Fermentation Temperature and Waste Paper (as Auxiliary Feedstock) on Biogas Yield of <i>Ulva pertusa </i>

Zhang

et al. 2013

AMR

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Experimental studies on biogas yield of Ulva pertusa were carried out at different fermentation conditions. At 25°C, 35°C and 45°C, the biogas yield from fermentation of Ulva pertusa were 223.2mL/gVS, 256.2mL/gVS and 300.0mL/gVS,respectively, while the methane content in the biogas produced at 35°C was the highest. In addition, biogas yield reached to 482.5mL/gVS and 499.6mL/gVS by adding waste paper of 3.5g and 7.0g to the fermentation liquor, the corresponding methane content in the biogas were 56.0% and 51.2%, respectively. Comparatively, higher biogas yield, methane content and system stability could obtain from Ulva pertusa by adding 3.5g ~ 7.0g of waste paper and fermentation at 35°C.The fermentation process of Ulva pertusa for biogas production generally lasted for 19~25 days.

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Effects of Nanoparticles TiN on the Crystallization Behavior of PET Nanocomposites

Zhou

Liu

2011

AMR

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In this paper, crystallization kinetics behavior of a high heat-absorbing PET / TiN nanocomposite ,the effect of the crystallization behavior of adding nanoendothermic agent,and their crystallization rate and crystallization were studied by differential scanning calorimeter (DSC) ,researching the effect of crystallization behavior of PET with modified TiN and using Avrami equation to study non-isothermal crystallization kinetics. The results show that the kinetic rate constant Zc increasing with the increase of cooling rate, the crystallization half time t1 / 2 subsequently reduced, the crystal growth become fast; TiN is a good nucleating agent in PET, improve PET’s crystallization rate, adding TiN reduce the crystallization activation energy. This has important significance to guide nanocomposite processing.

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Preparation and Performance Research of the PBC / PLA Biodegradable Film

Zeng

et al. 2013

AMM

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This paper mainly describes a novel biodegradable material poly (butylene carbonate) (PBC) to blending toughing modification for polylactic acid (PLA), and prepared the PBC/PLA biodegradable film) of improved toughness. To research the effect of thermol performance and mechanical properties (tensile strength and breaking elongation rate) through Fourier transform infrared spectroscopy (FTIR), differential thermal scanning calorimetry analysis (DSC) and tensile testing to expound different ratio of PBC and additive plasticizer, (lubricant and chain extender) .

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Xiao Hua Gu

Preparation and characterization of poly(ethylene terephthalate) incorporated with secondary-modified montmorillonite

3D Physical Simulation Experiment of Edge Water Reservoir by Polymer/Surfactant Binary Flooding

Effects of Fermentation Temperature and Waste Paper (as Auxiliary Feedstock) on Biogas Yield of <i>Ulva pertusa </i>

Effects of Nanoparticles TiN on the Crystallization Behavior of PET Nanocomposites

Preparation and Performance Research of the PBC / PLA Biodegradable Film

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