Person Image

สิริพล อนันตวรสกุล

รองศาสตราจารย์

ภาควิชาวิศวกรรมเคมี

คณะวิศวกรรมศาสตร์

บางเขน

    Education

    • Ph.D.Chemical Engineering , McGill University, CANADA
    • M.Eng. Chemical Engineering, McGill University, CANADA
    • วศ.บ. วิศวกรรมเคมี , มหาวิทยาลัยเกษตรศาสตร์, ไทย

    Expertise Cloud

     Catalyst active site multiplicity DSC and SSA experiments Intra- and inter-chain compositional heterogeneity Irganox–Irgafos synergism Ethylene–1-hexene copolymer compositional heterogeneity Invariable apparent crystallization activation energy Kinetics of crystallization Modeling of catalyst active site multiplicity polyethylene]+ catalyst1-hexene copolymers1-OlefinsA Monte Carlo Simulationactive centre distributionActive siteadsorptionAdsorption/desorptionanacardic acidANNartificial intelligenceArtificial Neural Networkartificial neural network (ANN)axial dispersionBatch reactorsBimodality criterionBinary blendsbiomodality criterionBivariateBivariate distributionbivariate molecular weightsblendsBlock copolymersCatalystschain-shuttling polymerizationChemical Composition DistributionChemical composition distributionscocrystallizationcopolymerization kinetic modelCopolymersCrystafCrystallization analysis fractionationCrystallization Analysis Fractionation (Crystaf)Crystallization Ananlysis FractionationCrystallization Elution FractionationCrystallization kineticsDeconvolutiondynamic crystallizationdynamic Monte Carlodynamic Monte Carlo simulationEthyleneEthylene/1-Butene CopolymerizationEthylene/1-olefin copolymersFractionationfractionation of polymersheterogeneous nucleationIntelligent systemsKinetic parametersKineticskinetics (polym.)linear olefin block copolymersLLDPEMetallocene catalystmetallocene catalystsMicrostructuremicrostructuresmodelingModelsMolecular weightmolecular weight distributionmolecular weight distribution (MWD)Monte Carlo methodsMonte Carlo SimulationMorphological DevelopmentMWD and CCD deconvolutionOlefin block copolymerolefin block copolymersolefin block copolymers (OBCs)Organometallicspolyethylenepolyethylene (PE)Polyethylenespolymer characterizationPolymer CrystallizationPolymer microstructuresPolymer morphologyPolymerizationPolymerization conditionsPolymerization kineticsPolyolefinPolypropylenesPropyleneRate constantsresidence time distributionSemi-flexible Polymer Chainsstochastic simulationtemperature rising elution fractionationtemperature rising elution fractionation (Tref)Thermal gradientsTwo-reactor systemพอลิเอทิลีน

    Interest

    Polymer Science and Engineering, Modeling and Simulation, Transport Phenomena

    Administrative Profile

    • เม.ย. 2566 - ปัจจุบัน รองคณบดีฝ่ายวิจัยและนวัตกรรม คณะวิศวกรรมศาสตร์
    • ธ.ค. 2565 - มี.ค. 2566 รองคณบดีฝ่ายวิจัยและนวัตกรรม (ผู้รักษาการแทน) คณะวิศวกรรมศาสตร์
    • ก.ค. 2564 - มี.ค. 2566 หัวหน้าภาควิชา คณะวิศวกรรมศาสตร์ ภาควิชาวิศวกรรมเคมี
    • มี.ค. 2558 - เม.ย. 2560 หัวหน้าภาควิชาวิศวกรรมเคมี คณะวิศวกรรมศาสตร์

    Resource

    • จำนวนหน่วยปฏิบัติการที่เข้าร่วม 0 หน่วย
    • จำนวนเครื่องมือวิจัย 0 ชิ้น

    งานวิจัยในรอบ 5 ปี

    Project

    งานวิจัยที่อยู่ระหว่างการดำเนินการ
    • ทุนใน 3 โครงการ (ผู้ร่วมวิจัย 3 โครงการ)
    • ทุนนอก 0 โครงการ
    งานวิจัยที่เสร็จสิ้นแล้ว
    • ทุนใน 17 โครงการ (หัวหน้าโครงการ 14 โครงการ, ผู้ร่วมวิจัย 3 โครงการ)
    • ทุนนอก 14 โครงการ (หัวหน้าโครงการ 14 โครงการ)

    แนวโน้มผลงานทั้งหมดเทียบกับแนวโน้มผลงานในรอบ 5 ปี

    Output

    • บทความ 144 เรื่อง (ตีพิมพ์ในวารสารวิชาการ 61 เรื่อง, นำเสนอในการประชุม/สัมมนา 83 เรื่อง)
    • ทรัพย์สินทางปัญญา 0 เรื่อง (ลิขสิทธิ์ 0 เรื่อง, เครื่องหมายการค้า 0 เรื่อง, อนุสิทธิบัตร 0 เรื่อง, สิทธิบัตร 0 เรื่อง)
    • สิ่งประดิษฐ์ 0 เรื่อง (ขึ้นทะเบียนพันธุ์พืช หรือพันธุ์สัตว์ หรือสิ่งประดิษฐ์ มก. 0 เรื่อง)
    • Unknown 0 เรื่อง (Unknown 0 เรื่อง)

    แนวโน้มการนำผลงานไปใช้ประโยชน์ในด้านต่างๆ

    Outcome

    • การนำผลงานไปใช้ประโยชน์ 62 เรื่อง (เชิงวิชาการ 62 เรื่อง, เชิงนโยบาย/บริหาร 0 เรื่อง, เชิงสาธารณะ 0 เรื่อง, เชิงพาณิชย์ 0 เรื่อง)

    รางวัลที่ได้รับ

    Award

    • รางวัลที่ได้รับ 11 เรื่อง (ประกาศเกียรติคุณ/รางวัลนักวิจัย 7 เรื่อง, รางวัลผลงานวิจัย/สิ่งประดิษฐ์ 2 เรื่อง, รางวัลผลงานนำเสนอในการประชุมวิชาการ 2 เรื่อง)

    นักวิจัยที่มีผลงานงานร่วมกันมากที่สุด 10 คนแรก

    Person Relation

    Scopus h-index

    #Document titleAuthorsYearSourceCited by
    1Fractionation of semicrystalline polymers by crystallization analysis fractionation and temperature rising elution fractionationAnantawaraskul S., Anantawaraskul S., Soares J.B.P., Wood-Adams P.M.2005Advances in Polymer Science,
    182, pp. 1-54    		135
    2Crystallization analysis fractionationSoares J., Anantawaraskul S., Anantawaraskul S.2005Journal of Polymer Science, Part B: Polymer Physics,
    43(13), pp. 1557-1570    		59
    3Effect of operation parameters on temperature rising elution fractionation and crystallization analysis fractionationAnantawaraskul S., Soares J., Wood-Adams P.2003Journal of Polymer Science, Part B: Polymer Physics,
    41(14), pp. 1762-1778    		55
    4Effect of molecular weight and average comonomer content on the crystallization analysis fractionation (Crystaf) of ethylene α-olefin copolymersAnantawaraskul S., Soares J., Wood-Adams P., Monrabal B.2003Polymer,
    44(8), pp. 2393-2401    		53
    5Cocrystallization of blends of ethylene/1-olefin copolymers: An investigation with crystallization analysis fractionation (Crystaf)Anantawaraskul S., Soares J., Wood-Adams P.2004Macromolecular Chemistry and Physics,
    205(6), pp. 771-777    		40
    6Distribution of the longest ethylene sequence in ethylene/α-olefin copolymers synthesized with single-site-type catalystsCosteux S., Anantawaraskul S., Wood-Adams P., Soares J.2002Macromolecular Theory and Simulations,
    11(3), pp. 326-341    		36
    7Mathematical modeling of crystallization analysis fractionation of ethylene/1-hexene copolymersAnantawaraskul S., Jirachaithorn P., Soares J., Limtrakul J.2007Journal of Polymer Science, Part B: Polymer Physics,
    45(9), pp. 1010-1017    		26
    8Mathematical modeling of crystallization analysis fractionation (Crystaf) of polyethyleneAnantawaraskul S., Soares J., Jirachaithorn P., Limtrakul J.2006Journal of Polymer Science, Part B: Polymer Physics,
    44(19), pp. 2749-2759    		25
    9Simultaneous deconvolution of molecular weight distribution and chemical composition distribution of ethylene/1-olefin copolymers synthesized with multiple-site-type catalytic systemsAnantawaraskul S., Bongsontia W., Soares J.2009Macromolecular Symposia,
    282(1), pp. 167-174    		23
    10Simultaneous deconvolution of molecular weight and chemical composition distribution of ethylene/1-olefin copolymers: Strategy validation and comparisonAnantawaraskul S., Bongsontia W., Soares J.2011Macromolecular Reaction Engineering,
    5(11-12), pp. 549-562    		22
    11Silica-supported (nBuCp)2ZrCl2: Effect of catalyst active center distribution on ethylene-1-hexene copolymerizationAtiqullah M., Anantawaraskul S., Emwas A.H.M., Al-Harthi M.A., Hussain I., Ul-Hamid A., Hossaen A.2014Polymer International,
    63(6), pp. 955-972    		22
    12Cocrystallization of ethylene/1-octene copolymer blends during crystallization analysis fractionation and crystallization elution fractionationSuriya K., Anantawaraskul S., Soares J.2011Journal of Polymer Science, Part B: Polymer Physics,
    49(9), pp. 678-684    		21
    13Chemical composition distribution of multicomponent copolymersAnantawaraskul S., Soares J., Wood-Adams P.2003Macromolecular Theory and Simulations,
    12(4), pp. 229-236    		21
    14Effects of supported (nBuCp)2ZrCl2 catalyst active-center distribution on ethylene-1-hexene copolymer backbone heterogeneity and thermal behaviorsAtiqullah M., Anantawaraskul S., Emwas A.H.M., Al-Harthi M.A., Hussain I., Ul-Hamid A., Hossaen A.2013Industrial and Engineering Chemistry Research,
    52(27), pp. 9359-9373    		20
    15Estimation of Polymerization Conditions Needed to Make Ethylene/1-olefin Copolymers with Specific Microstructures Using Artificial Neural NetworksCharoenpanich T., Anantawaraskul S., Soares J.2016Macromolecular Reaction Engineering,
    10(3), pp. 215-232    		20
    16A mathematical model for the kinetics of crystallization in crystafAnantawaraskul S., Soares J., Jirachaithorn P.2007Macromolecular Symposia,
    257, pp. 94-102    		17
    17Application of a crystallization kinetics model to simulate the effect of operation conditions on Crystaf profiles and calibration curvesAnantawaraskul S., Anantawaraskul S., Somnukguandee P., Somnukguandee P., Soares J.B.P., Limtrakul J.2009Journal of Polymer Science, Part B: Polymer Physics,
    47(9), pp. 866-876    		16
    18Monte Carlo simulation of the microstructure of linear olefin block copolymersAnantawaraskul S., Somnukguande P., Soares J.2012Macromolecular Symposia,
    312(1), pp. 167-173    		16
    19Simultaneous Deconvolution of the Bivariate Molecular Weight and Chemical Composition Distribution of Ethylene/1-Hexene CopolymersHornchaiya C., Anantawaraskul S., Soares J.B.P., Mehdiabadi S.2019Macromolecular Chemistry and Physics,
    220(6), 1800522    		16
    20Understanding the Formation of Linear Olefin Block Copolymers with Dynamic Monte Carlo SimulationTongtummachat T., Anantawaraskul S., Soares J.2016Macromolecular Reaction Engineering,
    10(6), pp. 535-550    		14
    21Mathematical modeling of temperature rising elution fractionation (TREF) of polyethylene and ethylene/1-olefin copolymersSiriwongsarn E., Anantawaraskul S., Chokputtanawuttilerd N., Alghyamah A., Alghyamah A., Soares J.2012Macromolecular Chemistry and Physics,
    213(18), pp. 1892-1906    		14
    22Bimodality Criterion for the Chemical Composition Distribution of Ethylene/1-Olefin Copolymers: Theoretical Development and Experimental ValidationNarkchamnan K., Anantawaraskul S., Soares J.2011Macromolecular Reaction Engineering,
    5(5-6), pp. 198-210    		13
    23Effects of supported metallocene catalyst active center multiplicity on antioxidant-stabilized ethylene homo- and copolymers: Evaluation of melt stability by nonisothermal DSC studyAtiqullah M., Cibulková Z., Černá A., Šimon P., Hussain I., Al-Harthi M.A., Anantawaraskul S.2015Journal of Thermal Analysis and Calorimetry,
    119(1), pp. 581-595    		13
    24Ethylene homo- and copolymerization chain-transfers: A perspective from supported (n BuCp) 2 ZrCl 2 catalyst active centre distributionAtiqullah M., Al-Harthi M.A., Anantawaraskul S., Emwas A.H.M.2015Journal of Chemical Sciences,
    127(4), pp. 717-728    		12
    25Simulation of crystallization kinetics and morphological development during isothermal crystallization of polymers: Effect of number of nuclei and growth rateKetdee S., Anantawaraskul S.2008Chemical Engineering Communications,
    195(11), pp. 1315-1327    		12
    26Dynamic Monte Carlo Simulation of Olefin Block Copolymers (OBCs) Produced via Chain-Shuttling Polymerization: Effect of Kinetic Rate Constants on Chain MicrostructureTongtummachat T., Anantawaraskul S., Soares J.B.P.2018Macromolecular Reaction Engineering,
    12(4), 1800021    		12
    27On the Robustness of Forward and Inverse Artificial Neural Networks for the Simulation of Ethylene/1-Butene CopolymerizationCharoenpanich T., Anantawaraskul S., Soares J.B.P.2017Macromolecular Theory and Simulations,
    26(6), 1700042    		12
    28Simultaneous deconvolution of MWD and CCD of ethylene/1-olefin copolymers using genetic algorithmNanthapoolsub U., Anantawaraskul S., Saengkhamkhom K.2013Macromolecular Symposia,
    330(1), pp. 142-149    		11
    29Determination of operating conditions of ethylene/1-octene copolymerization using artificial neural network (ANN)Anantawaraskul S., Toungsetwut M., Pinyapong R.2008Macromolecular Symposia,
    264(1), pp. 157-162    		9
    30Simulation of crystallization analysis fractionation (Crystaf) of linear olefin block copolymersAnantawaraskul S., Somnukguande P., Soares J.2009Macromolecular Symposia,
    282(1), pp. 205-215    		9
    31Chemical composition distribution of multicomponent copolymer chainsAnantawaraskul S., Soares J.B.P., Wood-Adams P.M.2004Macromolecular Symposia,
    206, pp. 69-78    		8
    32Mathematical model of dynamic crystallization of ethylene/1-octene copolymersChokputtanawuttilerd N., Anantawaraskul S., Soares J.2013Macromolecular Symposia,
    330(1), pp. 132-141    		8
    33Chemical composition distribution and temperature rising elution fractionation of linear olefin block copolymersAnantawaraskul S., Sottesakul S., Siriwongsarn E., Soares J.2013Macromolecular Symposia,
    330(1), pp. 123-131    		8
    34Effect of operating conditions on dynamic crystallization of ethylene/1-octene copolymersChokputtanawuttilerd N., Anantawaraskul S., Alghyamah A., Soares J.2013Macromolecular Chemistry and Physics,
    214(22), pp. 2591-2601    		8
    35Mathematical modeling of crystallization elution fractionation of ethylene/1-octene copolymersChokputtanawuttilerd N., Anantawaraskul S., Inwong N., Soares J.2015Macromolecular Chemistry and Physics,
    216(6), pp. 621-635    		8
    36Dynamic Monte Carlo Simulation for Chain-Shuttling Polymerization of Olefin Block Copolymers in Continuous Stirred-Tank ReactorTongtummachat T., Ma-In R., Anantawaraskul S., Soares J.B.P.2020Macromolecular Reaction Engineering,
    14(6), 2000030    		8
    37Modeling Propylene Polymerization in a Two-Reactor System: Model Development and Parameter EstimationCharoenpanich T., Anantawaraskul S., Soares J.B.P., Wongmahasirikun P., Shiohara S.2022Macromolecular Reaction Engineering,
    2200027    		7
    38Stochastic simulation for morphological development during the isothermal crystallization of semicrystalline polymers: A case study of syndiotactic polypropyleneAnantawaraskul S., Ketdee S., Supaphol P.2009Journal of Applied Polymer Science,
    111(5), pp. 2260-2268    		7
    39Estimation of average comonomer content of ethylene/1-olefin copolymers using crystallization analysis fractionation (Crystaf) and artificial neural network (ANN)Anantawaraskul S., Chokputtanawuttilerd N.2009Macromolecular Symposia,
    282(1), pp. 150-156    		6
    40Using Artificial Intelligence Techniques to Design Ethylene/1-Olefin CopolymersCharoenpanich T., Anantawaraskul S., Soares J.B.P.2020Macromolecular Theory and Simulations,
    29(6), 2000048    		6
    41Understanding the Microstructure of Living Ethylene/1-Octene Block Copolymers with Dynamic Monte Carlo SimulationTongtummachat T., Anantawaraskul S., Soares J.B.P.2017Macromolecular Theory and Simulations,
    26(3), 1700012    		6
    42Effects of supported (nBuCp)2ZrCl2 catalyst active center multiplicity on crystallization kinetics of ethylene homo- and copolymersAtiqullah M., Adamu S., Hossain M., Al-Harthi M., Anantawaraskul S., Hossaen A.2014Journal of the Taiwan Institute of Chemical Engineers,
    45(4), pp. 1982-1991    		6
    43High Temperature Thermal Gradient Interaction Chromatography (HT-TGIC) of Ethylene/1-Octene Copolymers: Model Development and ValidationInwong N., Anantawaraskul S., Soares J., Al- Khazaal A.2015Macromolecular Symposia,
    356(1), pp. 54-60    		6
    44Polyolefins Made with Dual Metallocene Catalysts: How Microstructure Affects Polymer PropertiesVoraruth V., Caldera A., Soares J.B.P., Anantawaraskul S.2018Macromolecular Chemistry and Physics,
    219(6), 1700551    		6
    45Monte Carlo Simulation of Olefin Block Copolymers: Bivariate Distribution of Molecular Weight and Chemical CompositionBuakrong P., Anantawaraskul S., Soares J.B.P.2018Macromolecular Symposia,
    377(1), 1700060    		6
    46Mathematical Modeling of Multiple High Temperature Thermal Gradient Interaction Chromatography (m-HT-TGIC) for Ethylene/1-Olefin Copolymer BlendsPrasongsuksakul S., Anantawaraskul S., Soares J.B.P.2018Macromolecular Symposia,
    377(1), 1700061    		5
    47Molecular Weight Distribution of Ethylene/1-Olefin Copolymers: Generalized Bimodality CriterionVichitlimaporn C., Anantawaraskul S., Soares J.B.P.2017Macromolecular Theory and Simulations,
    26(1), 1600060    		4
    48High temperature thermal gradient interaction chromatography (HT-TGIC) for blends of ethylene/1-octene copolymers: A mathematical modelInwong N., Anantawaraskul S., Soares J., Al-Khazaal A.2015Macromolecular Symposia,
    354(1), pp. 361-366    		4
    49An experimental and numerical study on crystallization analysis fractionation (Crystaf)Anantawaraskul S., Soares J., Wood-Adams P.2004Macromolecular Symposia,
    206, pp. 57-68    		4
    50Development of Bimodality Criterion for the Sequence Length Distribution of Ethylene/1-Olefin CopolymersAnantawaraskul S.2015Macromolecular Symposia,
    356(1), pp. 27-33    		3
    51Application of Genetic Algorithm in Simultaneous Deconvolution: Case Studies of Ethylene/1-Butene Copolymers with Direct and Inverse MW/CC RelationshipsKhayanying K., Anantawaraskul S.2020Macromolecular Symposia,
    390(1), 1900024    		3
    52Estimation of ethylene/1-butene copolymerization conditions using the autoencoder modelAmnuaykijvanit O., Anantawaraskul S., Rakthanmanon T.2022Journal of Physics: Conference Series,
    2175(1), 012028    		3
    53Deconvolution of Microstructural Distributions of Ethylene/1-Butene Copolymer Blends using Artificial Neural NetworkPiriyakulkit P., Anantawaraskul S.2022Chiang Mai Journal of Science,
    49(1 Special Issue 1), pp. 217-222    		2
    54Cocrystallization of Polyethylene Blends during TREF–GPC Cross-Fractionation CharacterizationPiriyakulkit P., Kanoknukulchai K., Potisatityuenyong A., Anantawaraskul S.2022Macromolecular Chemistry and Physics,
    2200200    		2
    55Influence of the longest ethylene and isotactic propylene sequences on crystallization elution fractionation of ethylene/propylene copolymersVoraruth V., Anantawaraskul S., Mehdiabadi S., Soares J.B.P.2023Canadian Journal of Chemical Engineering2
    56Mathematical Modeling of Multiple Crystallization Elution Fractionation (m-CEF) of Polyethylene and Ethylene/1-Olefin CopolymerBuncharoen P., Anantawaraskul S., Chokputtanawuttilerd N.2015Macromolecular Symposia,
    356(1), pp. 45-53    		2
    57Identification of Site Types for Ethylene/1-Olefin Copolymerization in Two-Reactor System Using Simultaneous Deconvolution of Molecular Weight and Chemical Composition DistributionChayrattanaroj T., Anantawaraskul S.2020Macromolecular Symposia,
    390(1), 1900023    		1
    58Characterization of chemical composition distribution of ethylene-propylene-diene terpolymers by room temperature liquid adsorption chromatography and comparison to statistical approachDeshmukh S., Sirithong W., Macko T., Arndt J.H., Bernardo R., Niessen S., Anantawaraskul S., Brüll R.2023Polymer,
    285, 126351    		1
    59Using Probability Models to Design the Microstructure of Linear Olefin Block CopolymersChayrattanaroj T., Anantawaraskul S., Soares J.B.P.2024Macromolecules1
    60Monte Carlo Simulation of Crystalline Morphology Under Temperature Gradient: A Case Study of Syndiotactic PolypropyleneTeangtae T., Sooksod T., Anantawaraskul S.2018Macromolecular Symposia,
    377(1), 1700041    		0
    61Effect of chain microstructure and cooling rate on crystaf calibration curves: An experimental studySomnukguande P., Anantawaraskul S., Soares J.2012Macromolecular Symposia,
    312(1), pp. 191-196    		0
    62On the size and g-factor of uniform star polymers in a dilute solution: A monte carlo simulationAnantawaraskul S., Kitthitanesuan N.2009Kasetsart Journal - Natural Science,
    43(1), pp. 198-204    		0