Table of Content

25 June 2014, Volume 42 Issue 6

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Power & Electrical Engineering

Analysis of Thermal Properties of IGBT Modules in MW-Level Wind Power Converter

Jian Qi- fei Li Cong

2014, 42(6):  1-6.  doi:10.3969/j.issn.1000-565X.2014.06.001

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In this paper,thermal properties of the IGBT modules of a 3 MW compact wind turbine generator areanalyzed based on the liquid- cooling system platform of IGBT modules established by a company.Then,according tothe data collected in dynamic experiments,the relationships between the output power of the inverter and time are ex-plored.Moreover,by analyzing the variation characters of the temperature of IGBT modules and the power dissipationwith a combination of experimental data,the temperature of IGBT modules and the heat value varying with time arediscussed for a MW- level wind power converter.Experimental results show that the inverter efficiency of the windturbine generator reaches 98.62%,and that the operation temperature of the IGBT modules ranges from 50 to 56℃.It is thus concluded that the adopted liquid- cooling system has good cooling effect on high- power IGBT modules.

Comprehensive Evaluation of Power Quality Based on Self -Organizing Feature Mapping Networks

Fu Xue- qian Chen Hao- yong Cai Run- qing

2014, 42(6):  7-11.  doi:10.3969/j.issn.1000-565X.2014.06.002

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Proposed in this paper is a new comprehensive evaluation method of power quality based on self- organi-zing feature mapping (SOFM) networks,which is used to support the multi- level transactions of power quality infuture power market and the comprehensive management of power quality.The authors introduce the model andprinciple of SOFM networks,put forward an SOFM network model for the comprehensive evaluation of power quality,and make a comparison between the proposed evaluation method and several generally- used methods by using thesamples in literatures.The results show that the proposed method is suitable for the comprehensive evaluation ofpower quality and is of great practicability.

DSP + CPLD-Based High -Power Efficient Charging Power Supply for Electric Vehicles

Du Gui- ping Chen Shuang He Zheng- dong Zhang Bo

2014, 42(6):  12-16,24.  doi:10.3969/j.issn.1000-565X.2014.06.003

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When multiple charging modules operate in parallel,there exists such problems as low efficiency,seri-ous harmonic pollution and light load in the later charging stage or in the case of charging electric cars with smallerbattery capacity.In order to solve this problem,a ZVZCS high- power charging power supply module for electric ve-hicles is developed based on DSP + CPLD,and an experiment platform with an output power of 288 kW (600 V/480A) is constructed.Then,a novel parallel control strategy is proposed to ensure the charging current (voltage)for electric vehicles with the least charging modules.Experimental results show that,when a single module runs,the charging power efficiency is up to 96.5% under a full load; and that,when multiple modules runs in parallel,the charging power efficiency always maintains at above 90.0%,which means that the proposed parallel controlstrategy is correct and feasible.

Optimization of Reactive Power Configuration Principle in High Voltage Distribution Networks

Zhang Yong- jun Chen Yan

2014, 42(6):  17-24.  doi:10.3969/j.issn.1000-565X.2014.06.004

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In this paper,first,high voltage distribution networks are classified according to their load and reactivepower characteristics,and different reactive power compensation configuration schemes are adopted for differentkinds of networks.Then,by taking the high voltage distribution networks with small hydropower as the research ob-jective,a model of reactive power planning considering the capacitive and inductive reactive power compensationconfigurations is proposed,which meets the demands of the reactive voltage control of high voltage distribution net-works with small hydropower.Moreover,an index by the name of the reactive power configuration ratio is put forwardto help select the reactive power compensation configuration for different types of substations,and the principles ofcapacitive and inductive reactive power compensation configurations are optimized and refined for the high voltage dis-tribution networks.Cases analysis shows that these principles help to improve the ability of the voltage control and re-active power balance during the reactive power configuration,reduce the network loss,and avoid excessive investmentof the capacitive reactive power compensation.In addition,with the help of the proposed method,the reactive powerconfiguration ratios of four kinds of high voltage distribution networks are obtained,which can be used as detailedprinciples of the reactive power compensation configuration for high voltage distribution networks.

Characteristics of Power Generation System with Hydraulic Energy-Storage Wave Energy Converter

Wang Kun- lin Tian Lian- fang Wang Xiao- hong You Ya- ge Sheng Song- wei Zhang Ya- qun

2014, 42(6):  25-31.  doi:10.3969/j.issn.1000-565X.2014.06.005

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In this paper,the working principle and advantages of hydraulic energy- storage wave energy converter(WEC) are analyzed,and four basic characteristics of the power generation system with hydraulic energy- storageWEC are deduced according to the mathematical equations of the hydraulic motor and the permanent magnet synchro-nous generator.Then,the effects of accumulator pressure and generator load on the motor and the generator speed,the generator voltage and the generator power are analyzed.Moreover,two working modes of the hydraulic powergeneration system,namely the constant resistance mode and the constant speed mode,are taken into consideration,and a corresponding simulation model is established based on Matlab/Simulink for the power generation system.Finally,some simulation experiments are carried out,and the results verify the correctness of the deduced charac-teristics of the hydraulic power generation system.

Materials Science & Technology

Visualization Research on Polypropylene Melting Process in Vane Extruder

Zhang Gui- zhen Liu Huan- yu Chen Jia- jia Qu Jin- ping

2014, 42(6):  32-39.  doi:10.3969/j.issn.1000-565X.2014.06.006

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The melting process of crystalline polypropylene with different sizes was observed on line by means ofdynamic visualization technique through a self- developed assembled vane extruder,and the melting law and mecha-nism of the polymer were also analyzed.The results show that (1) the melting process in the vane extruder includesthree stages,namely the full- solid melting stage,the solid- rich melting stage and the melt- rich meting stage;(2) in the full- solid and the solid- rich melting stages,solid pellets may generate large plastic deformation,and themelting process is dominated by heat conduction and plastic dissipation heat,while in the melt- rich meting stage,themelting process of solid pellets can be obviously observed,and the melting process is dominated by viscous dissipationheat of the melt; and (3) the number of VPCU groups in the melt- rich meting stage is controlled by the hardest melt-ing pellets (namely the largest pellets),and more VPCU groups are required for the melting of small pellets.

Preparation and Properties of Polyvinyl Formal for Vacuum Sealing Drainage

Guo Sen Ma Tian- cong Zou Yong- kun Liu Fang He Jing- wei

2014, 42(6):  40-45.  doi:10.3969/j.issn.1000-565X.2014.06.007

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Polyvinyl formal,a kind of foam material for vacuum sealing drainage,was synthesized via a mechanicalmixing and foaming approach,with polyvinyl alcohol,methanal,starch,sodium dodecyl sulfate (SDS) and sulfu-ric acid as materials.Then,the effects of stirring speed,SDS content,curing temperature and starch dosage on thewater absorbency,tensile property,pore size and pore size distribution of the product were investigated.The resultsshow that (1) the water absorbency of the synthesized foam material increases with the SDS content ranging from 0.0 to 2.0 g; (2) the mechanical properties of the material become stable when SDS content is more than 1.0 gbut dramatically degrade with the increase of starch dosage and curing temperature; (3) higher stirring speed mayresult in smaller pore and more uniform pore size distribution; (4) more SDS may lead to more large pores and wi-der pore size distribution; and (5) the number of pores is not strictly related to starch dosage.

Preparation and Properties of High Thermal Shock-Resistant Infrared Radiant Energy- Saving Coatings

Zhao Li- ying Liu Ping- an Zeng Fan- cong Liao Ying- feng

2014, 42(6):  46-50.  doi:10.3969/j.issn.1000-565X.2014.06.008

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A novel type of infrared radiant powders with spinel structure was prepared via the solid- state reaction of MnO₂ ,Fe₂O₃ ,CuO and Co₂O₃ powders at high temperature,and was mixed with mullite to obtain composite infra-red radiant powders via high- temperature calcination.Then,the product was mixed with silicate adhesive to fabri-cate infrared radiant coatings with high thermal shock resistance.Finally,the microstructure,physicochemicalproperties and thermal shock resistance of the coatings were investigated.The results show that (1) both the origi-nal and the composite infrared radiant powders exhibit excellent infrared radiation capability,for instance,they areof a room- temperature whole- band infrared emissivity of 0.90 and 0.91,respectively,as well as an infrared emis-sivity in narrow bands of more than 0.92; (2) the heat absorption and exchange capacity of high alumina brickwith composite infrared radiant coatings on its surface dramatically improves,for instance,the heat storage capacityimproves by 4.99% at 600℃ and by 20.98% at 1200℃; and (3) the thermal expansion coefficient of the com-posite infrared radiant coatings matches well with that of high alumina brick,which means that the composite coatingspossess excellent thermal shock resistance.

Effects of In-Situ Grafting-Modified Carbon Black on Properties of Natural Rubber

Fu Wen Liu An- hua Yang Jun

2014, 42(6):  51-56,72.  doi:10.3969/j.issn.1000-565X.2014.06.009

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Polyethylene glycol 400 was grafted onto carbon black (CB) surface by means of in- situ liquid method,and the properties of natural rubber respectively reinforced by carbon black and grafted carbon black were investiga-ted.The results show that (1) at the same filler dosage,both the scorch time and the curing time of grafted carbonblack- filled rubber shorten,and the physical and mechanical properties obviously improve; and (2) as comparedwith the natural rubber reinforced by carbon black,the rubber reinforced by grafted carbon black with a filler dosageof 50 parts is of bound rubber content increment of 16.5%,tensile strength increment and tear strength incrementof 6.1MPa and 19.5kN/m,respectively,abrasion loss decreasing from 0.53g to 0.37g,and tanδ value decrementat 0,60 and 80℃ of 16.67%,45.23% and 45.45%,respectively.Moreover,the results of dynamic mechanicalanalysis and SEM test show that the performance improvement of rubber compound mainly owes to better dispersionof grafted carbon black in natural rubber matrix and greater interaction between grafted carbon black and naturalrubber matrix.

Microstructure and Mechanical Properties of TRIP- Aided Steel with Martensite Matrix

Yin Hong- xiang Zhao Ai- min Zhao Zheng- zhi Pang Qi- hang He Jian- guo Zhang Cong

2014, 42(6):  57-64.  doi:10.3969/j.issn.1000-565X.2014.06.010

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On the basis of C- Si- Mn TRIP- aided steel,a TRIP- aided steel with annealed martensite matrix was obtainedby adjusting the process parameters.Then,the microstructure and mechanical properties of the steel obtainedthrough different annealing processes were observed by means of SEM,TEM,electron backscatter diffraction,XRD,and uniaxial tensile test.The results indicate that (1) with the increase of intercritical annealing tempera-ture,the proportion of ferrite reduces,while that of bainite increases,and the retained austenite proportion firstincreases and then decreases; (2) at low annealing temperature,strip ferrite merges into blocky ferrite,while athigh annealing temperature,strip austenite merges into patches and then converts into martensite or retained austen-ite in the subsequent cooling process; and (3) when the steel is annealed at 780℃,best comprehensive mechani-cal properties may be achieved,namely,a tensile strength of 1053 MPa,a total elongation of 23%,as well as aproduct of tensile strength and elongation of 4GPa × %.Moreover,it is found that the existence of a certain amountof fine and dispersed lath retained austenite is the main cause of this high product of tensile strength and elongation.

Microstructure and Properties of 1300MPa -Grade C-Si -Mn Series Cold -Rolled Ultrahigh-Strength Steel

Zhao Zheng- zhi Tong Ting- ting Dong Rui Ding Ran Zhang Cong Meng Xiang

2014, 42(6):  65-72.  doi:10.3969/j.issn.1000-565X.2014.06.011

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A kind of C- Si- Mn series (0.14C-1.4Si-2.72Mn) tested steel was designed,and the CCT curves andphase transformation rules of the steel were measured by using a thermal dilatometer.Then,the microstructure andphase distribution of the tested steel sheet after hot- rolling and annealing were analyzed by means of OM,SEM,TEM and EBSD.Finally,the retained austenite content of the tested steel was measured by means of XRD.Theresults show that (1) the designed 0.14C-1.4Si- 2.72Mn tested steel possesses good hardenability and is of a criti-cal cooling rate of 10.00℃ /s; (2) the microstructure of annealed tested steel sheet is mainly composed of martens-ite,ferrite and a little amount of retained austenite; (3) the martensite is partially tempered,and the retained aus-tenite accounts for 4% ～6% and mainly distributes among martensite laths but partially distributes in the ferrite;(4) after the annealing of the tested steel sheet,the tensile strength and the total elongation reach 1333MPa and13%,respectively,and the tensile strength accords well with the ductility.

Relationship Between Size as Well as Size Distribution and Fluorescence Properties of CMC/Eu Complex Nanoparticles Synthesized at Different pH Values

Ye Jun Li Wen- hao Xiong Jian

2014, 42(6):  73-78,120.  doi:10.3969/j.issn.1000-565X.2014.06.012

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In this paper,CMC/Eu complex nanoparticles were synthesized at different pH values by the reaction of Eu 3 + and biodegradable carboxymethyl cellulose (CMC). FT- IR results confirm that the carboxyl groups on CMCchains,the oxygen atoms of unsubstituted hydroxyl groups and the oxygen atoms of ether bonds all involve in thereaction with Eu 3 + .SEM and TEM results show that the synthesized CMC/Eu particles are in a nanoscale andpresent weak polycrystalline structure.Solid UV- Vis absorption spectra show that CMC is a good energy donor andfluorescent sensitizer.Moreover,it is found that there is a strong dependence of particle size and distribution on thefluorescence properties of CMC/Eu nanoparticles,and that pH value greatly affects the particle size,the particlesize distribution and the fluorescence properties; for instance,the sample synthesized at pH 7 is of the smallest par-ticle size (150 ～200nm),the most uniform size distribution,the strongest fluorescence intensity and high fluores-cence monochromaticity,and,with the increase of pH value,the nanoparticles aggregate more seriously,the particlesize increases,and the fluorescence intensity accordingly reduces.All these findings reflect the quantum size effect.

Structure and Properties of Sequenced Block Ionomers Containing Hydrophilic Macrosegments

Li Xiu- hua Lin Yong- hua

2014, 42(6):  79-87.  doi:10.3969/j.issn.1000-565X.2014.06.013

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A series of hydrophile- lipophile sequenced block ionomers with hydrophobic macrosegments and size- var-ying hydrophilic macrosegments was synthesized via a two- pot two- step nucleophilic polycondensation of bis(4- chlo-rophenyl) sulfone,9,9- bis(4- hydroxyphenyl) fluorene (BHF),bisphthalazinone containing biphenyl moiety andsulfonated 4,4- difluorobenzophenone (SDFBP),and was used as the material of proton exchange membrane.Then,the structure and properties of the ionomers were investigated.The results show that (1) the structure of theionomers is in good accordance with the designed backbone structure; (2) wet ionomers membranes exhibit a clearmicrophase separation structure with continuous hydrophilic and small- size isolated hydrophobic regions; (3) thesize of hydrophilic regions increases with the size of hydrophilic segments to hydrophobic segments,which benefitsthe swelling of hydrophilic regions and the formation of large- size proton conductive channels; (4) the synthesizedpolymers membranes possess good thermal stability,appropriate water absorption and swelling ratio,high protonconductivity,excellent mechanical properties as well as good high- temperature hydrolytic stability; (5) with thesize increase of large- size hydrophilic chains,the methanol penetration resistance of the membranes improves andthe oxidation resistance degrades; and (6) the proton conductivity of the membranes increases with temperature.Inparticular,the proton conductivity of ionomers 5c and 5d at 20℃ is close to or even higher than that of Nafion 117at 30℃,and the proton conductivity of ionomer 5d reaches 15.63 mS/cm at 80℃.

Architecture & Civil Engineering

Properties of Rigid-Pile Composite Foundation Based on FDM-PFM Coupling Method

Han Xiao- lei Li Yao- kun Ji Jing Lin Yuan- dong

2014, 42(6):  88-95.  doi:10.3969/j.issn.1000-565X.2014.06.014

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In order to reveal the mechanical nature of granular cushion and deeply investigate the effect of granularcushion on the performance of rigid- pile composite foundation,a finite differential- particle flow (FDM- PFM) cou-pling method is proposed,and a coupling model for the static loading test of a single rigid- pile composite foundationis set up.Then,the calculation results are compared with the in- situ test results of a composite foundation of ahigh- rise building,with good accordance being found,which means that the proposed coupling method is effective,and that the macro and micro parameters are properly selected.Finally,further simulations are performed to ana-lyze the effects of different cushion materials on the properties of rigid- pile composite foundation.The results showthat (1) with the increase of cushion stiffness,the settlement decreases,the pile- to- soil stress ratio increases,andthe penetration of the pile top into the cushion decreases; (2) the range of negative skin friction area of the pile isdetermined as follows: 0.30L of medium and coarse sand,0.25L of crushed stone,and 0.20L of graded sand andstone; and (3) with the increase of cushion stiffness,the negative skin friction decreases,while the axial force ofthe pile increases.

Homogeneous Generalized Yield Function and Ultimate Bearing Capacity of Structures with Box Section

Ou Wei Zhang Wei Feng Ying- qi Li Qi Yang Lü- feng

2014, 42(6):  96-101.  doi:10.3969/j.issn.1000-565X.2014.06.015

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As the existing generalized yield function of box section is non- homogeneous,the ultimate bearing capacityof structures with box section obtained by elastic modulus adjustment procedures is often affected by the initial load,and the calculation accuracy is not satisfactory.In order to solve this problem,a homogeneous generalized yieldfunction is developed for box section,and the order of the polynomial expression is determined through error analysis.Then,the element bearing ratio (EBR),the EBR uniformity and the reference EBR for box section are defined,and an elastic modulus adjustment strategy that takes EBR as the basic parameter is proposed.Moreover,an elasticmodulus reduction method for the analysis of ultimate bearing capacity of the structures with box section is presen-ted,and some numerical examples are used to verify the correctness of the method.The results show that the pro-posed method helps to eliminate the effect of the initial load and possesses high calculation accuracy and strong iter-ation stability.

Carbonation Resistance of Concrete with Infiltration Coatings

Li Guo Wei Rong- rong Li Xiao- ling Zhang Jian- feng Lei Ming

2014, 42(6):  102-106.  doi:10.3969/j.issn.1000-565X.2014.06.016

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In this paper,by taking a cement- based infiltration crystallization coating and a silane- based coating asresearch objects,the influences of water- to- cement ratio,concrete substrate’ s moisture condition and painting timeson the carbonation resistance of the concrete with infiltration coatings were investigated.The results show that (1)infiltration coatings help to improve the carbonation resistance of concrete to a certain degree,and the carbonationresistance of cement- based coatings is usually stronger than that of silane- based coatings; (2) moist concrete sub-strate is most favorable to the carbonation resistance of cement- based coatings,but it has little effect on that ofsilane-based coatings; (3) with the decrease of water- to- cement ratio,the improvement of carbonation resistance ofthe concrete with infiltration coatings degrades; and (4) more painting times benefits the carbonation resistance ofconcrete with silane- based coatings but has no obvious effect on that with cement- based coatings.

Energy Mechanism of Mechanical Property of Cement- Emulsified Asphalt Mortar

Fu Qiang Xie You- jun Zeng Xiao- hui

2014, 42(6):  107-113.  doi:10.3969/j.issn.1000-565X.2014.06.017

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This paper deals with the evolution rules of the total strain energy,the dissipated strain energy and theelastic strain energy of CRTS I cement- emulsified asphalt mortar (CA mortar) at various strain rates.The resultsshow that (1) the higher the strain rate,the more accumulated elastic strain energy in the CA mortar and the higherthe peak stress; (2) a large amount of the elastic strain energy accumulates before the peak stress and is continu-ously released and then translated into the surface energy perforating the rupture surface; (3) with the increase ofthe strain rate,the reduced extent of the proportion of the elastic strain energy accounting for the total strain energy(W e /W) decreases,but the release amount and the rate of the elastic strain energy increase,the strength of CAmortar decays faster,and the brittleness becomes more obvious; (4) the dissipated strain energy constantly increaseswith the increase of strain,and is mainly produced in the way of propagation and dislocation friction of cracks; and(5) with the increase of the strain rate,more small cracks are produced in the CA mortar,and the propagation ofcracks is limited by the deformation rate,so that the proportion of the dissipated strain energy accounting for the to-tal strain energy (W d /W) becomes smaller.

Effect of Sunken Plaza on Ventilation Performance of Underground Commercial Buildings

Guo Hao- xu Deng Meng- ren Li Yan

2014, 42(6):  114-120.  doi:10.3969/j.issn.1000-565X.2014.06.018

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In order to overcome the development limitation of large- scale underground commercial buildings(UCBs) caused by mechanical ventilation mode,three large- scale UCBs being built in Guangzhou are taken as pro-totypes to discuss the interior ventilation of UCBs affected by the location of sunken plaza as a common entranceform of UCBs,with the implementation of hybrid ventilation as a point of penetration.Then,an analytical modelwith consistency is established through abstracting the prototypes,and the velocity vector distribution of airflow inthree model states is calculated via the CFD simulation of wind environment.Moreover,the interior air change rateof the samples is analyzed,and the regional thermal environment is discussed with WeatherTool,which helps to de-termine an effective domain of natural ventilation that fulfils the temperature and humidity requirements of humanbeing.Simulated results indicate that (1) suitable sunken plaza location and appropriate relative location of sunkenplaza to atrium may improve the air speed,airflow uniformity,comfortable sensation and energy efficiency in natu-ral ventilation state; (2) the heat absorption of fundamental parts helps to obtain a suitable air speed of UCBs inGuangzhou area; and (3) in the design of large- scale UCBs,ventilation simulation is necessary and beneficial.

Smoke Backlayering Length and Critical Wind Velocity in a Metro Tunnel

Weng Miao- cheng Yu Long- xing Liu Fang

2014, 42(6):  121-128.  doi:10.3969/j.issn.1000-565X.2014.06.019

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In this paper,first,the dimensionless expressions of the smoke backlayering length and the criticalvelocity in metro tunnels were deduced via a dimensional analysis.Then,nine tunnels with different cross sectionswere employed according to the survey results from the tunnel form of the Metro Line 6 in Chongqing,China,andthe smoke flow in the tunnels was analyzed with FDS5.5.Finally,the prediction models of the smoke backlayeringlength and the critical velocity were established,and a 1/10 scale model tunnel was built to carry on small- scalemodel experiments.The results show that the results obtained by the proposed prediction models accord well withthose of small- scale model experiments,and that the critical velocity predicted by the existing method is underesti-mated.

Food Science & Technology

Effects of Drying Methods on Characteristics of Deamidated Wheat Gluten

Qiu Chao- ying Sun Wei- zheng Cui Chun Zhao Mou- ming

2014, 42(6):  129-135.  doi:10.3969/j.issn.1000-565X.2014.06.020

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Deamidated wheat gluten was prepared via spray drying and freeze drying,and the structure as well asthe interfacial properties of the product was characterized by means of FT- IR,Raman spectroscopy and axisymmet-ric drop shape analysis.Then,the emulsifying and foaming properties of the gluten were analyzed.The results showthat (1) freeze drying helps to maintain the protein structure well; (2) the molecular vibration intensity changesafter deamidation; (3) freeze drying may result in greater structure unfolding of protein; (4) the samples obtainedby spray drying possess higher foaming and emulsifying ability but lower stability; and (5) deamidation helps toreduce the surface intension of gluten,and the samples obtained by spray drying are more effective in reducing thesurface tension but is of lower interfacial film elasticity,as compared with the samples obtained by freeze drying,which might be caused by the formation of insoluble protein that lowers the stability of the interfacial film.

Difference in Peptide Mass Fingerprinting Between South Buffalo Milk Casein and Soybean Protein

Xu Ming- fang Dai Jin- feng Xiang Ming- xia Cheng Xi- fei Zeng Xiao- cong Wan Cong- qing Zhou Wei- jun

2014, 42(6):  136-144.  doi:10.3969/j.issn.1000-565X.2014.06.021

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Peptide mass fingerpringting spectra of south buffalo milk casein and soybean protein were established byusing a LTQ Orbitrap XL mass spectrometer combined with RP- HPLC techniques,and the corresponding aminoacid sequences were compared.The results indicate that,among the 28 detected peptides fractions obtained by thetryptic hydrolysis of α_s1 - CN,β- CN and κ- CN originated from south buffalo milk caseins,no fraction matches withthe 181 peptides fractions from the glycinin (glycinin G1 ～ G5 subunit) and the β- conglycinin (α,α',β subunit) ofsoybean protein components,Moreover,it is found that there exists great differences in the number,composition ra-tio and arrangement patterns of amino acid subunits between south buffalo milk caseins and soybean protein compo-nents,and that the full amino acid sequence of soy protein subunits is longer than that of casein amino acid compo-nents,the molecular mass of each component of soy protein is significantly higher than that of the components of ca-sein.The adopted LTQ Orbitrap XL mass spectrometry technique for analyzing the peptide mass fingerprint of milk-derived protein provides a high- precision tool for identifying cheap proteins in milk protein and lays a reliable theo-retical foundation for the detection of trace components in complex mixture.