Please wait a minute...
SCI和EI收录∣中国化工学会会刊
本期目录
2015年 第23卷 第1期 刊出日期:2015-01-28
    流体力学与传递现象
    Power consumption and flow field characteristics of a coaxialmixerwith a double inner impeller
    Baoqing Liu, Yikun Zhang, Mingqiang Chen, Peng Li, Zhijiang Jin
    Chinese Journal of Chemical Engineering. 2015, 23(1):  1-6.  doi:10.1016/j.cjche.2013.09.001
    摘要 ( )   PDF (1871KB) ( )  
    参考文献 | 相关文章 | 多维度评价
    A coaxial mixer meeting the actual demand of a system with high and variable viscosity is investigated. It has an outer wall-scraping frame and a double inner impeller consisting of a four-pitched-blade turbine and Rushton turbine. The power consumption and flow field characteristics of the coaxial mixer in laminar and transitional flow are simulated numerically, and then the distribution of velocity field, shear rate and mass flow rate are analyzed. The simulation results indicate that the outer frame has little effect on the power consumption of the double inner impeller whether in laminar or transitional flow, whereas the inner combined impeller has a great effect on the power consumption of the outer frame. Compared with the single rotation mode, the power consumption of the outer frame will decrease in co-rotation mode and increase in counter-rotation mode. The velocity, shear rate and mass flow rate are relatively high near the inner impeller in all operating modes, and only under double-shaft agitation will the mixing performance near the free surface be improved. In addition, these distributions in the co-rotation and counter-rotation modes show little difference, but the co-rotation mode is recommended for the advantage of low power consumption.
    Drag-induced breakup mechanism for droplet generation in dripping within flow focusing microfluidics
    Ping Wu, Zhaofeng Luo, Zhifeng Liu, Zida Li, Chi Chen, Lili Feng, Liqun He
    Chinese Journal of Chemical Engineering. 2015, 23(1):  7-14.  doi:10.1016/j.cjche.2014.09.043
    摘要 ( )   PDF (1020KB) ( )  
    参考文献 | 相关文章 | 多维度评价
    Based on viscous drag-induced breakup mechanism, a simple model was proposed to predict the dripping droplet size as a function of controllable parameters in flow focusing micro devices. The size of thread before breakup was also investigated through laminar flow theory. Experiments and numerical simulations by VOF are carried out simultaneously to validate the theoretical analysis, showing that droplet size decreases rapidly with the increase of the flow rate ratio and capillary number.
    Numerical simulation of steady flow past a liquid sphere immersed in simple shear flow at low and moderate Re
    Run Li, Jingsheng Zhang, Yumei Yong, Yang Wang, Chao Yang
    Chinese Journal of Chemical Engineering. 2015, 23(1):  15-21.  doi:10.1016/j.cjche.2014.10.005
    摘要 ( )   PDF (2622KB) ( )  
    参考文献 | 相关文章 | 多维度评价
    This work presents a numerical investigation on steady internal, external and surface flows of a liquid sphere immersed in a simple shear flow at low and intermediate Reynolds numbers. The control volume formulation is adopted to solve the governing equations of two-phase flow in a 3-D spherical coordinate system. Numerical results show that the streamlines for Re = 0 are closed Jeffery orbits on the surface of the liquid sphere, and also closed curves outside and inside the liquid sphere. However, the streamlines have intricate and non-closed structures for Re≠0. The flow structure is dependent on the values of Reynolds number and interior-to-exterior viscosity ratio.
    Lattice Boltzmann simulation of double diffusive natural convection in a square cavity with a hot square obstacle
    Mohsen Nazari, Ladan Louhghalam, Mohamad Hassan Kayhani
    Chinese Journal of Chemical Engineering. 2015, 23(1):  22-30.  doi:10.1016/j.cjche.2014.10.008
    摘要 ( )   PDF (2921KB) ( )  
    参考文献 | 相关文章 | 多维度评价
    Double diffusion convection in a cavity with a hot square obstacle inside is simulated using the lattice Boltzmann method. The results are presented for the Rayleigh numbers 104,105 and 106, the Lewis numbers 0.1, 2 and 10 and aspect ratio A (obstacle height/cavity height) of 0.2, 0.4 and 0.6 for a range of buoyancy number N=0 to -4 with the effect of opposing flow. The results indicate that for |N|< 1, the Nusselt and Sherwood numbers decrease as buoyancy ratio increases,while for |N|>1, they increase with |N|. As the Lewis number increases, higher buoyancy ratio is required to overcome the thermal effects and the minimum value of the Nusselt and Sherwood numbers occur at higher buoyancy ratios. The increase in the Rayleigh or Lewis number results in the formation of the multi-cell flow in the enclosure and the vortices will vanish as |N| increases.
    分离科学与工程
    Effect of sol size on nanofiltration performance of a sol-gel derived microporous zirconia membrane
    Guizhi Zhu, Qian Jiang, Hong Qi, Nanping Xu
    Chinese Journal of Chemical Engineering. 2015, 23(1):  31-41.  doi:10.1016/j.cjche.2014.09.045
    摘要 ( )   PDF (2560KB) ( )  
    参考文献 | 相关文章 | 多维度评价
    This paper reports the effect of sol size on nanofiltration performances of sol-gel derived microporous zirconia membranes. Microstructure, pure water flux, molecular weight cut-off (MWCO) and salt retention of zirconia membranes derived fromzirconia solswith different sizeswere characterized. Thermal evolution, phase composition, microstructure and chemical stability of unsupported zirconia membranes (powder) were determined by thermogravimetric and differential thermal analysis, X-ray diffraction, nitrogen adsorption-desorption and static solubility measurements. Results show that nanofiltration performance of zirconia membranes is highly dependent on sol size. The solwith an average size of 3.8 nm, which is smaller than the pore size of the γ-Al2O3 support (pore size: 5-6 nm), forms a discontinuous zirconia separation layer because of excessive penetration of sol into the support. This zirconiamembrane displays a MWCO value towards polyethylene glycol higher than 4000 Da. A smooth and defect-free zirconiamembrane with a MWCO value of 1195 Da (pore size: 1.75nm) and relative high retention rates towards MgCl2 (76%) and CaCl2 (64%) was successfully fabricated by dip-coating the sol with an appropriate size of 8.6 nm. Zirconia sol with an average size of 12 nm exhibits colloidal nature and forms a zirconia membrane with a MWCO value of 2332 Da (pore size: 2.47 nm). This promising microporous zirconia membrane presents sufficiently high chemical stability in a wide pH range of 1-12.
    Mass transfer performance of structured packings in a CO2 absorption tower
    Wei Yang, Xiaodan Yu, Jianguo Mi, Wanfu Wang, Jian Chen
    Chinese Journal of Chemical Engineering. 2015, 23(1):  42-49.  doi:10.1016/j.cjche.2014.10.003
    摘要 ( )   PDF (1101KB) ( )  
    参考文献 | 相关文章 | 多维度评价
    This paper studies the mass transfer performance of structured packings in the absorption of CO2 from air with aqueous NaOH solution. The Eight structured packings tested are sheet metal ones with corrugations of different geometry parameters. Effective mass transfer area and overall gas phase mass transfer coefficient have been measured in an absorption column of 200 mm diameter under the conditions of gas F-factor in 0.38-1.52 Pa0.5 and aqueous NaOH solution concentration of 0.10-0.15 kmol·m-3. The effects of gas/liquid phase flow rates and packing geometry parameters are also investigated. The results show that the effective mass transfer area changes not only with packing geometry parameters and liquid load, but also with gas F-factor. A new effective mass transfer area correlation on the gas F-factor and the liquid load was proposed, which is found to fit experiment data very well.
    Modified activated carbons with amino groups and their copper adsorption properties in aqueous solution
    Mohammad Hassan Mahaninia, Paria Rahimian, Tahereh Kaghazchi
    Chinese Journal of Chemical Engineering. 2015, 23(1):  50-56.  doi:10.1016/j.cjche.2014.11.004
    摘要 ( )   PDF (591KB) ( )  
    参考文献 | 相关文章 | 多维度评价
    Activated carbons were prepared by two chemical methods and the adsorption of Cu (II) on activated carbons from aqueous solution containing amino groups was studied. The first method involved the chlorination of activated carbon following by substitution of chloride groups with amino groups, and the second involved the nitrilation of activated carbon with reduction of nitro groups to amino groups. Resultant activated carbons were characterized in terms of porous structure, elemental analysis, FTIR spectroscopy, XPS, Boehm titration, and pHzpc. Kinetic and equilibrium tests were performed for copper adsorption in the batch mode. Also, adsorption mechanism and effect of pH on the adsorption of Cu (II) ions were discussed. Adsorption study shows enhanced adsorption for copper on the modified activated carbons, mainly by the presence of amino groups, and the Freundlich model is applicable for the activated carbons. It is suggested that binding of nitrogen atoms with Cu (II) ions is stronger than that with H+ ions due to relatively higher divalent charge or stronger electrostatic force.
    Kinetic study on reactive extraction of phenylalanine enantiomers with BINAP-copper complexes
    Kewen Tang, Jingjing Luo, Panliang Zhang, Jianmin Yi, Jie Hua, Chang'an Yang
    Chinese Journal of Chemical Engineering. 2015, 23(1):  57-63.  doi:10.1016/j.cjche.2014.01.001
    摘要 ( )   PDF (916KB) ( )  
    参考文献 | 相关文章 | 多维度评价
    Enantioselective liquid-liquid extraction has attracted considerable attention for its potential use in largescale production. Kinetic data are needed for the reliable scale-up of the process. This paper reports the kinetic study of reactive extraction of phenylalanine (Phe) enantiomers with BINAP-copper complex (BINAP-Cu) as a chiral selector. The theory of extraction accompanied by a chemical reaction was applied. The effects of agitation speed, interfacial area, pH value of aqueous phase, initial concentration of Phe enantiomers and initial concentration of BINAP-Cu on the specific rate of extraction were investigated. The forward rate constants of the reactions in the reactive extraction process are 7.93 × 10-5m5/2·mol-1/2·s-1 for D-Phe and 1.29 × 10-4 m5/2·mol-1/2·s-1 for L-Phe.
    Influence of monovalent alkaline metal cations on binder-free nano-zeolite X in para-xylene separation
    Milad Rasouli, Nakisa Yaghobi, Seyedeh Zahra Movassaghi Gilani, Hossein Atashi, Majid Rasouli
    Chinese Journal of Chemical Engineering. 2015, 23(1):  64-70.  doi:10.1016/j.cjche.2014.11.005
    摘要 ( )   PDF (1040KB) ( )  
    参考文献 | 相关文章 | 多维度评价
    The adsorption process was studied for separating para-xylene fromxylenemixture on modified nano-zeolite X in a breakthrough system. Nano-zeolitic adsorbent with different ratios of SiO2/Al2O3 was synthesized through hydrothermal process and ion-exchanged with alkaline metal cations like lithium, sodium and potassium. The product was characterized by X-ray diffraction, scanning electron microscopy (SEM), nitrogen adsorption, transform electron microscopy (TEM) and in situ Fourier transform infrared (FTIR) spectroscopy. The influence of nano-zeolite water content and desorbent type on the selectivity of para-xylene toward other C8 aromatic isomers was studied. The optimization of adsorption process was also investigated under variable operation conditions. The isotherm for each isomer of C8 aromatics and the desorbents possess the adsorption characteristics of Langmuir type. The selectivity factor of para-xylene relative to each of meta-xylene, ortho-xylene and ethylbenzene under the optimum conditions obtained to be 5.36, 2.43 and 3.22, in the order given.
    催化、动力学与反应工程
    Effect of chloralkanes on the phenyltrichlorosilane synthesis by gas phase condensation
    Tong Liu, Yunlong Huang, Chao Wang, Qiang Tang, Jinfu Wang
    Chinese Journal of Chemical Engineering. 2015, 23(1):  71-75.  doi:10.1016/j.cjche.2014.11.003
    摘要 ( )   PDF (542KB) ( )  
    参考文献 | 相关文章 | 多维度评价
    To enhance the process of phenyltrichlorosilane synthesis using gas phase condensation, a series of chloralkanes were introduced. The influence of temperature and chloralkane amount on the synthesis was studied based on the product distribution from a tubular reactor. The promoting effect of chloralkane addition was mainly caused by the chloralkane radicals generated by the dissociation of C-Cl bond. The promoting effect of the chloromethane withmore chlorine atomswas better than thosewith less chlorine atoms. Intermediates detected fromthe reactions with isoprene and bromobenzene demonstrated that both trichlorosilyl radical and dichlorosilylene existed in the reaction system in the presence of chloralkanes. A detailed reaction scheme was proposed.
    Steam reforming of methane over Ni catalysts prepared from hydrotalcite-type precursors: Catalytic activity and reaction kinetics
    Yang Qi, Zhenmin Cheng, Zhiming Zhou
    Chinese Journal of Chemical Engineering. 2015, 23(1):  76-85.  doi:10.1016/j.cjche.2013.11.002
    摘要 ( )   PDF (1424KB) ( )  
    参考文献 | 相关文章 | 多维度评价
    Ni/Mg-Al catalysts derived fromhydrotalcite-type precursorswere prepared by a co-precipitation technique and applied to steamreforming of methane. By comparison with Ni/γ-Al2O3 and Ni/α-Al2O3 catalysts prepared by incipientwetness impregnation, the Ni/Mg-Al catalyst presented much higher activity as a result of higher specific surface area and better Ni dispersion. The Ni/Mg-Al catalyst with a Ni/Mg/Almolar ratio of 0.5:2.5:1 exhibited the highest activity for steam methane reforming andwas selected for kinetic investigation. With external and internal diffusion limitations eliminated, kinetic experiments were carried out at atmospheric pressure and over a temperature range of 823-973 K. The results demonstrated that the overall conversion of CH4 and the conversion of CH4 to CO2 were strongly influenced by reaction temperature, residence time of reactants aswell asmolar ratio of steam to methane. A classical Langmuir-Hinshelwood kinetic model proposed by Xu and Froment (1989) fitted the experimental data with excellent agreement. The estimated adsorption parameters were consistent thermodynamically.
    Performance characteristics of fluidized bed syngas methanation over Ni-Mg/Al2O3 catalyst
    Jiao Liu, Dianmiao Cui, Jian Yu, Fabing Su, Guangwen Xu
    Chinese Journal of Chemical Engineering. 2015, 23(1):  86-92.  doi:10.1016/j.cjche.2014.09.038
    摘要 ( )   PDF (969KB) ( )  
    参考文献 | 相关文章 | 多维度评价
    The performance characteristics of isothermal fluidized bed syngas methanation for substitute natural gas are investigated over a self-made Ni-Mg/Al2O3 catalyst. Via atmospheric methanation in a laboratory fluidized bed reactor it was clarified that the CO conversion varied in 5% when changing the space velocity in 40-120 L·g-1·h-1 but the conversion increased obviously by raising the superficial gas velocity from 4 to 12.4 cm·s-1. The temperature at 823 K is suitable for syngas methanation while obvious deposition of uneasyoxidizing Cγ occurs on the catalyst at temperatures around 873 K. From a kinetic aspect, the lowest reaction temperature is suggested to be 750 K when the space velocity is 60 L·g-1·h-1. Raising the H2/CO ratio of the syngas increased proportionally the CO conversion and CH4 selectivity, showing that at enough highH2/CO ratios the active sites on the catalyst are sufficient for CO adsorption and in turn the reaction with H2 for forming CH4. Introducing CO2 into the syngas feed suppresses the water gas shift and Boudouard reactions and thus increased H2 consumption. The ratio of CO2/CO in syngas should be better below 0.52 because varying the ratio from 0.52 to 0.92 resulted in negligible increases in the H2 conversion and CH4 selectivity but decreased the CH4 yield. Introducing steam into the feed gas affected little the CO conversion but decreased the selectivity to CH4. The tested Ni-Mg/Al2O3 catalyst manifested good stability in structure and activity even in syngas containing water vapor.
    Experimental study and kinetic analysis of oxidant-free thermal-assisted UV digestion utilizing supported nano-TiO2 photocatalyst for detection of total phosphorous
    Tian Dong, Jianhua Tong, Chao Bian, Jizhou Sun, Shanhong Xia
    Chinese Journal of Chemical Engineering. 2015, 23(1):  93-99.  doi:10.1016/j.cjche.2013.08.001
    摘要 ( )   PDF (639KB) ( )  
    参考文献 | 相关文章 | 多维度评价
    A novel thermal-assisted ultra-violet (UV) photocatalysis digestion method for the determination of total phosphorus (TP) in water sampleswas introduced in thiswork. The photocatalytic experiments for TP digestionwere conducted using a 365 nm wavelength UV light and TiO2 particles as the photocatalyst. Sodium tripolyphosphate and sodium glycerophosphate were used as the typical components of TP and the digested samples were then determined by spectrophotometry after phosphomolybdenum blue reaction. The effects of operational parameters such as reaction time and temperature were studied for the digestion of TP and the kinetic analysis of two typical components was performed in this paper. The pseudo-first-order rate constants k of two phosphorus compounds at different temperatures were obtained and the Arrhenius equation was employed to explain the effect of temperature on rate constant k. Compared with the conventional thermal digestion method for TP detection, it was found that the temperature was decreased from 120 ℃ to 60 ℃ with same conversion rate and time in this thermal-assisted UV digestion method, which enabled the digestion process work at normal pressure. Compared with the individual ultra-violet (UV) photocatalysis process, the digestion time was also decreased from several hours to half an hour using the thermal-assisted UV digestion method. This method will not lead to secondary pollution since no oxidant was needed in the thermal-assisted UV photocatalysis digestion process, which made it more compatible with electrochemical detection of TP.
    Kinetics of esterification of methanol and acetic acid with mineral homogeneous acid catalyst
    Mallaiah Mekala, Venkat Reddy Goli
    Chinese Journal of Chemical Engineering. 2015, 23(1):  100-105.  doi:10.1016/j.cjche.2013.08.002
    摘要 ( )   PDF (1954KB) ( )  
    参考文献 | 相关文章 | 多维度评价
    In this work, esterification of acetic acid and methanol to synthesize methyl acetate in a batch stirred reactor is studied in the temperature range of 305.15-333.15 K. Sulfuric acid is used as the homogeneous catalyst with concentrations ranging from 0.0633mol·L-1 to 0.3268 mol·L-1. The feed molar ratio of acetic acid to methanol is varied from 1:1 to 1:4. The influences of temperature, catalyst concentration and reactant concentration on the reaction rate are investigated. A second order kinetic rate equation is used to correlate the experimental data. The forward and backward reaction rate constants and activation energies are determined from the Arrhenius plot. The developed kineticmodel is compared with themodels in literature. The developed kinetic equation is useful for the simulation of reactive distillation column for the synthesis of methyl acetate.
    Reaction kinetics for synthesis of sec-butyl alcohol catalyzed by acid-functionalized ionic liquid
    Ting Qiu, Wenli Tang, Chenggang Li, Chengming Wu, Ling Li
    Chinese Journal of Chemical Engineering. 2015, 23(1):  106-111.  doi:10.1016/j.cjche.2014.11.009
    摘要 ( )   PDF (652KB) ( )  
    参考文献 | 相关文章 | 多维度评价
    The acid-functionalized ionic liquid ([HSO3Pmim]HSO4) was synthesized by a two-step method. Nuclear magnetic resonance (NMR) and Fourier transform infrared spectroscopy (FT-IR) showthat the synthesis method is feasible and high purity of ionic liquid can be obtained. Using [HSO3Pmim]HSO4 as the catalyst, we studied the reaction kinetics of synthesizing sec-butyl alcohol from sec-butyl acetate and methanol by transesterification in a high-pressure batch reactor. The effects of temperature, initial molar ratio of methanol to ester, and catalyst concentration on the conversion of sec-butyl acetate were studied. Based on its possible reaction mechanism, a homogeneous kineticmodelwas established. The results showthat the reaction heat ΔHis 10.94 × 103 J·mol-1, so the reaction is an endothermic reaction. The activation energies Ea+ and Ea- are 60.38 × 103 and 49.44 × 103 J·mol-1, respectively.
    过程系统工程与过程安全
    A two-level measurement-based dynamic optimization strategy for a bioreactor in penicillin fermentation process
    Qinghua Chi, Weijie Zhang, Zhengshun Fei, Jun Liang
    Chinese Journal of Chemical Engineering. 2015, 23(1):  112-120.  doi:10.1016/j.cjche.2014.10.011
    摘要 ( )   PDF (803KB) ( )  
    参考文献 | 相关文章 | 多维度评价
    One measurement-based dynamic optimization scheme can achieve optimality under uncertainties by tracking the necessary condition of optimality (NCO-tracking), with a basic assumption that the solution model remains invariant in the presence of all kinds of uncertainties. This assumption is not satisfied in some cases and the standard NCO-tracking scheme is infeasible. In this paper, a novel two-level NCO-tracking scheme is proposed to deal with this problem. A heuristic criterion is given for triggering outer level compensation procedure to update the solution model once any change is detected via online measurement and estimation. The standard NCO-tracking process is carried out at the inner level based on the updated solutionmodel. The proposed approach is illustrated via a bioreactor in penicillin fermentation process.
    Evaluation model for safety capacity of chemical industrial park based on acceptable regional risk
    Guohua Chen, Shukun Wang, Xiaoqun Tan
    Chinese Journal of Chemical Engineering. 2015, 23(1):  121-127.  doi:10.1016/j.cjche.2014.09.039
    摘要 ( )   PDF (281KB) ( )  
    参考文献 | 相关文章 | 多维度评价
    The paper defines the Safety Capacity of Chemical Industrial Park (SCCIP) from the perspective of acceptable regional risk. For the purpose of exploring the evaluation model for the SCCIP, a method based on quantitative risk assessment was adopted for evaluating transport risk and to confirm reasonable safety transport capacity of chemical industrial park, and then by combining with the safety storage capacity, a SCCIP evaluation model was put forward. The SCCIP was decided by the smaller one between the largest safety storage capacity and the maximum safety transport capacity, or else, the regional risk of the park will exceed the acceptable level. The developed method was applied to a chemical industrial park in Guangdong province to obtain the maximum safety transport capacity and the SCCIP. The results can be realized in the regional risk control of the park effectively.
    Synthesis/design optimization of SOFC-PEM hybrid system under uncertainty
    Lingjun Tan, Chen Yang, Nana Zhou
    Chinese Journal of Chemical Engineering. 2015, 23(1):  128-137.  doi:10.1016/j.cjche.2014.09.040
    摘要 ( )   PDF (890KB) ( )  
    参考文献 | 相关文章 | 多维度评价
    Solid oxide fuel cell-proton exchange membrane (SOFC-PEM) hybrid system is being foreseen as a valuable alternative for power generation. As this hybrid system is a conceptual design, many uncertainties involving input values should be considered at the early stage of process optimization. We present in this paper a generalized framework of multi-objective optimization under uncertainty for the synthesis/design optimization of the SOFC-PEM hybrid system. The framework is based on geometric, economic and electrochemical models and focuses on evaluating the effect of uncertainty in operating parameters on three conflicting objectives: electricity efficiency, SOFC current density and capital cost of system. Themulti-objective optimization provides solutions in the form of a Pareto surface, with a range of possible synthesis/design solutions and a logical procedure for searching the global optimum solution for decision maker. Comparing the stochastic and deterministic Pareto surfaces of different objectives, we conclude that the objectives are considerably influenced by uncertainties because the two trade-off surfaces are different.
    Soft sensor of chemical processes with large numbers of input parameters using auto-associative hierarchical neural network
    Yanlin He, Yuan Xu, Zhiqiang Geng, Qunxiong Zhu
    Chinese Journal of Chemical Engineering. 2015, 23(1):  138-145.  doi:10.1016/j.cjche.2014.10.004
    摘要 ( )   PDF (974KB) ( )  
    参考文献 | 相关文章 | 多维度评价
    To explore the problems of monitoring chemical processes with large numbers of input parameters, a method based on Auto-associative Hierarchical Neural Network (AHNN) is proposed. AHNN focuses on dealing with datasets in high-dimension. AHNNs consist of two parts: groups of subnets based on well trained Autoassociative Neural Networks (AANNs) and a main net. The subnets play an important role on the performance of AHNN. A simple but effective method of designing the subnets is developed in this paper. In this method, the subnets are designed according to the classification of the data attributes. For getting the classification, an effective method called Extension Data Attributes Classification (EDAC) is adopted. Soft sensor using AHNN based on EDAC (EDAC-AHNN) is introduced. As a case study, the production data of Purified Terephthalic Acid (PTA) solvent system are selected to examine the proposed model. The results of the EDAC-AHNN model are compared with the experimental data extracted from the literature, which shows the efficiency of the proposed model.
    Application of pH control to a tubular flow reactor
    İ. Halil Vural, Ayla Altinten, Hale Hapoğlu, Sebahat Erdoğan, Mustafa Alpbaz
    Chinese Journal of Chemical Engineering. 2015, 23(1):  145-161.  doi:10.1016/j.cjche.2014.10.002
    摘要 ( )   PDF (1747KB) ( )  
    参考文献 | 相关文章 | 多维度评价
    Tubular flow reactors are mainly used in chemical industry and waste water discharged units. Control of output variables is very difficult because of the existence of high dead-time in these types of reactors. In the present work, sodium hydroxide and acetic acid solutions were sent to the tubular flow reactor. The aim was to control pH at 7 in the nonlinear region. The pH control of a tubular flow reactor with high time delay and a highly nonlinear behavior in pH neutralization reaction was investigated experimentally in the face of the various load and set point changes. Firstly, efficiency of conventional Proportional-Integral-Derivative (PID) algorithm in the experiments was tested. Then self-tuning PID (STPID) control system was applied by using the ARMAX model. The model parameters were calculated from input-output data by using PRBS signal as disturbance and Bierman algorithm. Lastly, the experimental fuzzy control of pH based on fuzzy model was achieved to compare the success of fuzzy approach with the performance of other control cases studied.
    Fault detection of large-scale process control system with higher-order statistical and interpretative structural model
    Zhiqiang Geng, Ke Yang, Yongming Han, Xiangbai Gu
    Chinese Journal of Chemical Engineering. 2015, 23(1):  146-153.  doi:10.1016/j.cjche.2014.10.012
    摘要 ( )   PDF (766KB) ( )  
    参考文献 | 相关文章 | 多维度评价
    Nonlinear characteristic fault detection and diagnosis method based on higher-order statistical (HOS) is an effective data-driven method, but the calculation costs much for a large-scale process control system. An HOS-ISM fault diagnosis framework combining interpretative structural model (ISM) and HOS is proposed: (1) the adjacency matrix is determined by partial correlation coefficient; (2) the modified adjacency matrix is defined by directed graph with prior knowledge of process piping and instrument diagram; (3) interpretative structural for large-scale process control system is built by this ISM method; and (4) non-Gaussianity index, nonlinearity index, and total nonlinearity index are calculated dynamically based on interpretative structural to effectively eliminate uncertainty of the nonlinear characteristic diagnostic method with reasonable sampling period and data window. The proposed HOS-ISM fault diagnosis framework is verified by the Tennessee Eastman process and presents improvement for highly non-linear characteristic for selected fault cases.
    A new process monitoring method based on noisy time structure independent component analysis
    Lianfang Cai, Xuemin Tian
    Chinese Journal of Chemical Engineering. 2015, 23(1):  162-172.  doi:10.1016/j.cjche.2014.10.006
    摘要 ( )   PDF (676KB) ( )  
    参考文献 | 相关文章 | 多维度评价
    Conventional process monitoring method based on fast independent component analysis (FastICA) cannot take the ubiquitous measurement noises into account and may exhibit degraded monitoring performance under the adverse effects of themeasurement noises. In this paper, a newprocessmonitoring approach based on noisy time structure ICA (NoisyTSICA) is proposed to solve such problem. A NoisyTSICA algorithm which can consider the measurement noises explicitly is firstly developed to estimate the mixing matrix and extract the independent components (ICs). Subsequently, a monitoring statistic is built to detect process faults on the basis of the recursive kurtosis estimations of the dominant ICs. Lastly, a contribution plot for the monitoring statistic is constructed to identify the fault variables based on the sensitivity analysis. Simulation studies on the continuous stirred tank reactor system demonstrate that the proposed NoisyTSICA-based monitoring method outperforms the conventional FastICA-based monitoring method.
    An agent-based service-oriented integration architecture for chemical process automation
    Na Luo, Weimin Zhong, Feng Wan, Zhencheng Ye, Feng Qian
    Chinese Journal of Chemical Engineering. 2015, 23(1):  173-180.  doi:10.1016/j.cjche.2014.09.047
    摘要 ( )   PDF (1054KB) ( )  
    参考文献 | 相关文章 | 多维度评价
    In reality, traditional process control system built upon centralized and hierarchical structures presents a weak response to change and is easy to shut down by single failure. Aiming at these problems, a new agent-based service-oriented integration architecture was proposed for chemical process automation system. Web services were dynamically orchestrated on the internet and agent behaviors were built in them. Data analysis, model, optimization, control, fault diagnosis and so on were capsuled into different web services. Agentswere used for service compositions by negotiation. A prototype system of poly(ethylene terephthalate) process automation was used as the case study to demonstrate the validation of the integration.
    Strategy of changing cracking furnace feedstock based on improved group search optimization
    Xiaoyu Nian, Zhenlei Wang, Feng Qian
    Chinese Journal of Chemical Engineering. 2015, 23(1):  181-191.  doi:10.1016/j.cjche.2014.09.027
    摘要 ( )   PDF (1102KB) ( )  
    参考文献 | 相关文章 | 多维度评价
    The scheduling process of cracking furnace feedstock is important in an ethylene plant. In this paper it is described as a constraint optimization problem. The constraints consist of the cycle of operation, maximum tube metal temperature, process time of each feedstock, and flow rate. A modified group search optimizer is proposed to dealwith the optimization problem. Double fitness values are defined for every group. First, the factor of penalty function should be changed adaptively by the ratio of feasible and general solutions. Second, the "excellent" infeasible solution should be retained to guide the search. Some benchmark functions are used to evaluate the newalgorithm. Finally, the proposed algorithmis used to optimize the scheduling process of cracking furnace feedstock. And the optimizing result is obtained.
    Component content distribution profile control in rare earth countercurrent extraction process
    Hui Yang, Fangping Xu, Rongxiu Lu, Yongquan Ding
    Chinese Journal of Chemical Engineering. 2015, 23(1):  192-198.  doi:10.1016/j.cjche.2014.09.046
    摘要 ( )   PDF (1115KB) ( )  
    参考文献 | 相关文章 | 多维度评价
    Considering that the on-line measurement and automatic control of element component content (ECC) are difficult to perform in rare earth cascade extraction process, the ECC distribution profile is dynamically regulated at all stages to assess the effect of product purity control. Focusing on the theory of countercurrent extraction, the technology parameters and pre-setting flow-rates during the extract process are designed. Under varying process parameters, a novel step by step model is also proposed for each stage to analyze the impact on the distribution profile change. Combining the mass balance model and ECC changing trend at the monitoring stage, the ECC distribution profile can be automatically regulated by dynamically compensating the related extract or scrubbing liquid flow-rate. To this end, the required product purity at the two outlets is achieved. Based on Wincc and Matlab dynamic simulators, a specific Pr/Nd cascade extraction process is used to illustrate and demonstrate the application of the present approach.
    化工热力学
    Mixed refrigerant composition shift due to throttle valves opening in auto cascade refrigeration system
    Xiongwen Xu, Jinping Liu, Le Cao
    Chinese Journal of Chemical Engineering. 2015, 23(1):  199-204.  doi:10.1016/j.cjche.2013.06.001
    摘要 ( )   PDF (627KB) ( )  
    参考文献 | 相关文章 | 多维度评价
    Auto cascade refrigeration (ACR) cyclewith phase separators is widely used in the cryogenic system. The composition of mixed refrigerant has a great effect on the performance of the system. Based on the assumption of infinite volume of phase separator, ACR systemwith one phase separator is simulated in this paper. The variation of refrigerant composition under different valves opening is obtained. A related experimental systemis set up to verify the variation. The result shows that when the valve opening connected to the evaporator increases or the valve opening under the phase separator decreases, the low-boiling component concentration of the working mixture passing through the compressor and condenser increases, while the high-boiling component concentration decreases. Furthermore, the variations of condensation pressure and evaporation pressure under different valves opening are also observed. This paper is helpful to deepen the understanding of ACR system.
    Energetic analysis of gasification of biomass by partial oxidation in supercritical water
    Qingqing Guan, Chaohai Wei, Xinsheng Chai, Ping Ning, Senlin Tian, Junjie Gu, Qiuling Chen, Rongrong Miao
    Chinese Journal of Chemical Engineering. 2015, 23(1):  205-212.  doi:10.1016/j.cjche.2014.10.001
    摘要 ( )   PDF (567KB) ( )  
    参考文献 | 相关文章 | 多维度评价
    Partial oxidation gasification in supercriticalwater could produce fuel gases (such as H2, COand CH4) and significantly reduce the energy consumption. In this work, an energetic model was developed to analyze the partial oxidative gasification of biomass (glucose and lignin) in supercritical water and the related key factors on which gasification under autothermal condition depended upon. The results indicated that the oxidant equivalent ratio (ER) should be over 0.3 as the concern about energy balance but less than 0.6 as the concern about fuel gas production. Feedstocks such as glucose and lignin also had different energy recovery efficiency. For materials which can be efficiently gasified, the partial oxidation might be a way for energy based on the combustion of fuel gases. Aromatic materials such as lignin and coal are more potential since partial oxidation could produce similar amount of fuel gases as direct gasification and offer additional energy. Energy recovered pays a key role to achieve an autothermal process. Keeping heat exchanger efficiency above 80% and heat transfer coefficient below 15 kJ·s-1 is necessary to maintain the autothermal status. The results also indicated that the biomass loading should be above 15% but under 20% for an autothermal gasification, since the increase of biomass loading could improve the energy supplied but decrease the efficiency of gasification and gaseous yields. In general, some specific conditions exist among different materials.
    Densities, conductivities, and viscosities of aqueous solutions of N-hexyl, methylpyrrolidinium bromide and N-butyl,methylpyrrolidinium bromide at different temperatures
    Yufei Chen, Yufeng Hu, Jianguang Qi, Yu Sun, Zheyu Li
    Chinese Journal of Chemical Engineering. 2015, 23(1):  213-218.  doi:10.1016/j.cjche.2014.11.010
    摘要 ( )   PDF (563KB) ( )  
    参考文献 | 相关文章 | 多维度评价
    The densities, conductivities, and viscosities were measured for ternary solutions of N-hexyl, methylpyrrolidinium bromide ([PP1,6]Br)-N-butyl,methylpyrrolidinium bromide ([PP1,4]Br)-H2O and its binary subsystems [PP1,6]Br-H2O and [PP1,4]Br-H2O at (298.15, 303.15, 308.15, and 313.15) K, respectively. The results were used to test the predictability of the simple equations established for the prediction of density, conductivity, and viscosity of the mixed electrolyte solutions. The results show that the examined simple equations can offer good predictions for density, conductivity, and viscosity of the mixed ionic liquid solutions in terms of the corresponding properties of its binary subsystems of equal ionic strength.
    生物技术与生物工程
    Three-stage fermentation and kinetic modeling of bioflocculant by Corynebacterium glutamicum
    Liang Shen, Zhongtao An, Qingbiao Li, Chuanyi Yao, Yajuan Peng, Yuanpeng Wang, Ruihua Lai, Xu Deng, Ning He
    Chinese Journal of Chemical Engineering. 2015, 23(1):  219-226.  doi:10.1016/j.cjche.2014.11.012
    摘要 ( )   PDF (1127KB) ( )  
    参考文献 | 相关文章 | 多维度评价
    Fermentation of bioflocculant with Corynebacterium glutamicum was studied by way of kinetic modeling. Lorentzian modified Logistic model, time-corrected Luedeking-Piret and Luedeking-Piret type modelswere proposed and applied to describe the cell growth, bioflocculant synthesis and consumption of substrates, with the correlation of initial biomass concentration and initial glucose concentration, respectively. The results showed that thesemodels could well characterize the batch culture process of C. glutamicumat various initial glucose concentrations from 10.0 to 17.5 g·L-1. The initial biomass concentration could shorten the lag time of cell growth, while the maximum biomass concentration was achieved only at the optimal initial glucose concentration of 16.22 g·L-1. A novel three-stage fed-batch strategy for bioflocculant production was developed based on the model prediction, in which the lag phase, quick biomass growth and bioflocculant production stages were sequentially proceeded with the adjustment of glucose concentration and dissolved oxygen. Biomass of 2.23 g·L-1 was obtained and bioflocculant concentration was enhanced to 176.32 mg·L-1, 18.62% and 403.63% higher than those in the batch process, respectively, indicating an efficient fed-batch culture strategy for bioflocculant production.
    Manganese peroxidase production from cassava residue by Phanerochaete chrysosporium in solid state fermentation and its decolorization of indigo carmine
    Huixing Li, Ruijing Zhang, Lei Tang, Jianhua Zhang, Zhonggui Mao
    Chinese Journal of Chemical Engineering. 2015, 23(1):  227-233.  doi:10.1016/j.cjche.2014.11.001
    摘要 ( )   PDF (911KB) ( )  
    参考文献 | 相关文章 | 多维度评价
    Bioconversion of lignocellulosic wastes to higher value products through fungal fermentation has economic and ecological benefits. In this study, to develop an effective strategy for production of manganese peroxidase (MnP) fromcassava residue by Phanerochaete chrysosporiumin solid state fermentation, the stimulators of MnP production were screened and their concentrations were optimized by one-at-a-time experiment and Box-Behnken design. The maximum MnP activity of 186.38 nkat·g-1 dry mass of the sample was achieved after 6 days of fermentation with the supplement of 79.5mmol·L-1·kg-1 acetic acid, 3.21 ml·kg-1 soybean oil, and 28.5 g·kg-1 alkaline lignin, indicating that cassava residue is a promising substrate for MnP production in solid state fermentation. Meanwhile, in vitro decolorization of indigo carmine by the crude MnP was also carried out, attaining the ratio of 90.18% after 6 h of incubation. An oxidative mechanism of indigo carmine decolorization by MnP was proposed based on the analysis of intermediate metabolites with ultra-high performance liquid chromatography and gas chromatography tandemmass spectrometry. Using the crude MnP produced fromcassava residue for indigo carmine decolorization gives an effective approach to treat dyeing effluents.
    Characterization of promoters in Escherichia coli and application for xylitol synthesis
    Cuiwei Wang, Zhe Li, Aamir Rasool, Hongnan Qu, Dazhang Dai, Chun Li
    Chinese Journal of Chemical Engineering. 2015, 23(1):  234-240.  doi:10.1016/j.cjche.2014.10.018
    摘要 ( )   PDF (872KB) ( )  
    参考文献 | 相关文章 | 多维度评价
    Promoters are themost important tools to control and regulate the gene expression in synthetic biology and metabolic engineering. The expression of target genes in Escherichia coli is usually controlled by the high-strength inducible promoter with the result that the abnormally high transcription of these genes creates excessive metabolic load on the host, which decreases product formation. The constitutive expression systems are capable of avoiding these defects. In this study, to enrich the application of constitutive promoters in metabolic engineering, four promoters from the glycolytic pathway of E. coli were cloned and characterized using the enhanced green fluorescent protein as reporter. Among these promoters, PgapA was determined as the strongest one, the strength of which was about 8.92% of that of the widely used inducible promoter PT7. This promoter was used to control the expression of heterologous xylose reductase in E. coli for xylitol synthesis so as to verify its function in pathway engineering. Themaximumxylitol titer (40.6 g·L-1) produced by engineered E. coli under the control of the constitutive promoter PgapA was obviously higher than that under the control of the inducible promoter PT7, indicating the feasibility and superiority of promoter PgapA in the metabolic engineering of E. coli.
    能源、资源与环境技术
    Experimental study on SO2 recovery using a sodium-zinc sorbent based flue gas desulfurization technology
    Yang Zhang, Tao Wang, Hairui Yang, Hai Zhang, Xuyi Zhang
    Chinese Journal of Chemical Engineering. 2015, 23(1):  241-246.  doi:10.1016/j.cjche.2014.10.007
    摘要 ( )   PDF (756KB) ( )  
    参考文献 | 相关文章 | 多维度评价
    A sodium-zinc sorbent based flue gas desulfurization technology (Na-Zn-FGD) was proposed based on the experiments and analyses of the thermal decomposition characteristics of CaSO3 and ZnSO3·2.5H2O, the waste products of calcium-based semi-dry and zinc-based flue gas desulfurization (Ca-SD-FGD and Zn-SD-FGD) technologies, respectively. Itwas found that ZnSO3·2.5H2O first lost crystal H2O at 100 ℃ and then decomposed into SO2 and solid ZnO at 260 ℃ in the air, while CaSO3 is oxidized at 450 ℃ before it decomposed in the air. The experimental results confirm that Zn-SD-FGD technology is good for SO2 removal and recycling, but with problem in clogging and high operational cost. The proposed Na-Zn-FGD is clogging proof, and more cost-effective. In the newprocess, Na2CO3 is used to generate Na2CO3 for SO2 absorption, and the intermediate product NaHSO3 reacts with ZnO powders, producing ZnSO3·2.5H2O precipitate and Na2CO3 solution. The Na2CO3 solution is clogging proof, which is re-used for SO2 absorption. By thermal decomposition of ZnSO3·2.5H2O, ZnO is re-generated and SO2 with high purity is co-produced as well. The cycle consumes some amount of raw material Na2CO3 and a small amount of ZnO only. The newly proposed FGD technology could be a substitute of the traditional semi-dry FGD technologies.
    Biogas upgrading technologies: Energetic analysis and environmental impact assessment
    Yajing Xu, Ying Huang, Bin Wu, Xiangping Zhang, Suojiang Zhang
    Chinese Journal of Chemical Engineering. 2015, 23(1):  247-254.  doi:10.1016/j.cjche.2014.09.048
    摘要 ( )   PDF (939KB) ( )  
    参考文献 | 相关文章 | 多维度评价
    Biogas upgrading for removing CO2 and other trace components from raw biogas is a necessary step before the biogas to be used as a vehicle fuel or supplied to the natural gas grid. In this work, three technologies for biogas upgrading, i.e., pressuredwater scrubbing (PWS), monoethanolamine aqueous scrubbing (MAS) and ionic liquid scrubbing (ILS), are studied and assessed in terms of their energy consumption and environmental impactswith the process simulation and green degree method. A non-random-two-liquid and Henry's law property method for a CO2 separation system with ionic liquid 1-butyl-3-methylimidazolium bis(trifluoromethylsulfonyl)imide ([bmim][Tf2N]) is established and verified with experimental data. The assessment results indicate that the specific energy consumption of ILS and PWS is almost the same and much less than that of MAS. High purity CO2 product can be obtained by MAS and ILS methods, whereas no pure CO2 is recovered with the PWS. For the environmental aspect, ILS has the highest green degree production value, while MAS and PWS produce serious environmental impacts.
    Comparison of heat transfer performances of helix baffled heat exchangers with different baffle configurations
    Cong Dong, Yaping Chen, Jiafeng Wu
    Chinese Journal of Chemical Engineering. 2015, 23(1):  255-261.  doi:10.1016/j.cjche.2014.10.014
    摘要 ( )   PDF (3473KB) ( )  
    参考文献 | 相关文章 | 多维度评价
    Numerical simulations were performed on flow and heat transfer performances of heat exchangers having six helical baffles of different baffle shapes and assembly configurations, i.e., two trisection baffle schemes, two quadrant baffle schemes, and two continuous helical baffle schemes. The temperature contour or the pressure contour and velocity contour plots with superimposed velocity vectors on meridian, transverse and unfolded concentric hexagonal slices are presented to obtain a full angular view. For the six helix baffled heat exchangers, the different patterns of the single vortex secondary flow and the shortcut leakage flow were depicted as well as the heat transfer properties were compared. The results show that the optimum scheme among the six configurations is a circumferential overlap trisection helix baffled heat exchanger with a baffle incline angle of 20° (20°TCO) scheme with an anti-shortcut baffle structure, which exhibits the second highest pressure drop Δpo, the highest overall heat transfer coefficient K, shell-side heat transfer coefficient ho and shell-side average comprehensive index hopo.
    Instability and breakup of cavitation bubbles within diesel drops
    Ming Lü, Zhi Ning, Kai Yan, Juan Fu, Chunhua Sun
    Chinese Journal of Chemical Engineering. 2015, 23(1):  262-267.  doi:10.1016/j.cjche.2014.10.009
    摘要 ( )   PDF (680KB) ( )  
    参考文献 | 相关文章 | 多维度评价
    Amodified mathematical model is used to study the effects of various forces on the stability of cavitation bubbles within a diesel droplet. The principal finding of the work is that viscous forces of fluids stabilize the cavitation bubble, while inertial force destabilizes the cavitation bubble. The droplet viscosity plays a dominant role on the stability of cavitation bubbles comparedwith that of air and bubble. Bubble-droplet radius ratio is a key factor to control the bubble stability, especially in the high radius ratio range. Internal hydrodynamic and surface tension forces are found to stabilize the cavitation bubble, while bubble stability has little relationship with the external hydrodynamic force. Inertia makes bubble breakup easily, however, the breakup time is only slightly changed when bubble growth speed reaches a certain value (50 m·s-1). In contrast, viscous force makes bubble hard to break. With the increasing initial bubble-droplet radius ratio, the bubble growth rate increases, the bubble breakup radius decreases, and the bubble breakup time becomes shorter.
    Liquid holdup measurement with double helix capacitance sensor in horizontal oil-water two-phase flow pipes
    Lusheng Zhai, Ningde Jin, Zhongke Gao, Zhenya Wang
    Chinese Journal of Chemical Engineering. 2015, 23(1):  268-275.  doi:10.1016/j.cjche.2014.10.010
    摘要 ( )   PDF (1663KB) ( )  
    参考文献 | 相关文章 | 多维度评价
    This paper presents the characteristics of a double helix capacitance sensor formeasurement of the liquid holdup in horizontal oil-water two-phase flow. The finite elementmethod is used to calculate the sensitivity field of the sensor in a pipe with 20 mm inner diameter and the effect of sensor geometry on the distribution of sensitivity field is presented. Then, a horizontal oil-water two-phase flowexperiment is carried out to measure the response of the double helix capacitance sensor, in which a novelmethod is proposed to calibrate the liquid holdup based on three pairs of parallel-wire capacitance probes. The performance of the sensor is analyzed in terms of the flow structures detected by mini-conductance array probes.
    Effect of starch particles on foam stability and dilational viscoelasticity of aqueous-foam
    Yongqiang Zhang, Zhidong Chang, Wenli Luo, Shaonan Gu, Wenjun Li, Jianbo An
    Chinese Journal of Chemical Engineering. 2015, 23(1):  276-280.  doi:10.1016/j.cjche.2014.10.015
    摘要 ( )   PDF (481KB) ( )  
    参考文献 | 相关文章 | 多维度评价
    Surface dilational rheological behavior and foam stability of starch/surfactant mixed solutions were studied at different starch concentrations and constant surfactant concentration. The results show that dilational viscoelasticity modulus, dilational elasticity modulus and dilational viscosity modulus increase with the concentration of starch particles. Foam stability increaseswith dilational viscoelasticity. Foamstrength also increases with starch concentration. Starch particles play a positive effect on foamstability and dilational viscoelasticity and the effect becomesmore significant as drainage proceeds. Film pictures indicate that the film with 20% (by mass) starch particles is thicker than that without starch. Starch particles gather in Plateau border and resist drainage, making the foammore stable.
    Production of biodiesel from waste vegetable oil using impregnated diatomite as heterogeneous catalyst
    Edward Modiba, Christopher Enweremadu, Hilary Rutto
    Chinese Journal of Chemical Engineering. 2015, 23(1):  281-289.  doi:10.1016/j.cjche.2014.10.017
    摘要 ( )   PDF (1081KB) ( )  
    参考文献 | 相关文章 | 多维度评价
    In this study, biodiesel was produced from waste vegetable oil using a heterogeneous base catalyst synthesized by impregnating potassium hydroxide (KOH) onto diatomite. Response surface methodology based on a central composite design was used to optimize four transesterification variables: temperature (30-120 ℃), reaction time (2-6 h), methanol to oil mass ratio (10%-50%) and catalyst to oil mass ratio (2.1%-7.9%). A quadratic polynomial equationwas obtained to correlate biodiesel yield to the transesterification variables. The diatomite-KOH catalyst was characterized using X-ray diffraction (XRD), Fourier transform infra-red spectroscopy (FTIR) and a scanning electron microscope (SEM) equipped with an energy dispersive X-ray detector (EDS). A maximum biodiesel yield of 90%(by mass) was obtained. The reaction conditions were as follows: methanol to oil mass ratio 30%, catalyst to oil mass ratio 5%, reaction time 4 h, and reaction temperature 75 ℃. The XRD, FTIR and SEM (EDS) results confirm that the addition of KOH modifies the structure of diatomite. During impregnation and calcination of the diatomite catalyst the K2O phase forms in the diatomite structural matrix and the active basicity of this compound facilitates the transesterification process. It is possible to recycle the diatomite-KOH catalyst up to three times. The crucial biodiesel properties fromwaste vegetable oil arewithin the American Standard Test Method specifications.
    Structure and properties of forming adsorbents prepared from different particle sizes of coal fly ash
    Zhuannian Liu, Yuan Liu
    Chinese Journal of Chemical Engineering. 2015, 23(1):  290-295.  doi:10.1016/j.cjche.2014.09.037
    摘要 ( )   PDF (1296KB) ( )  
    参考文献 | 相关文章 | 多维度评价
    In this paper, different particle sizes of coal fly ash FA-R (D50 = 15.75 μm), FA-A (D50 = 3.61 μm) and FA-B (D50= 1.73 μm) were treated with NaOH solution to prepare the forming adsorbents FFA-R, FFA-A and FFA-B. The structure and adsorption properties of the forming adsorbents for methylene blue (MB) from aqueous solution were examined. The results showed that the specific surface areas and adsorption capacities of the forming adsorbent for MB increased with decreasing particle size of raw coal fly ashes. The adsorption kinetic data of MB on FFA-R, FFA-A and FFA-B fitted the second-order kinetic model very well with the rate constants (k2) of 3.15 × 10-2, 3.84×10-2 and 6.27 × 10-2 g·mg-1·min-1, respectively. The adsorption processwas not only controlled by intra-particle diffusion. The isotherms of MB on FFA-R, FFA-A and FFA-B can be described by the Langmuir isotherm and the Freundlich isotherm, and the adsorption processes were spontaneous and exothermic.
    Intensification of levofloxacin sono-degradation in a US/H2O2 system with Fe3O4 magnetic nanoparticles
    HongWei, Da Hu, Jie Su, Kebin Li
    Chinese Journal of Chemical Engineering. 2015, 23(1):  296-302.  doi:10.1016/j.cjche.2014.11.011
    摘要 ( )   PDF (921KB) ( )  
    参考文献 | 相关文章 | 多维度评价
    Fe3O4 magnetic nanoparticles (MNPs) were synthesised, characterised, and used as a peroxidase mimetic to accelerate levofloxacin sono-degradation in an ultrasound (US)/H2O2 system. The Fe3O4 MNPs were in nanometre scale with an average diameter of approximately 12 to 18 nm. The introduction of Fe3O4 MNPs increased levofloxacin sono-degradation in the US/H2O2 system. Experimental parameters, such as Fe3O4 MNP dose, initial solution pH, and H2O2 concentration, were investigated by a one-factor-at-a-time approach. The results showed that Fe3O4 MNPs enhanced levofloxacin removal in the pH range from 4.0 to 9.0. Levofloxacin removal ratio increased with Fe3O4 MNP dose up to 1.0 g·L-1 and with H2O2 concentration until reaching the maximum.Moreover, three main intermediate compounds were identified by HPLC with electrospray ionisation tandem mass spectrometry, and a possible degradation pathway was proposed. This study suggests that combination of H2O2, Fe3O4 MNPs and US is a good way to improve the degradation efficiency of antibiotics.
    Simultaneous removal of nitrogen and phosphorus from swine wastewater in a sequencing batch biofilm reactor
    Reti Hai, Yiqun He, Xiaohui Wang, Yuan Li
    Chinese Journal of Chemical Engineering. 2015, 23(1):  303-308.  doi:10.1016/j.cjche.2014.09.036
    摘要 ( )   PDF (773KB) ( )  
    参考文献 | 相关文章 | 多维度评价
    In this study, the performance of a sequencing batch biofilm reactor (SBBR) for removal of nitrogen and phosphorus from swine wastewater was evaluated. The replacement rate of wastewater was set at 12.5% throughout the experiment. The anaerobic and aerobic times were 3 h and 7 h, respectively, and the dissolved oxygen concentration of the aerobic phase was about 3.95 mg·L-1. The SBBR process demonstrated good performance in treating swine wastewater. The percentage removal of total chemical oxygen demand (COD), ammonia nitrogen (NH4+-N), total nitrogen (TN), and total phosphorus (TP) was 98.2%, 95.7%, 95.6%, and 96.2% at effluent concentrations of COD 85.6mg·L-1,NH4+-N 35.22mg·L-1, TN44.64 mg·L-1, and TP 1.13mg·L-1, respectively. Simultaneous nitrification and denitrification phenomenon was observed. Further improvement in removal efficiency of NH4+-N and TN occurred at COD/TN ratio of 11:1, with effluent concentrations at NH4+-N 18.5 mg·L-1 and TN 34 mg·L-1, while no such improvement in COD and TP removal was found. Microbial electron microscopy analysis showed that the filler surfacewas coveredwith a thick biofilm, forming an anaerobic-aerobicmicroenvironment and facilitating the removal of nitrogen, phosphorus and organicmatters. A long-termexperiment (15 weeks) showed that stable removal efficiency for N and P could be achieved in the SBBR system.
    材料与产品工程
    Application of waterborne acrylic emulsions in coated controlled release fertilizer using reacted layer technology
    Yazhen Shen, Cong Zhao, Jianmin Zhou, Changwen Du
    Chinese Journal of Chemical Engineering. 2015, 23(1):  309-314.  doi:10.1016/j.cjche.2014.09.034
    摘要 ( )   PDF (703KB) ( )  
    参考文献 | 相关文章 | 多维度评价
    Waterborne acrylic emulsions modified with organic siloxanes and aziridine crosslinker were synthesized and applied as coating of controlled release fertilizer. The free films were characterized and the nutrient release profiles of the coated fertilizers were determined. The results show that methyl silicone oil and methylsilanolate sodiumcould not improve water resistance performance and glass transition temperature Tg of coatings, while the firmness is enhanced. Aziridine crosslinker improves the water resistance performance, firmness and Tg. Incorporation of methyl silicone oil and aziridine crosslinker gives an excellent aqueous acrylic emulsion for coated controlled release fertilizer, with the 30-day cumulative nutrient release reduced to 16% and an estimated nutrient release duration over 190 days. Therefore, this waterborne coating is promising to meet the requirements for controlled release of nutrient and environmental protection.
    High tap density of Ni3(PO4)2 coated LiNi1/3Co1/3Mn1/3O2 with enhanced cycling performance at high cut-off voltage
    Yan Cui, Shengming Xu
    Chinese Journal of Chemical Engineering. 2015, 23(1):  315-320.  doi:10.1016/j.cjche.2014.03.001
    摘要 ( )   PDF (1607KB) ( )  
    参考文献 | 相关文章 | 多维度评价
    The LiNi1/3Co1/3Mn1/3O2 is first obtained by the controlled crystallization method and then coatedwith Ni3(PO4)2 particles. The effects of the coating on rate capability and cycle life at high cut-off voltage are investigated by electrochemical impedance spectroscopy and galvanostatic measurements. The element ratio of Ni:Mn:Co is tested by inductively-coupled plasma spectrometer (ICP) analysis and it testified to be 1:1:1. It is indicated that Ni3(PO4)2-coated LiNi1/3Co1/3Mn1/3O2 has an outstanding capacity retention, where 99% capacity retention is maintained after 10 cycles at 5C discharge rate between 2.7 V and 4.6 V. The electrochemical impedance spectroscopy (EIS) results show that the current exchange density i0 of the coated sample is higher than that of LiNi1/3Co1/3Mn1/3O2, which is beneficial to its electrochemical performances. All the conclusions show that the Ni3(PO4)2 coating can prominently enhance the high rate performance of the LiNi1/3Co1/3Mn1/3O2, especially at high cut-off voltage.
    研究简报
    Changes in char reactivity due to char-oxygen and char-steam reactions using Victorian brown coal in a fixed-bed reactor
    Shu Zhang, Yonggang Luo, Chunzhu Li, Yonggang Wang
    Chinese Journal of Chemical Engineering. 2015, 23(1):  321-325.  doi:10.1016/j.cjche.2014.09.044
    摘要 ( )   PDF (679KB) ( )  
    参考文献 | 相关文章 | 多维度评价
    This study was to examine the influence of reactions of char-O2 and char-steamon the char reactivity evolution. A newly-designed fixed-bed reactor was used to conduct gasification experiments using Victorian brown coal at 800 ℃. The chars prepared from the gasification experiments were then collected and subjected to reactivity characterisation (ex-situ reactivity) using TGA (thermogravimetric analyser) in air. The results indicate that the char reactivity from TGA was generally high when the char experienced intensive gasification reactions in 0.3% O2 in the fixed-bed reactor. The addition of steaminto the gasification not only enhanced the char conversion significantly but also reduced the char reactivity dramatically. The curve shapes of the char reactivity with involvement of steam were very different from that with O2 gasification, implying the importance of gasifying agents to char properties.