Enrique Angulo PORTFOLIO 2011 -2022
ACTIVE CACTI SKIN Academic Work 2021 4-AIR SCRAPER Academic Work 2020 ARTE MAR Bachelor Thesis 2015 RETROFIT BEND ADDITIVE Master Thesis 2022 ACADEMIA
FABRICA DE LA CULTURA ETH Zurich& Universidad del Norte 2016 PASO -CAMINO Area 5 Arquitectura 2016 DELAVISTA PFV & Cia. Ltda. 2015 BMU FAÇADE C.F. 2021MøllerArchitects WORK
ACTIVE CACTI SKIN Solution climatezonesconditions.respondstothedifferentchangingharsharidarchitecturalenvelopethatpassivelyTheACTIVECACTISKINproposalisan bend.ratesofthermalexpansionbetweenthetwomaterialscausetprogrammingtextilepiecesbyprintingcrystallinepolymewithoutdaylighttoincreasetocollectmoistfromair.Thesthesuntogenerateself-shadingandreducesunexposure,anThedesignprocesswasbasedontwoaspects:contractionoftheaffectedareabydflattenoftheareasystemconsistsofrsonthem,thedifferentheactivematerialto Description therequiredshading.achievethedesireddeformation,matchingTheresultwastheactivematerialpatterntowrinkleconfigurationsandscaleswerestudied.UsingGrasshopper'sLadybugtools,different Method MasterStudies|3ContextualFaçadeDesign rd Semester Dubai,UnitedArabEmirates2021 “Living within alive envelopes”
FlatshapeActuatedshapeFDM 3DprintingCrystallinepolymersTextile Iteration Form Development
AVG. ILUMINANCE 12 PM 2469luxAVG.ILUMINANCE 12 PM 1505AVG.luxILUMINANCE 12 PM 774 lux Self-shading+Solarradiation+IlluminanceAnalysis(Grasshopper-Ladybug) JAN AVG.10HOURLY INCIDENT RADIATION < 3 kWh/m2 336 m2 = 67% JAN 10 –9 AM SHADE SURFACE AREA 329 m2 = 68% JAN 10 –4 PM SHADE SURFACE AREA 363 m2 = 75% JAN AVG.10HOURLY INCIDENT RADIATION < 3 kWh/m2 269 m2 = 50% JAN 10 –9 AM SHADE SURFACE AREA 0 m2 = 0% JAN 10 –4 PM SHADE SURFACE AREA 0 m2 = 0% JAN AVG.10HOURLY INCIDENT RADIATION < 3 kWh/m2 496 m2 = 71% JAN 10 –9 AM SHADE SURFACE AREA 467 m2 = 73% JAN 10 –4 PM SHADE SURFACE AREA 524 m2 = 82% Solar radiation + self-shading Reducing the size of wrinkles increases the surface exposed to radiation below 3 kWh/m2 and under shade (4% increase) during the day. Illuminance -daylight Reducing the size of the wrinkles decreases the amount of lighting within the internal space, serving as sun screen
Organic Facade ShapeFacade with VoidsExtrusions Paradigms of adaptability ActuatedShape(Sunnydays)Initial k days)
Fixing to aluminium tube from corners for one side . Fixing to aluminium tube in the middle for two sides. Tile's 350mmRC100mm20mmfinishmortargravelslab 105x50mm FWS50 Mullion stick system Facid65 –Flexible façade. Triple glazing High reflectance transmittanceLow TPU fog catching mesh, is fixed from all the side allowing only forth and back movement by using highly expansible and flexible TBUMullion104x50mmdetailSpandrelmeshareaFWS50sticksystemAluminiumextrusion Mesh doubleFACIDframe65sideFogcatcherdripedgeandcollectiongutterskintoPVCcollectiontheAttachingwaterpipethefirst PVC Collection pipe connecting to water tank storage windowsOperable Fog catcher drip edge andskinbetweenbracketConnectingguttercollectionandrodtwopipedetailBottominrelationandtank Vertical section detailing Triple glazing inner skin TPU meshcatchingfog TPU fog catching mesh Mesh frame FACID 65 double side Triple glazing inner skin Horizontal plan detailing 105x50BoltsBracketmullionandnuts plateConnector FACID 65 single Aluminiumside connector Aluminium tube facid Section detail Façade system + slab joint TPU CatchingFog Mesh Curtain Wall StickMeshSystemStructureViewextrusionsAluminiumFacid65frames
Grey water for toilets and garden irrigation Fog waterharvestedtank systemBiosandfiltrationWatercollected from fog Textile net captures fog particles that falls as drops Fog skinandConnectingcollectioncatchergutterbracketrodbetweentwo Sloped edges direct rainwater into the tanks Native plants survive with minimal maintenance SeparationStandingReservoirwaterBiolayerFiltrationSandgravelDrainagegravel
4-AIR SCRAPER Solution ofthefuture.structurethatrethinkstheurbandevelopmentspeculativeandprovocativeorganicTheproposalfor4-AIRSCRAPERisa theconceptsofCompactCityandParasiteArchitecture,thesmog-eatingsystembasedonphotoautotrophicorganisms.Sbuildings,whichwouldallowtofightagainstpollution.FiTheinterventionwasconceivedasanew"urbantowns"overthecurrentstructureofrst,byusinganintegratedecondly,combiningaimistocurburbansprawlthatincreasesmobility,largelyresponsibleforNO2emissions. Description architecturalspaces.structure,torethinkthegenerationofvoxelizationalgorithms,basedonoctreeinvestigatedtheimplicationofrecursiveandWiththehelpofGrasshopper/Rhinotheproject Method MasterStudies|2FutureSustainableDensification nd Semester Stuttgart,Germany2020 “Breath the future city life”
Greenrooflandscape Carbonscrubbertowers Meshcloud Livingunits Form Development
Axonometry street view Interior of the 4-Air structure Axonometry street view
nodePlug-inAPlug-innodeAnodePlug-innodePlug-inBB
3D printing in mid-air structural plastic strings to anchor the spatial mesh to the structure of carbon scrubber towers
Carbon scrubber towers
Structural plastic pieces are 3D printed, assembled to form a tower section, transported and connected to the structure on-site by drones.
Ramped PET concrete slabs as vertical circulation Primary fused deposited mesh made of fiberglass reinforced plastic Final deposited TiO2 Horizontalskin PET concrete slabs as connectionsneighborhoods Climbing limbs with suctionvacuumsystemmodelingdepositionFused 3D printing robots (3D-PR) concept 1. 3D-PR set in the void spaces in the bridges between columns. 2. 3D-PR pneumaticinflatestructures to weave the fiber glass based mesh. 3. 3D-PR weave the mesh with fiberglass and structural plastic leaving the openings for the EcoPod. 4. The rigid.andstructurespneumaticisdismantlethemeshget Section detail (inside the living cluster) Connection slabs-mesh -fiberglass reinforced plastic biopolymer strings working as tension cables
EcoPod3D printed casing Inner finish frame out of plasticrecycled Recycled PVC frame holding double glass vacuum glass Recycled PVC Algae bioreactor pane frame Algae bioreactor pipes incorporated into pane frame 6mm insulatingvacuumcurvedglasswithLow-Ecoating tankBiomasstankBiogas Fresh Air 20 mm Polishing & spraying white recycled acrylic50mmlayerRecycled plastic 3d printed25mmlayerTransparent Plastic bioreactor algae pipes 8 mm double vacuumed insulating curved glass 160mm Recycled plastic Fibre insulation Recycled plastic ecopod façade frame attached by screw to the main structure Joint Window + Algae System with EcoPodcasing detail EcoPodVertical Section Detail
Solution buildingisimplanted.whereanewFundaciónPuertoColombiatheurbanpatternofthehistoricalcenterTheproposalforARTEMARisinterventionof 3.Shadedareas.throughcrossventilation,2.Forcollectingsolarenergyacombinesvarioustechniquesforadaptingtohightemperatuheartofthisnewurbanpiece,asustainablebuildingwasprobeachtoplacealinearparkthatintegrateswiththemangrovTheinterventionwasbasedontherecoveryoftheurbanblocksfacingtheereserve.Attheposedthatres:1.Coolingndrainwateronroofs, Description designofthefacadewasoptimized.addition,withthefixtureofwindsimulationthetothedesignofthestructureandMEPsystems.Inaspectsofthebuilding,fromitsspatialdistributionBIMtoolswereusedtocomprehensivelydesignall Method PuertoColombia,Colombia2015BachelorStudies|ThesisMunicipalCenterofArtandCulture ARTE MAR “Art on the seashores”
OpencourtyardU-shape Protectiveroof BreathingOpeningsSinuousshapeViews Form Development
Linear Pier Park | Master Plan
Dance Studio CoveredWalkway InternalCourtyard CoveredWalkway Art Workshop SchoolLocal ARTEMAR year/m2/kWh SchoolLocal ARTEMAR ofdrinkableConsume water
Legend SecondFloorFirstFloorGroundFloor13.Securityroom12.Stoneworkshop11.Lobby10.Garbageroom9.Bathrooms8.Kitchen/Cafeteria7.ExhibitionandGallery6.Store5.Lobby4.Offices3.Reception2.Utilityrooms1.Electricroom Plans anddrawings Parking–Plaza Theparkinglotsarelocatedunderaplazathatservesasalinkbetweentheresidentialurbanareaandthebeacharea.
RETROFITBENDADDITIVE Solution changes.accordinglytotheambienttemperaturefeatures,allowingtheirshapetochangeaddingself-sensoringandself-actuationproposesaprocesstoretrofitmaterialsbyTheresearchRETROFITBENDADDITIVE designpotentialasapassiveresponsivesystem.transformationdemonstratorthatexploresthefashion.Andsecondly,toproducea“control”overthebehaviorinaprogrammableThegoalwastoestablishadigitaltoolthatallows Description Demonstrator.integratedprocess:Physicaltesting,Digitaltesting,Gedesigntool.TheresearchwasstructuredinfourthemesintewithRhino/Grasshopper,combiningdeformationanalysiswinteractionofthesetwobodieswassimulatedusingKangarotypologiesofpatternsdepositedinmaterials.TheperformTheresearchmethodwasbasedonatestframework,whosestudieddifferentanceoftheophysicstogetherithinthedevelopedrtwinedinannerativedesign,and Method Mentor:MasterStudies|Thesis|2022Shape-morphingSystems “Materiality through computation” • Arch. Hans Sachs • Arch. Manuel Kretzer
Two-way transformationRetrofit process Iteration Fixedstimulusshapeoff Temporallyshapestimuluson +°C-°C Form-finding Patterndesign Additiveretrofitting Modularclustering
WFU paper + LDPE Stimulus OFF WFU paper + LDPE Stimulus ON Exploded axonometric|structure Exploded axonometric|module waffleCardboardgrid AnchormaterialRetrofittedstringCardboardframe
Target anchor-based deformation Highest local point + equidistant lines Bend additive-based deformation ShapeCombinationmatching of lines Evolutionary solver
Solution traditionofBarranquillahometothedistrictschoolofartsanpopularschoolandworkspacethatwillgiveanewTheproposedfortheFabricadeCultura,a theEDA(EscuelaDistritaldeArteyTradicionesPopulares)interactionsofthedifferentsArtisticexpresionsfortheExpressions.2-CreateanewBuildingthatallowstheproducthecity’sneglectedhistoricalcore,intoaGalleryfortheTheprojecthavetwopunctualinterventions:1-transformationaoldbuildinginCarnavalArtistictionsandcityandbringhometo Description format.elevationsanddetailsinbothCADandBIMmodelingoftheentirearchitecturalplan,section,inadditionmytaskwasthedrawingandIworkedonthedesignofsustainabilitystrategies, Method Barranquilla,ColombiaFull-time|2016ETHZurich&UniversidaddelNorteSchoolofArtandCulture FABRICA DE LA CULTURA The drawings and images presented were develop by me during the period of work with ETH Zurich & Universidad del Norte. “A space for the culture”
thedevelopmenthelptoinformthenewlydevelopingGreenBuengineeringandtherebylimitingclimate-controlenergycRespondingtothecity’stropicalconditions,thedesigncallsformuchofthebuildingtobeleftopen,relyingonthepassiveandintegratedonsumptionandexpensestoarelativelysmallportionofthestructure.Indoingso,ildingCodeforColombia.
LeadershipthroughSustainability
Legend Groundfloorplanwithexistingbuilding“Coltabaco”GroundFloor-Level-0.0813.Securityroom12.Stoneworkshop11.Lobby10.Garbageroom9.Bathrooms8.Kitchen/Cafeteria7.ExhibitionandGallery6.Store5.Lobby4.Offices3.Reception2.Utilityrooms1.ElectricroomBirdviewofinterventioninrelationshipwiththecontext
TransverseSection3-3’
Doorsand metal carpentrydetaildrawings
Floorsdetaildrawings
Solution ofBarranquilla.theinfrastructureofthepublichealthnetworkseriesofhealthcarecentersthatwillimproveTheproposalforthePASO-CAMINOisa Theprojecthavetwopunctualinterventions:1-Creationof sharedarchitecturalidentitytothepublichealthcarenetsystems.2-DesignanewFacadeandlandscapeinterventiontdevelopmentoftheprojectinBIMtobeusefortheclashsimultheplanning,andationofMEPosetanewworkofBarranquilla. Description systems.distributiontothedesignofthestructureandMEPdesignallaspectsofthebuilding,fromitsspatialCADandBIMtoolswereusedtocomprehensively Method Barranquilla,ColombiaFull-time|2016Area5ArquitecturaHealthcareandHospital The drawings and images presented were develop by me during the period of work with Area 5 Arquitectura. PASO-CAMINO “Healing within everyone's reach”
SouthElevationLongitudinalSection
PASO (Timely Health Care Point): 1. El Ferry 1er Mayo, 2. La Pradera, 3. Galan, 4.Olivos | CAMINO (Timely Comprehensive Medical Care Center): 5. Ciudadela20 de Julio, 6. Nazareth, 7. Neurociencias, 8. Nuevo Barranquilla 1 2 3 4 5 6 7 8 MEP modeling in BIM for clash detention simulations Reduces:Planning/mistakesDocument Execution/Constructioncost Project time
Solution city.locatedintheareaofTheDelavistaisahousingbuildingprojectgreatestvalueinthe thetopographyisselectedandthenumberofparkingspacesrtheviewsandimprovetherelationshipofthebuildingwithtthestaggeredbuildingwithmanyterraceswasdesignedtotaTheProjectislocatedinthesurroundingsofthelargestparkinPanamaCity,sokeadvantageofhepark.Inaddition,equiredwasoneofthemostrelevantissuesoftheproject. Description coordinationfortheconstruction.inchargeofthedesignofthedetailsandtheirtothedesignofthestructure.Additionally,Iwasallaspectsofthebuilding,fromitsspatiallayoutCADtoolswereusedtocomprehensivelydesign Method PanamaCity,PanamaFull-time|2015PFV&Cia.Ltda.ResidentialBuilding The drawings and images presented were develop by me during the period of work with PFV & Cia. Ltda. DELAVISTA “Live with the gaze in nature”
higherlevels.theycanbeusedforparkingwhilevehiclescanreachWedevisedtheparkingconceptasslopingslabssothatduetotheharshconditionsofthetopography.necessaryparkingcapacitywasamajorproblemtosolveTheaccessrampsforvehiclesandtheadequacyofthe SectionDetailFaçade SectionDetailParking
Detailofrailingjoint Detailofstairtread Detailofshowerfloor Detailofkitchenfurniture
Solution basedfacadegenerator.wasthedevelopmentofasolarradiationTheproposesolutionforBMUFAÇADE Grasshopper.werereadandplacedinRhinoandunifiedunitscreatedasnativeRevitobjectsRhino/GrasshopperinsideRevit.Inthisway,UsingRhinoInsideitwaspossibletorun Description placedtotheircorrespondingcategory.analysis,sortthemaccordingtosolarradiationcategoriethatsubdividedthefacesofthefaçadeandbasedonLadybug'ThisprocessrequiredteamcoordinationtocreatedifferentcategoriesofparametricelementsinRevit,definedbytheamountofglazing.Secondly,aGrasshopperscriptssolarradiations.Finallythemoduleswere Method Berlin,GermanyFull-time|2021C.F.MøllerArchitectsFaçadeGenerator The drawings and images presented were develop by me during the period of work with C.F. MøllerArchitects . BMU FAÇADE “Generative design for BIM”
• Thefaçadeismadeupofprefabricatedblocks,withdifferentlevelsofglazingandarrangementofthesubcomponents.
RevitRhinoceros
• ThesolarstudywascarriedoutusingLadybug/Grasshopperonthesubdividedshape.
• Theyweredevelopedaswall-basedwindowfamilies,forfurtherworkswithinRevit.
• Threecolorcategorieswereusedtoclassifythefaçadeblocks(Orange:lowglazing,Yellow:mediumglazing,Green:highglazing)
enrique.av2009@gmail.com(+49)1778506173instagram.com/ea.architektur/linkedin.com/in/ea-architektur/