Engineering-Research-Activity2016｜SHINSHU UNIV.

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After GraduationTakamuraLabGlobalwarmingisaveryseriousproblemintheworldtoday.By2010,theamountofCO2emissionsfromtheresidentialsectorhadincreasedby35.5%fromthestandardsetatthefirstyearoftheKyotoProtocol.Therefore,itisurgentthatwereduceCO2emissionsfromenergyconsumptionintheresidentialsector.Inourlaboratory,wecalculatetheamountofactualCO2emissionsandtherateofenergyconsumptionintheresidentialsectorbymeasuringtheamountofenergyconsumption(electricityandgas)andtheamountofelectricitygeneratedfromfuelcellco-generationsystems(ENEFARM)andphotovoltaicpowergenerationsystems.Inaddition,weinvestigatetheefficiencyofhousingequipmenttoreduceCO2emissionsbymeasuringtheamountofenergyconsumedinhousingequipmentsuchashotwatersupplysystems.Thesystemefficiencyofhousingequipmentvariessignificantlydependingontheclimateandtheusers.WeanalyzeactualdatafromhomesinverycoldNaganoprefecturetotryandreduceCO2emissionsandsaveenergywhilekeepingthehomescomfortable.Additionally,wecanusethisinformationtoeducateresidentshowtousetheirequipmentmoreefficiently.Hideki TakamuraAssociate Professor (since 2010)Through Kaneka Co., Ltd., ShinshuUniversity -faculty of engineering as an assistant professorThe main theme of research is the reduction of LC CO2 (Life-cycle CO2: the total CO2emissions of ahome measured from construction to demolition) in residential house.The Most Efficient Home Heating and Cooling Equipment that Significantly Reduces CO2Emissions Equipment to measure the amount of electric consumption and electricity generated from fuel cell co-generation systems and photovoltaic power generation systems.Ourstudentsareexpectedtogaintheknowledgeinarchitectural-environmentalengineeringandbuildingequipment,butwealsoencouragestudentstothinkandactforthemselves.Manystudentsaftergraduationareworkingatconstructioncompaniesandhousingequipmentproductioncompanies,etc.Residential fuel cell co-generation system which supplies electricity and hot water.Appearance of the sensors which measure the system’s efficiency.ArchitectureIn the FutureYanaseLabWebuildhouses,largestructuresandcities.Differentfromanyotheranimals,humansarecapableofchangingtheenvironmentdramatically.TheresultsofEnvironmentalpsychologystudiesnotonlyhelponimprovingtheenvironmentofthehumankindbutalsoprovidecriticaldatafordesigners,plannersandarchitects.Mylabisdoingthestudyonspacecognition,personalspace,territory,crowdingandbehaviorfortherealizationofbetterhumanasspacedesign.Almostallofourstudiestargetatpublicspace,andthestudysubjectsrangefromyoungchildrentoseniorcitizens.Amongouractivities,therearehighdemandsfortheattitudeandbehaviortohaveaninterestinthehumanenvironmentaswellasthephysicalenvironment.Therefore,makingextraeffortstounderstandabouttheprocessofsensation,perception,andcognitionisveryimportant.Weneedtokeepthinkingdeeplyaboutthehumanenvironment,andprovidetheprimaryreferencematerialstoimprovepersonalandpublicspace.RyotaYanaseAssociate professorSchool of Human Sciences, WasedaUniv. Ph.D. (Human Science) (2001), Environmental Psychology, Cognitive Psychology.The existence of person have an influence on another in the room, and that degree vary with a partition(sho-ji). Thinking Deeply aboutthe Human EnvironmentAlmost all of our studies target at public space, and the study subjects range from young children to senior citizens.Studentsoftengothiredbyconstructioncompanies,constructionequipmentmanufacturers,housingindustries,architecturaldesignconsultingcompany,governmentrelatedofficesandsoon…Theexperiencesgainedfromthinkingwithinterdisciplinaryknowledgearegoingtobeusefulinsolvingproblemsatthevariousfields.ArchitectureIn the FutureAfter Graduation37

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