Engineering-Research-Activity2016|SHINSHU UNIV.
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NakamuraLabDesigningmachinesandsystemsistheprocessinwhichmanytypesofknowledgeinthefieldsofmaterialproperties,mechanicsofmaterials,environmentalconsciousnessanddesignmethodsaresynthesized.Optimaldesignisessentialforachievinghighefficiencyandperformanceofmachines,savingcosts,andreducingenergyconsumption.Sustainabledesignisneededfortheentireprocessfrommanufacturetousage,disposal,andreuseofmaterialsincludingmaintenances.Inourlaboratory,weareactivelyworkingtodevelopoptimizationtechniques,optimaldesignsforX,andsustainabledesignprocessesinthefieldsofmechanicalengineeringandengineeringoptics.Optimizationtechniqueisatechnologyessentialforutilizingenergyandresourcesefficiently.Andenvironmentally-friendlydesignpromotedallovertheworldandmodel-baseddevelopmentusingultra-high-speedcomputersareessentialforsuchefficientdevelopmentandtheywillalsoconservetheglobalenvironmentandensuresafety.MasayukiNakamuraProfessorResearch filed: Design Eng., Computational Mechanics. Lecture course: Mechanics of Materials, Engineering Optics, Optimum Design Engineering, Renewable Energy Engineering.Robot motion planning, Gear train design, Organic EL structural design, Thin films for solar energy control, Intelligent power network, Community design, LCA, Nonlinear structural analysis, Thermal radiation analysis.“Optimization”for Sustaining the Environment and “Design” for Creating the Future WorldGraduatesareworkingasengineersandresearchers,invariousfields;automobile,generalmachine,informationequipment,constructionmachinery,medicalequipment,electronicsmanufacturer,plantengineering,andcivilservice.About80%ofstudentshavegonetograduateschools.Optimum DesignLabis full of smile and cool ideas !“Optimization for Sustaining the Environment”, “Design Technology for Creating the Future World”.Nonlinear analysisOLED optimum designGears generationPower demandNetworkWind, SolarPower system with renewable energy sourcesBiomassButteryChargeGenerationSolar analysisIn the FutureAfter GraduationEnvironmental Science &TechnologyNishikioriLabWater,air,andsoilpurificationcanbeecologicallyachievedusingforcesofnaturewithoutharmingtheenvironment.Westudysuchpurificationprocessesutilizingnotonlyphotocatalysts,butalsonaturalclaymineralsasadsorbentsduringsolarlightirradiation.Wearealsoapplyingthetechnologyofphotocatalysistodye-sensitizedsolarcellsimitatingphotosynthesismechanismandtophotofuelcellsutilizingorganicwastesinordertocreatealternativeenergy.Itisimportanttodevelopsustainableenergytoestablishanecologicalsociety.Westudyoxidativedegradationofsomepollutantsandwastesandgenerationofelectricityusingthecompositesconsistingofphotocatalystsandnaturalclayminerals.Thistechnologycaninduceeffectiveadsorptionanddegradationoftheorganicsubstancesonthecomposites.Photofuelcellswiththecompositeelectrodescangenerateelectricitywithdisposalofthewastesusingphotocatalyticreaction.HiromasaNishikioriProfessorEnvironmentalPhotochemistry,Photocatalysis.Blue dye in water can be degraded during light irradiation using phototcatalystssuch as titania.Water Purification and Energy Development using forces of NatureElectrodes of dye-sensitized solar cells.Graduatesareworkingactivelyinvariousfields,e.g.environmentalmanagement,waterandairdisposal,andelectronics.Weeducateourstudentssothattheyhavetheirownideastoutilizeforcesofnatureforenvironmentalconservationanddevelopmentofenvironmentally-friendlytechnology.An example of experiment in water purification.In the FutureAfter GraduationEnvironmental Science &Technology61
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