Sustainable  Building  Entrepreneurship    

   En   fecha  13  de  octubre  de  2014,   a   las   11:00  horas   se   reúne  el   Jurado  de   la   convocatoria   Sustainable  Building  Entrepreneurship.      PRIMERO  La  Composición    completa  nominal  del  Jurado  es  la  siguiente:    Cristina  Castells,  Directora  d’autosuficiència  energètica,  Habitat  Urbà,  Ajuntament  de  Barcelona.  Jaume  Domènech,  Director  de  Beyond  Building  Barcelona  Bruno  Sauer,  Director  técnico  de  Green  Building  Council-­‐  España.    Actúa  como  secretario  del  Jurado    Eulàlia  Figuerola  Ferrer,  miembro  de  GBCe.    Observadores    Asisten   como   observadores   Anna   Vilalta,   Gestora   de   continguts   ,Unitat   de   Negoci   Sostenibilitat   i  Infraestructura   de   Fira   Barcelona,   Margarita   Gilabert,   Tècnica   de   projectes   Direcció   Operativa   de  Promoció  Sectors  Estratègics  de  Barcelona  Activa  y  Isabel  Montals  Tècnica  atenció  a  l'empresa  Direcció  Operativa  d'Empresa  de  Barcelona  Activa    SEGUNDO.    La  convocatoria  recibió  en  primera  fase  un  total  de  54  propuestas,  de  las  cuales  pasaron  a  una  segunda  fase  un  total  de  21.  Finalmente,  en  la  fecha  máxima  de  presentación  de  estas  se  han  recibido  un  total  de  20  propuestas  que  se  han  valorado  por  el  jurado.    La  lista  completa  de  propuestas  recibidas  por  orden  de  inscripción  es  la  siguiente:    

• ID  7   4EClima  Desarrollo  • ID  8   Monica  Masdevall  • ID  11   Epic  Power  Converters  S.L.  • ID  13   Iomando  Technologies  S.L.  • ID  16   LITA  • ID  17   Evotecnia  Solutions  S.L.  • ID  18   Josep  Guàrdia  Riera  • ID  22   Biotechnological  Process  on  Cellulose  S.L.  • ID  24   Playstands  S.L.  • ID  31   Casa  S_Low  • ID  32   MMArquitectura  • ID  33   Be  Nibug  S.L.  • ID  34   Rawlemon  L.T.D.  • ID  37   Urban  Green  Design  S.L.  • ID  44   Barcelona  Cladding  Company  S.L.  • ID  47   Sergi  Lopez-­‐Grado  Padreny  Arch.  • ID  48   Universitat   Politècnica   de   Catalunya-­‐Barcelona   TECH.   Research   Group:   Grup   Recerca  

  2014  SGR  1049  

• ID  49   Universitat   Politècnica   de   Catalunya-­‐Barcelona   TECH.   Research   Group:   Grup   Recerca     2014  SGR  1049  

• ID  51   SEED  Cover  • ID  54   Alternative  Energy  Innovations  

 TERCERO    La  valoración  de  las  propuestas  se  realizará  con  el  siguiente  procedimiento:    Se  valoran  los  proyectos  según  los  criterios  establecidos  en  la  convocatoria:    

1-­‐ Integrar  estrategias  de  fomento  de  la  sostenibilidad  en  la  edificación.  2-­‐ El  grado  de  escalabilidad  del  proyecto.    3-­‐ Innovación.  4-­‐ Que  sea  un  proyecto  de  emprendimiento.  5-­‐ Propuestas  que  integren  más  de  un  aspecto  ambiental  a  lo  largo  del  ciclo  de  vida  del  material  ,  

proyecto  o  idea;  como  es  ahorro  energético,  la  minimización  del  consumo  de  agua,  la  disminución  de  las  emisiones  (  CO2  y  otros)  ,  etc.  

6-­‐ Aplicación  de  metodologías  de  análisis  de  ciclo  de  vida  y  de  mecanismos  de  estandarización  ambiental  (  eco-­‐etiquetas).  

7-­‐ Impacto  económico  y  social  de  la  candidatura  en  el  mercado  o  en  su  ámbito  de  aplicación.  8-­‐ Viabilidad  y  posibilidad  de  éxito  de  la  candidatura  (  si  son  proyectos  de  productos  o  materiales  

en  vías  de  desarrollo).  9-­‐ Estrategias  de  comunicación  y  sensibilización.    

 Además  se  valora  cada  proyecto  según  las  distintas    categorías  y  modalidades  :      

o Productos   y   materiales:   Rehabilitación,   Innovación   y   diseño,   Sostenibilidad   y   eficiencia  energética  

o Proyectos   de   diseño   de   un   producto   o   proceso:   Rehabilitación,   Innovación   y   diseño,  Sostenibilidad  y  eficiencia  energética  

 CUARTO.    Tras   haber   comentado   y   revisado   todas   las   propuestas   se   han   descartado   en   una   primera   ronda   los  proyectos  con  ID  núm.  8  -­‐13-­‐  16-­‐  17-­‐  24-­‐  32-­‐  37-­‐  44-­‐  47-­‐  49  y  51.  En  una  segunda  ronda  el  jurado  ha  valorado  los  proyectos  restantes  descartando  los  ID  núm.  7-­‐  22  y  48,  concediendo,  finalmente  5  premios  y  2  accésit,  quedando  un  premio  desierto.    Pasamos  a  valorar  primero  los  ACCÉSIT.    CATEGORÍA  DE  PRODUCTOS  Y  MATERIALES    ACCÉSIT  Modalidad  Rehabilitación  a  ID  11-­‐Epic  Power    Al   dar   este   accésit   el   jurado   quiere   dejar   un  mensaje   claro   sobre   el   interés   del   producto   por   que   se  pueda  implementar  en  el  mundo  de  la  rehabilitación,  siendo  la  problemática  del  consumo  energético  de  los   ascensores   un   problema   urgentemente   por   atacar.   Se   apoya   claramente   al   producto   que   ya   esta  presente  en  nuevos  ascensores,  pero  se  quiere  dar  un  empujón  a   los  creadores  para  que  de  él  pueda  salir  un  producto  para  ascensores  existentes.    

CATEGORÍA    PROYECTOS  DE  DISEÑO  DE  UN  PRODUCTO  O  PROCESO.    ACCÉSIT  Modalidad  Sostenibilidad  y  eficiencia  energética  a  ID  31  Casa  S_Low    El  jurado  decide  por  unanimidad  dar  un  accésit  a  esta  propuesta  por  ser  el  proyecto  de  gran  calidad,  con  un  interés  muy  alto  y  aplicación  de  materiales  con  alta  eficiencia  energética  pero  con  una  pequeña  duda  en  la  aplicación  directa  en  el  mercado  actual.  La  consecución  de  los  objetivos  en  este  caso  se  considera  que  se  debe  analizar  con  cuidado,  ya  que  el  mercado  al  que  aspira  le  añade  dificultad  a  la  consecución  de  los  objetivos.      Y  seguidamente  los  PREMIADOS    CATEGORÍA  DE  PRODUCTOS  Y  MATERIALES      PREMIO  Modalidad  Rehabilitación  a  ID  54-­‐  Alternative  Energy  Innovations    (  AEInnova  )    El   jurado   considera   por   unanimidad   que   el   proyecto   tiene   y   es   capaz   de     hacer   un   enfoque   muy  importante  hacia  el  sector  de  la  rehabilitación,  con    gran  capacidad  de  aplicación  a  este  a  gran  escala,  siendo   un   sector   muy   importante   en   nuestro   mercado.   La   tecnología   utilizada   para   la   propuesta   de  recuperación  de  calor  para  convertirlo  en  electricidad  es  totalmente  creíble,  además  de  considerar  que  el  mercado  esta  preparado  para  recibirla  y  aplicarla.        PREMIO  Modalidad  Innovación  y  diseño  a  ID  34-­‐  Rawlemon  L.T.D.    Por  ser  un  producto  que  tecnológicamente  está  en  primera  línea  de  innovación  de  lo  que  es  producción  de  energía.  El   jurado  considera  que  el  punto  débil  de  la  propuesta  es  el  gran  trabajo  aún  por  hacer  de  encontrar   un   primer  mercado   que   les   permita,   en   un   futuro,   expandirse   a   gran   escala   pero   también  considera  que  sería  injusto  quitarle  valor  como  producto  innovador.      PREMIO   Modalidad   Sostenibilidad   y   eficiencia   energética   a     ID   22   Biotechnological   Process   on  Cellulose  S.L.  (  BIPROCEL  )    Por  la  demostrada  aplicabilidad  del  producto  en  distintos  proyectos.  El  jurado  considera  más  interesante  premiar  a  la  materia  prima  y  no  tanto  a  las  aplicaciones.  Premio  al  proceso  de  recuperar  un  material  con  un  valor  muy  alto  en    nuestro  entorno  natural,  como  es  el   papel,   para   su   utilización   para   la   construcción,   con   un   valor   añadido   que   es   la   dificultad   del  cumplimiento  de  la  normativa  actual.        CATEGORÍA    PROYECTOS  DE  DISEÑO  DE  UN  PRODUCTO  O  PROCESO.      PREMIO  Modalidad  Rehabilitación.    El  premio  queda  desierto  por  no  cumplir  ninguno  de  los  candidatos  los  requisitos  esperados.    

 PREMIO  Modalidad  Innovación  y  diseño  a  ID  33  Be  Nibug  S.L    Por  su   innovación  al  ser  capaz  de  dar   la  vuelta  al  sistema  clásico  del   funcionamiento  del  mundo  de   la  construcción   con   la   introducción   de   los   aspectos   sociales,   de   participación   y   de   escala   global,  promoviendo  un  proceso  cíclico,  no  lineal.    El   jurado   considera   que   realmente   es   una   innovación   a   la   manera   de   pensar   en   el   mundo   de   la  construcción.  Esta  lejos  de  todo  lo  que  es  la  implantación  en  el  mercado  pero  se  valora  de  manera  muy  positiva  el  pensamiento  innovador  y  se  anima  a  que  sigan  en  este  camino.      PREMIO  Modalidad  Sostenibilidad  y  eficiencia  energética  a  ID  18  Josep  Guàrdia  Riera  (  Ca2d  )    El  jurado  lo  clasifica  dentro  de  la  categoría  de  procesos,  aunque  se  podría  pensar  que  es  un  producto.  Se  considera  que  es  un  proceso  ya  que  la  innovación  no  es  considerada  en  tanto  en  los  materiales  sino  en  la  manera  de  Construir.  Por  la  elección  de  materiales,  por  su  alta  eficiencia  energética  y  por  su  fácil  implementación  en  mercado  actual   que   se   ha   visto   como   un   valor   añadido   a   la   propuesta   el   jurado   a   optado   por   premiar   a   esta  propuesta.      Siendo  las  13:30  horas  del  Lunes  13  de  Octubre  de  2014  se  levanta  la  sesión.    

 Cristina  Castells  

Directora  d’autosuficiència  energètica,  Habitat  Urbà,  Ajuntament  de  Barcelona.  

 Jaume  Domènech  

Director  de  Beyond  Building  Barcelona  

   

Bruno  Sauer  Director  técnico  de  GBCe  

SUSTAINABLE BUILDING ENTREPRENEURSHIP OCTOBER 2014PROPOSAL:

FORM+ Research Group 2014 SGR 1049 Elena Fernández Salas-Doctor Architect+Pep Zazurca Codolá-ArchitectCATEGORY: BUILDING PRODUCT FROM RECYCLED MATERIAL - INNOVATION IN TECHNOLOGY AND DESING PERMANENT FORMWORK SYSTEM FOR BIDIRECCIONAL SLAB REQUIRING A FIRE RESISTENCE EI-120

BIPROCEL APPLICATIONS IN SUSTAINABLE BUILDING CONSTRUCTION TEAM:

Problematical: The need to define sectors to control fire in buildings requires the structural elements possessing a fire stability EI-120. The vertical structure usually complies because it is rarely seen, which does not happen in horizontal ones: • Lightenedslabshiddenbytheceiling,rarelyitsundersideisplastered.Ceilingcovering,fartoprotect,enablesatechnicalspace for the passage of the facilities that promotes flame propagation of fire, which favours even more the structure exposure to fire.• Lightenedslabsleavinginview,especiallywhenitspositiondefinestheboundarybetweenfiresectors-aboveandbelowground and this last level with parking use. it is necessary placed on their underside a layer of protection (vermiculite or the like) or replacement of the lightened slab by a solid structural slab (impacting the budget of the work and the weight of the structure).To protect them, there are 2 possibilities:1. The projection of vermiculite or similar material on their underside2. Replacing lightened slabs by solid slabs, something that enhances the weight of the structure.Both solutions increase the budget of the work. On this basis, we consider appropriate to offer solutions that will lighten the weight of the structure and provide fire stability through news materials obtained through an efficient, sustainable and economic processes.Opportunity: The following proposal takes advantage of the physical and mechanical properties that offer recycled materials obtained from recycled cellulose fibrers, based on the following reasons:• Recycledmaterialfromrenewablesources.• Lowcostofproduction.• Possibilityofindustrializationwithaffordableandscalabletechnologies,therefore• Lowenvironmentalimpact.• ThecrudematerialisM1,butcanreachEI120usingadditivesthroughtheproductionphase.To these technical features, should be added its formal possibilities. The moldability of this material enables diverse formal solutions for the bottom slab surface.Proposal:The innovation is a formworking system, consisting in assembling on-site on three Biprocel castings above Alsina continuous formwork. The resulting assembly is incorporated into slab section after the setting of concrete, fact that, without contributing to its carrying capacity, promotes: lightening its weight and increased the structure stability to fire, hitting an EI-120 or higher.This proposal is made in conjunction with Biprocel, company that has developed a biotechnological, not pollutan process, in which is obtained a final material with interesting properties. There is no need to select the residue used as raw material, it is only necessary to fit the biotechnological parameters of the process. It is even possible to use the theoretically unrepulpable residue of paper as raw material and that allows to take advantage of the whole residue including inks, fillers and glues to obtain 1 Kg of inal material from 1 Kg of residue. All water used in the process is 100% recyclable.System DescriptionA.- Primary Elements: The proposed system consists of the following primary components:1.- Motherboard formwork. Special piece in 2D dimensions that solves the solid parts of the slab, required from structural calculations and therefore do not support the lightening of his section. Is used as solid base side in lateral clamps, embedded beams or abacuses.The plates are 20 mm thick and have grooved on its inner surface to improve adhesion with concrete. The dimensions of this plate can be adapted to the modulation system.2.- Lower Element in “U” shaped. His disposition onto the formwork facilitates and ensures the drawing of the slab geometry. Their specific cast serves two purposes: • Initsouterface:protectthebottomoftheribsofthefire.• initsinnerface:tofacilitatethedispositionofthesupportingelementsofthereinforcingsteel.Modulation and form of the lower parts of the lightened zone varies according their incorporation into unidirectional or bidirectional ribbed slab, as indicated below: a) Linear shaped Piece used in unidirectional slabs: Each bottom piece includes, in its central area, the space for the nerve concrete, which is flanked by two semi “Upper Elements” or caissons. During execution, the assembly of the different upper and lower parts of the lightened area allows to complete geometry system. b) Cross shaped piece used in bidirectional slabs:Each lower piece incorporates four of the nerves that formalize the waffle slab, building a concrete cross, which will be flanked by four quarters of the “Upper Elements” or caissons. During execution, the assembly of the different upper and lower parts of the area lightened allows complete system geometry.3.- Upper Element in square based pyramid trunk (caissons). It is the part responsible for defining the change of the slab section. Its cast intended two objectives: • Lightentheslabintheareafreeofeffort.• Linkthedifferentbottomparts,ensuringthesystemgeometry.In both, unidirectional and bidirectional slabs, each “Upper Element” joins four “Lower Elements”. B.- Secondary Elements: The system is completed with the following child elements, the first two responsible for supporting the placement of reinforcing steel:• Separatorlowerarmors:Linearelementtoseparateandplacetheribsteel• Supportupperarmors:Cylindricalelementtosustaintheelectroweldedsteellathandtheandtensionreinforcementsteel.• ConcretepouredandvibratedonsiteOnce assembled the components system upon the continuous formwork and placed the steel reinforcement estimated in the structural calculation, ones proceeds to pouring the concrete and its subsequent vibrated. .C.- Complementary Elements to the SystemThe proposed system also provides the solution for suspended ceiling and technical floor, through pieces and substructure made from Biprocel. a) Suspended Ceiling:Plaques of 70x70 or 70x140 Biprocell 10 mm thick with three possibilities of finishing: smooth finish, perforated finish and finished in different bass-relief textures. (See more details in proposal panel: 3D interior wall panels for architecture and retail) b)Technical Floor:Biprocel plates 60x60 cm and 20 mm thick.Biprocel truncated cone, topped by strips crosswise to receive four panels of technical floor.

PRIMARY ELEMENTS SYSTEM

1

2

3

5

4

1.-Upper Element in squared base pyramid trunk (caissons). 2.-Lower Element in “U” shape section and cross form. 3.-Interlocking joints between two Lower Ele-ments. 4.-Interlocking joint between Upper Element and four Lower Elements. 5.-Stakeout Lower Element Axis. 6.-Linear element to separate and place the rib steel

LOWER ELEMENT IN “U” SHAPE MONTAGE SCHEME

UPPER ELEMENT MONTAGE SCHEME

1

2

ASSEMBLY PROCESS BIDIRECCIONAL SLAB

1

3

5

ASSEMBLE FORMWORK

PLACEMENTUPPER ELEMENT

PLACEMENT SECUNDARY ELEMENTS

PLACEMENT LOWER ELEMENT

PLACEMENT SEPARATOR ARMORS

PLACEMENT COMPLEMENTARY

ELEMENTS

2

4

6

SUSTAINABLE BUILDING ENTREPRENEURSHIP OCTOBER 2014PROPOSAL:

FORM+ Research Group 2014 SGR 1049 Elena Fernández Salas-Doctor Architect+Pep Zazurca Codolá-ArchitectCATEGORY: BUILDING PRODUCT FROM RECYCLED MATERIAL - INNOVATION IN TECHNOLOGY AND DESING PERMANENT FORMWORK SYSTEM FOR UNIDIRECCIONAL SLAB REQUIRING A FIRE RESISTENCE EI-120

BIPROCEL APPLICATIONS IN SUSTAINABLE BUILDING CONSTRUCTION TEAM:

1

2

3

4

5

PRIMARY ELEMENTS SYSTEM

Problematical: The need to define sectors to control fire in buildings requires the structural elements possessing a fire stability EI-120. The vertical structure usually complies because it is rarely seen, which does not happen in horizontal ones: • Lightenedslabshiddenbytheceiling,rarelyitsundersideisplastered.Ceilingcovering,fartoprotect,enablesatechnicalspace for the passage of the facilities that promotes flame propagation of fire, which favours even more the structure exposure to fire.• Lightenedslabsleavinginview,especiallywhenitspositiondefinestheboundarybetweenfiresectors-aboveandbelowground and this last level with parking use. it is necessary placed on their underside a layer of protection (vermiculite or the like) or replacement of the lightened slab by a solid structural slab (impacting the budget of the work and the weight of the structure).To protect them, there are 2 possibilities:1. The projection of vermiculite or similar material on their underside2. Replacing lightened slabs by solid slabs, something that enhances the weight of the structure.Both solutions increase the budget of the work. On this basis, we consider appropriate to offer solutions that will lighten the weight of the structure and provide fire stability through news materials obtained through an efficient, sustainable and economic processes.Opportunity: The following proposal takes advantage of the physical and mechanical properties that offer recycled materials obtained from recycled cellulose fibrers, based on the following reasons:• Recycledmaterialfromrenewablesources.• Lowcostofproduction.• Possibilityofindustrializationwithaffordableandscalabletechnologies,therefore• Lowenvironmentalimpact.• ThecrudematerialisM1,butcanreachEI120usingadditivesthroughtheproductionphase.To these technical features, should be added its formal possibilities. The moldability of this material enables diverse formal solutions for the bottom slab surface.Proposal:The innovation is a formworking system, consisting in assembling on-site on three Biprocel castings above Alsina continuous formwork. The resulting assembly is incorporated into slab section after the setting of concrete, fact that, without contributing to its carrying capacity, promotes: lightening its weight and increased the structure stability to fire, hitting an EI-120 or higher.This proposal is made in conjunction with Biprocel, company that has developed a biotechnological, not pollutan process, in which is obtained a final material with interesting properties. There is no need to select the residue used as raw material, it is only necessary to fit the biotechnological parameters of the process. It is even possible to use the theoretically unrepulpable residue of paper as raw material and that allows to take advantage of the whole residue including inks, fillers and glues to obtain 1 Kg of inal material from 1 Kg of residue. All water used in the process is 100% recyclable.System DescriptionA.- Primary Elements: The proposed system consists of the following primary components:1.- Motherboard formwork. Special piece in 2D dimensions that solves the solid parts of the slab, required from structural calculations and therefore do not support the lightening of his section. Is used as solid base side in lateral clamps, embedded beams or abacuses.The plates are 20 mm thick and have grooved on its inner surface to improve adhesion with concrete. The dimensions of this plate can be adapted to the modulation system.2.- Lower Element in “U” shaped. His disposition onto the formwork facilitates and ensures the drawing of the slab geometry. Their specific cast serves two purposes: • Initsouterface:protectthebottomoftheribsofthefire.• initsinnerface:tofacilitatethedispositionofthesupportingelementsofthereinforcingsteel.Modulation and form of the lower parts of the lightened zone varies according their incorporation into unidirectional or bidirectional ribbed slab, as indicated below: a) Linear shaped Piece used in unidirectional slabs: Each bottom piece includes, in its central area, the space for the nerve concrete, which is flanked by two semi “Upper Elements” or caissons. During execution, the assembly of the different upper and lower parts of the lightened area allows to complete geometry system. b) Cross shaped piece used in bidirectional slabs:Each lower piece incorporates four of the nerves that formalize the waffle slab, building a concrete cross, which will be flanked by four quarters of the “Upper Elements” or caissons. During execution, the assembly of the different upper and lower parts of the area lightened allows complete system geometry.3.- Upper Element in square based pyramid trunk (caissons). It is the part responsible for defining the change of the slab section. Its cast intended two objectives: • Lightentheslabintheareafreeofeffort.• Linkthedifferentbottomparts,ensuringthesystemgeometry.In both, unidirectional and bidirectional slabs, each “Upper Element” joins four “Lower Elements”. B.- Secondary Elements: The system is completed with the following child elements, the first two responsible for supporting the placement of reinforcing steel:• Separatorlowerarmors:Linearelementtoseparateandplacetheribsteel• Supportupperarmors:Cylindricalelementtosustaintheelectroweldedsteellathandtheandtensionreinforcementsteel.• ConcretepouredandvibratedonsiteOnce assembled the components system upon the continuous formwork and placed the steel reinforcement estimated in the structural calculation, ones proceeds to pouring the concrete and its subsequent vibrated. .C.- Complementary Elements to the SystemThe proposed system also provides the solution for suspended ceiling and technical floor, through pieces and substructure made from Biprocel. a) Suspended Ceiling:Plaques of 70x70 or 70x140 Biprocell 10 mm thick with three possibilities of finishing: smooth finish, perforated finish and finished in different bass-relief textures. (See more details in proposal panel: 3D interior wall panels for architecture and retail) b)Technical Floor:Biprocel plates 60x60 cm and 20 mm thick.Biprocel truncated cone, topped by strips crosswise to receive four panels of technical floor.

ASSEMBLY PROCESS UNIDIRECCIONAL SLAB

1

3

5

ASSEMBLE FORMWORK

PLACEMENTUPPER ELEMENT

PLACEMENT SECUNDARY ELEMENTS

PLACEMENT LOWER ELEMENT

PLACEMENT SEPARATOR ARMORS

PLACEMENT COMPLEMENTARY

ELEMENTS

2

4

6

1.-Upper Element in squared and vault transversal section. 2.-Lower Linear Element in “U” shape section. 3.-Interlocking joints between two Lower Ele-ments. 4.-Interlocking joint between Upper Element and four Lower Elements. 5.-Stakeout Lower Element Axis. 6.-Linear element to separate and place the rib steel

LOWER ELEMENT IN “U” SHAPE MONTAGE SCHEME

UPPER ELEMENT MONTAGE SCHEME

1

2