Professional Training Report

Page 1

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Depa r t ment of Ar c hi t ec t ur ea ndPl a nni ng I ndi a nI ns t i t ut eof T ec hnol ogyRoor k ee, I ndi a



Title : Professional Training Report Company : Triar BIM Projects S.L. , Valencia, Spain Principal Architect : Ar. Juan Vicente Poveda Duration : January 2019 to June 2019 (6 months) Semester : 4th year (2nd semester) Programme : AR 402 - Professional Training University : Indian Institute of Technology Roorkee, India





Declaration by the student I, Nirbhay Singh, hereby declare that the presented report of internship is uniquely prepared by me based on my own work carried out during the course of 6 months internship at Triar BIM Projects under the supervision of Ar. Juan Vicente Poveda. I assert the statements made and conclusions drawn are an outcome of my work. I further certify that I. The work has not been submitted to any other Institution for any other degree/diploma/certiďŹ cate in this university or any other University of India or abroad. II. I have followed the guidelines provided by the university in writing the report. III. Whenever I have used materials (data, theoretical analysis, and text) from other sources, I have given due credit to them in the references.

Nirbhay Singh


Initials -Preface (1.02) -Acknowledgements

(1.04)

Introduction

Projects

-Objectives (2.01) -Personal Expectations (2.02) -Journey to the Triar (2.04) -About the ďŹ rm (2.06)

-Gransol Vivenda (3.01 to 3.20) -Baladre Vivenda (3.21 to 3.36) -Evalam WareHouse (3.37 to 3.64) -AUMSA Apartment (3.65 to 3.92) -Eliana House (3.93 to 3.106)


Annexures

Epilogue

Report essentials

-Annexure 01 Details (4.01 to 4.06) -Annexure 02 Visualizations (4.07 to 4.14) -Annexure 03 Presentation board (4.15 to 4.18) -Annexure 04 Competition (4.19 to 4.24)

-Final reection (5.01) -Conclusion (5.02) -What’s next (5.04)

-Spanish Vocabulary (6.02) -List of illustrations (6.04) -References (6.06)


1.01


Preface Yes, I was fascinated by the intricate design and beautiful structure of the Sagrada Familia, Eiffel Tower and many more. But the real reason was not being selected in the institute’s exchange program in my previous semester and my thirst to travel abroad drove my motivation to draft around a thousand emails over 2 months. Well, the path of getting a foreign internship wasn’t easy at all. I faced several language barriers especially in Europe but I was decided and kept on sending emails regularly. Back of mind, I wanted to explore the more technical aspects of architecture (in terms of Virtual Design and Construction) which I couldn’t find in India as here most of the firms are still working as per traditional methods. After several failed attempts a firm willing to hire me based on my previous skills in BIM Modeling which I learned during my previous internships. After rounds of interviews finally, I got selected. With another year of my bachelor degree ahead and I was yet unsure whether to pursue architecture as a profession or not. I chose to travel abroad with this particular question in my mind. If goes right, I will pursue this as a career, If goes wrong, then I will get to travel abroad at least. And here now, I am going to recite my whole six months experience amidst European Architecture. I have expressed my experiences in my own simple way. I hope who goes through it will find it interesting and worth reading. All constructive feedbacks are cordially invited.

1.02


1.03


Acknowledgments I would

like to express my deepest appreciation to all those who provided me the possibility to complete this report. Firstly I would like to thank Juan Vi (CEO and Project Manager - Triar) who has given me the opportunity to flourish in his company. A special gratitude I give to Jaime (BIM manager - Triar BIM Projects), whose contribution with stimulating suggestions and encouragement, helped me to coordinate the projects easily. In spite of having language barriers in the office, he helped me in understanding the work culture and constantly supported me with his valuable comments and advice. Furthermore, I would also like to acknowledge with much appreciation the crucial role of the Juan Pablo, Abel, and Victor who constantly guided me and invested their full effort in achieving the goal. I would like to thank Dr. Gaurav Raheja (Associate Professor and Academic supervisor IIT Roorkee) whose initiative and motivating words stimulated confidence in me to go out and explore the world. A special thanks goes to my roommates in Valencia - Gina, Christiana, Julia and Sergio with whom I felt like I am at home away from home. The big guy Josh, I can never forget him for all the amazing time we had, his always helpful nature and the deep talks we had will be an everlasting influence on me. I never stepped into the kitchen before coming to Valencia and this guy helped me a lot in settling down and being adapted to the western culture. This journey could not have been possible without some constants of my life - my family and friends. I would like to thank my dearest mate Juhi Srivastava for always providing me emotional and moral support whenever I felt home sickness in Spain. Finally, I would like to thank my mother and my family members without their encoragement and constant support I cannot even imagine to reach this far in my career. I am also grateful for having a chance to meet so many wonderful people and professionals who led me through this internship period. I perceive this opportunity as a big milestone in my career development. I will strive to use gained skills and knowledge in the best possible way, and I will continue to work on their improvement, in order to attain desired career objectives. Also, I hope to continue cooperation with all of you in the future.

1.04


Objectives of the internship Finding a resemblance between imagination and reality in architecture The objectives of the internship are to experience working in a professional environment and to use the skills and erudition that I gained during my Bachelor studies as well as through my previous internships. This module intends to introduce an understanding of requisites, activities and management as well as operations in real-life architectural practices. Hence, allow them to gain knowledge and generate awareness of principles and building codes applied to proper architectural drawings as well as dierent activities that occur within an architecture ďŹ rm during the completion of a project. Working in collaboration with professionals from allied domains of architecture (structure, MEP, Landscape, etc) would give me an insight into an architecture industry at the global level. Another important objective for me is to compare the process of designing during the practical work with the theoretical knowledge and the style I am acclimated to working at the university. I was also looking for a smaller company rather than a big one so that I could have more exibility to work in diverse domains of architecture. Moreover, this internship is a part of our academic curriculum and a mandatory requirement for passing the semester.

2.01


Personal expectations June 2018, ¨3 years in architecture and am still insecure about pursuing it as a profession. One year from now I don´t know whether I will get my answer or not but what I have now is these little 6 months to explore the architecture around the world ¨ These were my thoughts when I started applying for my internship. I was expecting to get the experience of how an architectural office works, how a regular day looks like and how is the work and the whole design process structured during the time. I assumed to gain knowledge about how much are the projects influenced by financial situation, collaboration with other professions, local plans and of course by the clients. I also expected to explore the new software programs and also improve my skills in the ones I was currently using. Design of any building is more important but for me, the most important was how the construction of these buildings proceeds in terms of their documentation, 3d models and overall about the virtual construction before the actual construction. Socially related I hoped to build some international connections, and create a new professional network which can be really important for my future career.

2.02


2.03


Journey to the Triar July 2018, Still recovering over the fact that I have not been selected for the semester exchange. With the thirst of traveling abroad and explore the architecture of the world, I spent all my days and night, secluded socially and completed the portfolio by the end of July. I started mailing the firms in August and I was only targeting the renowned Indian firms. A handful of rejections by them urged me to focus more on International firms. I started mailing them sorted by the most popular cities and the most beautiful country to work for. Started with Singapore, Beijing, Dubai, Copenhagen, Italy, Paris and many more. Then one day while I was scrolling the international entries of the competition for the design of Guggenheim museum Helinsky and I randomly selected entry and through that page, I came to know about Triar BIM Projects. Though I was always curious about the evolving technologies in Architecture, I used to look at Zaha Hadid´s or Calatrava´s massive forms and used to think about how the process from concept to actual construction works. So, Exactly what I wanted to know was the virtual construction before actual construction. This urged me to send my CV & Portfolio to this firm. They saw some of my previous experience related to BIM into my CV and after a couple of questions in the interview, they selected me. Though I never stopped mailing even after that but after so many rejections and a handful of positive responses, This was the best firm suited to my profile not only in terms of learning but also an economic point of view. However, the best outcome of doing such exhaustive mailing that now I am cognizant of many international firms and how their recruiting process goes on.

2.04


BIM SERVICES, ARCHITECTURAL DESIGN & VIRTUAL CONSTRUCTION

Office profile Name of the firm : triar || BIM Projects Principal Architect : Ar. Juan Vicente Poveda Address : Carrer dels Tomasos, 17-F, 46006 València, Spain Phone : +34 962 06 68 51 Email : info@triar.es Website : www.triar.es

2.05


About the firm Triar is a multidisciplinary team of the AECO sector that accompanies its clients in the achievement of their objectives, from the project phase to the construction, optimizing and extracting the maximum potential from the resources. As experts in BIM, they resolve the disconnection between the project and the work through Virtual Construction and the implementation of communication protocols, ensuring the success of the process and guaranteeing a quality architecture. The scale of projects varied from a small residences to highrise apartments, from small warehouse to large headquarters and hospitals. The design philosophy The approach to each project arises from a double compromise: the will to give a technical response to a specific context and the desire to find beauty through the built work, pursuing the satisfaction of those involved in its development. Specially of the users, but also of the collaborators, constructors and designers.

ill. 01. Picture with the project team

2.06


ill. 02. OďŹƒce photos 2.07


Ar. Juan Vicente Poveda “necesitamos arquitectos con principios y no con prejuicios; arquitectura para el hombre y no para los arquitectos, arquitectura del espacio y no de la forma, arquitectura del uso y no de la función, arquitectura de la vida y no de la imagen, arquitectura de la reflexión y el proyecto y no de estándares, arquitectura colectiva y no de masas, arquitectura social y no individual, arquitectura sostenible y no consumible, necesitamos Arquitectura…”

“We need architects with principles and not with prejudices; architecture for man and not for architects, architecture of space and not of form, architecture of use and not of function, architecture of life and not of the image, architecture of reflection and project and not standards, collective and non-mass architecture, social architecture and not individual, sustainable and non-consumable architecture, we need Architecture ... "

As a passionate architect, he has participated in the design and execution of large projects, both in the public and private spheres. Scholarship in the Project Department of the ETSAV, he began his research and teaching. Winner of several awards in architectural competitions, he has a great ability to coordinate teams and to solve complex projects from a global perspective; optimizes processes and creates new workflows looking for efficiency. Ar. Juan Vi is practicing architecture from past 9 years and he is very much interested in innovative and emerging technologies in architecture. His prime objective is to deliver the optimum solution for architectural problems utilizing the modern techniques at the same time practicing the philosophy of minimalist architecture.

2.08



Projects

The following sections presents the works related to various projects done by me during tenure of my internship at Triar


GRANSOL Large single family house Gransol, Calpe (Alicante), Spain

CLIENT : Construcciones Fuertes S.L. Representante Francesc Fuertes Lรณpez ARCHITECT : TRIAR BIM Projects - Jaime Perez Dinnibier - Juan Pablo Pellicer Casado - Juan Vicente Poveda Ivars PLOT AREA : 1472.23 sqm STATUS : Under construction (July 2019)

3.01


ill. 03. Gransol house exterior render

3.02


BRIEF There was no as such pre-requsite for the project apart from the spatial requirements as the project was from a developer who will sell this house to buyers from different countries. However while designing we have to keep in mind the view points and accessibility on the site. LOCATION AND ENVIRONMENT The municipality of Calpe is the northernmost of La Marina Alta. It has a heterogeneous orography in such a way that it meets the sea defining coves and cliffs; the most characteristic element of its orography is the Peñón de Ifach. Calpe has a more established urban nucleus and a consolidated fabric of Residential developments in the form of isolated single-family homes

ORIENTATION The house is mainly developed on the ground floor with a marked horizontal component in the longitudinal direction to the plot and oriented towards good solar orientation and views. TOPOGRAPHY The topography is sensibly flat with a slight access ramp to the street

The maximum buildable area of our plot is 479.13 sqm higher than the total buildable area of the project of 415.28 sqm. Building 297.97 m² 20.24% Paved on land 258.96 m² 17.59% Landscaped 817.00 m² 55.49% Pre-existing water sheet 43.86 m² 2.98% Area to be filled 54.44m² 3.70% Total = Plot surface 1,472.23 m² 100.00% The percentage of maximum occupation is 25% higher than the 20.24% occupation of the project in the plot.

Wall Type - List of layers :

1 - Mortar monocapa 1.5 cm 2 - Hollow ceramic brick factory 11 cm 3 - Extruded polystyrene 6 cm 4 - Hollow ceramic brick factory 7 cm 5 - Plastic painting Total thickness: 25.5 cm

Floor Type 1 - List of layers :

1 - Catalan tile flooring 1 cm 2 - Cement mortar 4 cm 3 - 0.08 cm polyester geotextile 4 - Asphaltic waterproofing monolayer adhered 0.36 cm 5 - XPS Expanded with carbon dioxide CO2 [0.034 W / [mK]] 6 cm 6 - Formation of slopes with expanded clay poured dry 10 cm 7 - Unidirectional forging 25 + 5 cm (concrete vault) 30 cm 8 - 12 cm non-ventilated air chamber 9 - False continuous ceiling of plaster plates 1.6 cm 10 - Plastic paint on interior walls of plaster or plaster --Total thickness: 65.04 cm

Floor Type 2 - List of layers :

List of layers: 1 - Glazed stoneware ceramic floor tiles 1 cm 2 - Base of self-leveling cement mortar 4 cm 3 - XPS Expanded with carbon dioxide CO2 [0.034 W / [mK]] 5 cm 4 - Unidirectional forging 25 + 5 cm (concrete vault) 30 cm Total thickness: 40 cm

3.03

ill. 04. Site surroundings MY CONTRIBUTION AND LEARNINGS I was responsible for modelling the project on the autodesk revit and preparing the various construction drawings needed to build the project. Working on the project in co-ordination with the mentor and got the know about various details required to build a project. With this project not only my software skills got improved but also with regular site visits, I came to know how various structures got installed on the site.


M

ill. 05. Administrative plans

3.04


M

3.05


ill. 06. Ground floor plan

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M

3.07


ill. 07. 1st floor plan & Roof plan

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3.09 ill. 08. Elevations and sections


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3.10


3.11

ill. 09. Elevations and sections


Section key plan

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3.12


ill. 10. List of doors and windows

3.13

ill. 11. Panorama of site surroundings


3.14


3.15

ill. 12. Isometric view of house


ill. 13. Site photos

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3.17

ill. 14. Front view of the house


3.18


3.19

ill. 15. Exterior render


3.20


Baladre Large single family house Baladre, Benissa (Alicante), Spain CLIENT : Construcciones Fuertes S.L. Representante Francesc Fuertes Lรณpez ARCHITECT : TRIAR BIM Projects - Jaime Perez Dinnibier - Juan Pablo Pellicer Casado - Juan Vicente Poveda Ivars PLOT AREA : 522 sqm STATUS : Under construction

3.21


ill. 16. Exterior render (Baladre) 3.22


BRIEF There was no as such pre-requsite for the project apart from the spatial requirements as the project was from a developer who will sell this house to buyers from different countries. However while designing we have to keep in mind the view points and accessibility on the site. LOCATION AND ENVIRONMENT The municipality of Calpe is the northernmost of La Marina Alta. It has a heterogeneous orography in such a way that it meets the sea defining coves and cliffs; the most characteristic element of its orography is the Peñón de Ifach. Calpe has a more established urban nucleus and a consolidated fabric of Residential developments in the form of isolated single-family homes Typical Wall Type - List of layers : 1.Partition of 20 cm concrete block wall 2.1.5 cm gypsum plaster in exterior 3. 6 cm air chamber with 6 cm EPS isolation 4. Brick factory walling of 7 cm 3.1.5 cm gypsum plaster Total thickness: 360 cm Typical Floor Type - List of layers : 1. 3 cm Stone ware tile 2. 6 cm Self-leveling mortar 3. 6 cm Polystyrene 4. 27 cm concrete vault Total thickness: 420 cm Climate The climate of Benissa is included within the climate type "Mediterranean subtropical". The average annual temperature is 16.5 º C. The highest monthly temperature is that of the month of August, with 24.4 º C, followed by the month of July with 24.1 º C. The average monthly temperature lowest corresponds to the month of January with 10.6 º C. Due to the proximity to the sea of a large part of the territory of Benissa, temperatures are affected by the sea breeze, which maintains a few degrees lower the temperature of the areas close to the coast than inland. Access The pedestrian access is produced by the Northeast boundary and the road access by the southeast. Access to the interior of the house is made through an exterior staircase saving 0.9m . The vehicles access from the level of the street and are kept at said level in a closed garage for a parking space.

MY CONTRIBUTION AND LEARNINGS This was the 1st project in which I was involved since the beginning of the project. I was involved in taking the design decisions along with the modeling of the project I came to know about some building by-laws and regulations of the locality. The site was very challenging to design and it was my 1st experience in designing something on the contours. Making topography as per the requirements of the project and playing with the levels was the best learning experience for me. 3.23


Acceso rodado

Acceso peatonal Acometida de agua y electricidad

Linea telefónica

Pavimentada sobre terreno 82.04 m² 66.62

Muro de piedra parcela vecina Carrer del Baladre

66.62 Acera

65.48

Jardinera Calzada (vía pública)

66.82

4.00 m.

Señalización Linea telefónica

Ajardinada 125.44 m²

Bomb. calor (aire - aire)

65.48 70.17

Poste de la linea telefónica

65.71

Residuales Oxid. Total o Filtro biológico

Rebosadero

Pavimentada sobre terreno 57.92 m²

64.02

Edificación 131.02 m²

Acceso rodado

64.02

Lamina de agua 31.08 m²

2.95

64.07

64.02

Acera

Depuradora piscina 4.00 m.

Ajardinada 194.42 m²

63.35

61.91 Parcela vecina 2

1

Borde asfalto

Vallado de simple torsión parcela vecina

67.06

4.03

64.12

Emplazamiento y urbanización 1 : 200

The house is located in the upper part of the plot next to the access road, but separated from the boundaries of more than 5 meters approximately. It is developed on two floors, a first floor with pedestrian access to the street of Baladre and a road access from El Roure street to the ground floor. The house opens towards the southwest orientation in search of a suitable sun. The volume is organized in two bodies perpendicularly; the first floor, the highest, corresponds to the day area (living-dining-kitchen), the forged of this part generates the porch of the ground floor. The lower floor of the house will have a direct relationship with the pool.

Carrer del Roure

Ajardinada Calzada (vía pública)

Edificación Lamina de agua Pavimentada sobre terreno

ill. 17. Urbanisation plan In First Floor we access through a hall that will distribute to the night areas: 3 bedrooms, 2 bathrooms and the day area: living room, kitchen. These rooms will have south-southwest views. On the ground floor, the rooms will be distributed below the sleeping area, with garage, storage room, bathroom, bedroom and a living room. that will be related to the porch and the pool. COVER Flat roof of the traditional type with formation of waterproofing slopes Asphaltic sheet and extruded polystyrene insulation. FACADES The enclosures of the building have been resolved by a hollow block factory concrete, non-ventilated insulating chamber of extruded polystyrene and hollow brick, taken with mortar 3.24


3.25

ill. 18. Construction plan


ill. 19. Architectural plan

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3.27


Section key plan

ill. 20. Elevations and sections

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3.29

ill. 21. Elevations and sections


3.30


Topografia existente

1

01

1,00 metros

1 : 200

Topografia existente

2

1,00 metros

02 1 : 200

Topografia existente

3

03

1,00 metros

1 : 200

Topografia existente

4

04

1,00 metros

1 : 200

Topografia existente

5

05 1 : 200

3.31

ill. 22. Site sections


ill. 23. Isometric drawing

3.32


Carpintería abatible RPT de aluminio Lacado blanco mate con Uf=2.90 (W/m²k) Vidrio 4/16/6 Planitherm Ultra N Ug=1.4 (W/m²k) g=0.58

Veneciana CORREDERA Lama horizontal permeable Acero galvanizado lacado blanco

Carpintería abatible RPT de aluminio Lacado blanco mate con Uf=2.90 (W/m²k) Vidrio 4/16/6 Planitherm Ultra N Ug=1.4 (W/m²k) g=0.58

Veneciana CORREDERA Lama horizontal permeable Acero galvanizado lacado blanco

360 90

90

Carpintería corre Lacado blanco ma Vidrio 4.4/14/3.3 Planitherm Ultran

300

120

180

Carpintería corredera RPT de aluminio Lacado blanco mate con Uf=3.90 (W/m²k) Vidrio 4.4/14/3.3 Planitherm Ultran N Ug=1.4 (W/m²k) g=0.57

150

150 75

75

15

Línea de forjado

VmC 0.01

Carpintería abatible RPT de aluminio Lacado blanco mate con Uf=1.64 (W/m²k)

130 40

VmC 0.03

VmC 0.02

Carpintería abatible RPT de aluminio Lacado blanco mate con Uf=2.90 (W/m²k) Vidrio 4/16/6 Planitherm Ultra N Ug=1.4 (W/m²k) g=0.58

Veneciana CORREDERA Lama horizontal permeable Acero galvanizado lacado blanco

Carpintería abatible RPT de aluminio Lacado blanco mate con Uf=2.90 (W/m²k) Vidrio 4/16/6 Planitherm Ultra N Ug=1.4 (W/m²k) g=0.58

Carpintería abatible RPT de a Lacado blanco mate con Uf=2. Vidrio 4.4/14/3.3 Planitherm Ultran N Ug=1.4 (W

90 240 120

120

125

125

Línea de forjado

VmC 1.01

Carpintería abatible RPT de aluminio Lacado blanco mate con Uf=2.90 (W/m²k) Vidrio 4/16/6 Planitherm Ultra N Ug=1.4 (W/m²k) g=0.58

126 12

114

VmC 1.02

VmC 1.03

Veneciana CORREDERA Lama horizontal permeable Acero galvanizado lacado blanco

Carpintería abatible RPT de aluminio Lacado blanco mate con Uf=2.90 (W/m²k) Vidrio 4/16/6 Planitherm Ultra N Ug=1.4 (W/m²k) g=0.58 652

163

163 80

Veneciana CORREDERA Lama horizontal permeable Acero galvanizado lacado blanco

163 80

10

80

163

Carpintería abatible RPT de aluminio Lacado blanco mate con Uf=2.90 (W/m²k) Vidrio 4/16/6 Planitherm Ultra N Ug=1.4 (W/m²k) g=0.58

84

80

Línea de forjado

VmC 1.07

ill. 24. Doors and windows panels

3.33 ill. 24.1 Site section through house

VmC 1.08

VmC 1.09


edera RPT de aluminio te con Uf=3.90 (W/m²k) 3 n N Ug=1.4 (W/m²k) g=0.57

Puerta ABATIBLE MOTORIZADA Lama horizontal permeable Herrajes en roseta cromo mate

Carpintería abatible RPT de aluminio Lacado blanco mate con Uf=2.90 (W/m²k) Vidrio 4/16/6 Planitherm Ultra N Ug=1.4 (W/m²k) g=0.58

Carpintería abatible RPT de aluminio Lacado blanco mate con Uf=2.90 (W/m²k) Vidrio 4/16/6 Planitherm Ultra N Ug=1.4 (W/m²k) g=0.58

118

310

195

15

195

220

73

155

73

55

88

270

VmC 0.04

VmC 0.05

VmC 0.06

VmC 0.07

VmC 0.01 Carpintería fija RPT de aluminio Lacado blanco mate con Uf=2.90 (W/m²k) Vidrio 4/16/6 Planitherm Ultra N Ug=1.4 (W/m²k) g=0.58

aluminio .90 (W/m²k)

W/m²k) g=0.57

VmC 0.07 VmC 0.06

Carpintería fija RPT de aluminio Lacado blanco mate con Uf=2.90 (W/m²k) Vidrio 4/16/6 Planitherm Ultra N Ug=1.4 (W/m²k) g=0.58

VmC 0.02

442 341

332

101

140 VmC 0.05

166

166

VmC 0.03 VmC 0.04

VmC 1.09 VmC 1.01 VmC 1.02

99

99

VmC 1.08 VmC 1.03 VmC 1.07 VmC 1.05

VmC 1.04

VmC 1.06

VmC 1.06

VmC 1.05

VmC 1.04

TIPOS DE PUERTAS P01 Abatible de una hoja - Hoja 1: 0.73 x 2.03 mtrs. - Material hoja: #Tablero de DM - Ref: Puerta interior abatible ciega de una hoja de 203x72,5x3,0 cm, de tablero aglomerado, marco y tapajuntas de madera, con herrajes de colgar.

ID Recuento Operación 01

10

Abatible

Descripción Abatible de una hoja

triar

Altura hoja Anchura hoja #DR_Material_Hoja 2.03

0.725

#Tablero de DM

CONTRATISTA DE PROYECTO: TRIAR BIM PROJECTS S.L. info@triar.es www.triar.es +34 962 06 68 51 +34 676 31 80 50

PROYECTO BÁSICO Y DE EJECUCIÓN

exp | 1812

VIVIENDA UNIFAMILIAR AISLADA, GARAJE Y PISCINA Proyectista(s) | JUAN VICENTE POVEDA IVARS COACV 12.203 | JUAN PABLO PELLICER CASADO COACV 11.338 | JAIME PEREZ DINNBIER COACV 12.216. Promotor | CONSTRUCCIONES FUERTES S.L. Ref. Catastral | 6246202BC4864N0001YP Situación | C/BALADRE 5, 03720 BENISSA (ALICANTE) II.3 Planos constructivos

SEPTIEMBRE 2018 Escala: As indicated

CARPINTERÍA Y CERRAJERÍA

C200

3.34


3.35 ill. 25. Site photos


Rear access to the house.

Front view of the house ill. 26. House renders

3.36


3.37 ill. 27. Entrance view


3.38


EVALAM EVALAM headquarters design Lliria, Valencia, Spain CLIENT : EVALAM ARCHITECTURE FIRM : TRIAR BIM Projects PROMOTOR : Hornos Industriales PUJOL PLOT AREA : 5028 sqm STATUS : Under construction (June 2019)

3.37


ill. 28. Entrance view (Evalam)

3.38


BRIEF Evalam is a company that produces laminated glass using a compound called EVA (Ethyl-Acetate Vinyl) that anticipates the architectural needs. Its mission is to provide the laminated glass with the improvement of the damage caused by the, external forces such as twisting, bending, aging and shock; In turn, it prevents glass fragmentation in case of breakage, provides acoustic and thermal insulation. Laminated glass is produced by applying a permanent film between two sheets of glass, resulting in a monolithic glass which is safer and has enhanced properties and, at the same time, provides increased design possibilities. The project was to design the headquarters of EVALAM where all the manufacturing activities can be carried out. The product goes through various processes during

3.37 m

14.00 m

11.25 m

0.17

0.16

25.00 m

8.00 m

Uses - Industrial/compatible tertiary Typology - Isolated building (INA) Buildability - 0.929 Occupation - 75% Form - Rectangular shape Allowed height - 10m Number of floors - 2 Setbacks - 3 to street

LIBRE CRECIMIENT

área de ampliación

SPACES

0.9_3

0.1

0.3_2

0.9_2

1

P. Baja 1 : 300

Show

MY CONTRIBUTION AND LEARNINGS I took this project after the approval of the client and was responsible for detailing and minor modeling changes. In this project I learnt majorly about the structural modelling in Autodesk Revit. Having an exposure of structural modelling is surely an important aspect of BIM. I carried out some of the joinery and facade details of the building and came to know the type of drawings are requirent to build such projects. Apart from these, I pepared the Lumion walkthrough and renders for the client presentation and learnt some presentation skills basically what has been followed in Spain. 3.39

2

P. Primera 1 : 300


11.25 m

11.25 m

0.14

8.75 m

0.15

9.15 m

0.13

8.75 m

3.43 m

11.25 m

6.00 m

6.00 m

15.95 m

25.00 m

9.15 m

7.00 m

SGP 1

EVA 2

EVA 1 9.15 m

COLOR 1

0.8

0.6

0.7

9.15 m

LIBRE CRECIMIENTO

TO

6.00 m

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Estánterías Stock Cartón

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wroom

0.12 0.2

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15.10 m

0.9_1

ZONA BUFFER

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5.62 m

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SUPERFICIES ÚTILES Nº 00 Baja 0.1 0.2 0.3_1 0.3_2 0.3_3 0.3_4 0.4 0.5 0.6 0.7 0.8 0.9_1 0.9_2 0.9_3

SUPERFICIE OCUPADA

Nombre

Superficie

Recepción LAB Comedor Vestuarios A Baño Vestuario B Stock Producto Acabado Zona Carga/Descarga Materia Prima Sala Blanca Nave Pasillo Pasillo Pasillo

55.84 62.35 48.55 44.12 5.52 4.00 422.45

m² m² m² m² m² m² m²

108.19 m² 558.44 398.75 1263.11 16.28 10.27 7.05

m² m² m² m² m² m²

Nombre

0.11 0.12 0.13 0.14 0.15 0.16 0.17

Cuarto técnico peróxidos Taller UTA Compresores Depósito de agua CSI CT

01 Primera 1.1 Oficina 1.2_1 Aseo 1.2_2 Aseo TOTAL

6.90 m² 22.98 6.25 6.58 6.58

m² m² m² m²

Ampliación Nave+Oficina Urbanización

Área 503.17 m² 3,061.21 m² 1,462.69 m²

14.62 m² 15.30 m²

207.95 5.39 5.39 3302.86

m² m² m² m²

ill. 29. Proposed plan

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ill. 30. Isometric view


Design option 1

Design option 2

ill. 31. 3d view

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ill. 30. Space distribution plan


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ill. 31. Construction plan


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ill. 32. Construction plan (1st floor)


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ill. 33. Administration drawings


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ill. 34. Exterior drawings


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ill. 35. Exterior sections

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ill. 36. Building sections

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ill. 37. Facade drawings

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ill. 38. Panel drawings

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ill. 39. Doors schedule

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ill. 40. Exterior render


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AUMSA Rental apartment units Valencia, Spain CLIENT : Actuaciones Urbanas de Valencia S.A. Municipal (AUMSA) ARCHITECT : TRIAR BIM Projects - Jaime Perez Dinnibier - Juan Pablo Pellicer Casado - Juan Vicente Poveda Ivars PLOT AREA : 2090 sqm STATUS : Proposed

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ill. 41. Exterior render(AUMSA)

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BRIEF AUMSA is a municipal body of Valencia which organized a bidding competition for the construction of an rental apartment building. The project was divided into 3 phases Phase 1: Basic Project and Annexes. Phase 2: Execution Project. Phase 3: Technical Direction of the Works. Each phase has certain bidding value. The total base bidding value was € 508,816.08 including VAT. There are certain points based on specific criteria (quality of submission, lowest construction time, sustainability, reaching the maximum requirements etc). The project will be awarded to that bidder who will grab the maximum point. Requirements 1-bedroom homes - 8-9% two-bedroom dwellings (one double and one single bedroom) - 37-40%, two-bedroom dwellings (two doubles) - 39-41%, and Three bedroom dwellings - 8 -10% These houses must have a usable area, in square meters, without counting spaces for terraces, of approximately: - One bedroom apartment: 47-60 m2 usable - Two bedroom apartment: 60-70 m2 usable - House with two bedrooms (two doubles): 68-76 m2 usable - Three bedroom apartment: 75-80 m2 usable SITE The site was located near the corner of the street surrounded on 3 sides by the road and nearly 1 km from the Beach.

MY CONTRIBUTION AND LEARNINGS This was the project in collaboration with another firm in Valencia. So the modeling and basic design were done by other members. I was given the opportunity to detail out the interiors and prepare the presentation drawings. I was also involved in the planning of the Type D unit layout and also drawing the general layout of parking. Here I came to know about various parking standards as per Spanish By-laws. 3.67


ill. 42. Exploded view

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ill. 43. Site layout

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ill. 44. General plan 3.70


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ill. 45. Ground floor plan

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ill. 46. 1st oor plan

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ill. 47. 2nd oor plan

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ill. 48. Parking plan

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ill. 49. Type A & B layout

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ill. 50. Type C layout

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ill. 51. Type D layout

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ill. 52. Elevations and Sections 3.86


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ill. 53. Elevations and Sections 3.88


Main Entrance view

View of the east facade

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Rooftop coworking spaces

Rear entrance view

ill. 54. Views

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ill. 55. Exterior renders

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Eliana Large single family house Rennovation and Extension L’Eliana, Spain CLIENT : Oscar Castaño ARCHITECT : TRIAR BIM Projects - Jaime Perez Dinnibier - Juan Pablo Pellicer Casado - Juan Vicente Poveda Ivars PLOT AREA : 800 sqm STATUS : Proposal

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ill. 56. Clay render

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BRIEF La Eliana (officially, L'Eliana ) is a municipality of the Valencian Community, Spain . It belongs to the province of Valencia. The project site has some undulating terrains and the client’s requirement was to homogenize the differences in site levels. The challenge was to maintain the integrity of all the new spaces with the existing structure and also with the landscape as a whole. Spatial requirements - Parking, Covered terraces, porches, barbecues, extension of house (2 bed rooom and a bathroom) and pool The spaces will be constructed in 3 phases. Maximum building height - 7m Plot area - 800 sqm Buildability - 20% Setbacks - 3m sideways and 5m front Existing house has a living room, 3 bedrooms, 1 bathroom and a kitchen. Client’s requirement was to built a large studio instead of a living room and add 2 more bedrooms to the house. Overall our strategy was to provide an openness to the house, bringing it closer to nature as there was large amount of vegetation present on the site. We tried several option but due to budget constraints, we couldn’t proceed with them.

Existing Floor Plan - Not to scale

MY CONTRIBUTION AND LEARNINGS In this project, I was responsible for designing the site plan apart from modeling of the project. Here, I learned about working in different phases in Revit, how the demolition and new construction is categorized. Also with several design alterations with the client and Ar. Juan Vi feedbacks, I came to know a lot about the general approach of architects here.

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ill. 57. Existing Site layout

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ill. 58. Phase 1 drawings 3.98


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ill. 59. Phase 2 drawings 3.100


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ill. 60. Phase 3 drawings 3.102


3.103 ill. 61. 3d view of dierent phases of construction


ill. 62. Site photos 3.104


3.105 ill. 63. Bird eye view of site after 3 phases


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4.01


Annexure 01 (Details)

The following section represents various joinery and construction details of projects done by me during the tenure of my internship. 4.02


4.03 ill. 64. G-STAR Nashville Facade Render


ill. 65. Facade details

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ill. 66. Joinery details

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Annexure 02 (Visualizations)

The following sections represents the visualizations of various projects done by me during the course of my internship. 4.08


CASA FUSTERA

4.09 ill. 67. Casa Fustera exterior view


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INTERIORS

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ill. 68. Apartment Living room render


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G-STAR OUTLET

4.13 ill. 69. G-STAR Nashville outlet interior


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Annexure 03 (Presentation sheet) Presentation board for BIM Conference in Valencia.

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Annexure 04 (Competition entry)

The following section represents our entry for the student competition 120 HOURS. I took part in this competition on my personal interest during the tenure of my internship. Other collaborators : Juhi Srivastava 4.20


Date: 5-04-2019, Annual Exchange International Press Conference 2019 Rochit Banthia (Reputed Stock Exchange Investor): "The future of the stock exchange is in crisis. I envision a break-through in the investment market by starting from building a self-sufďŹ cient exchange tower in Svalbard tapping its carbon storage potential. I will make it the world's most prominent carbon stock market hub."

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Adventdalen, Svalbard

The ďŹ rst tower is bu Adventdalen, Svalb It is an ideal place t demonstrate CO2 chain based on its closed energy syst including coal min coal fuelled power plant and geologic structures suited fo CO2 sequestration

TEAM: 9343


uilt in bard. to value

em nes,

Ambient air

Sun Blades to suck in ambient air

cal or n.

For surface adsorption of atmospheric CO2

Greenhouse for CO2 sequestration

Horticulture Labs PuriďŹ cation of CO2 Data processing Labs

Residential Buildings

Stock Exchange OfďŹ ces

Commercial Shops

Research Centre and Laboratories

Monitoring Centre to keep a check on faults and leakages

Temporary storage of CO2 for being used in other industries.

Compressed CO2 at 100 bar pressure injected into deep saline aquifers 0

30

60

120

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Date: 5-04-2119, Global Climate Change Summit 2119 100 years ago a revolutionary man saw the future and made investments worth billions of human lives. Today Svalbard is no longer an isolated island seperated from mainland but is connected to the world physically through numerous sea routes and virtually with its vast data exchange. It is today a negative emmission nation. “If people know only money, atleast invest sustainably.” -Rochit Banthia *Fictitious charactor

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Phase I

Phase II

P

Individual net zero carbon sequestration tower is made.

Surrounding the same injection well a cluster of similar tower system is built.

A tio at d fie se se b


Phase III

Another injecon well is setup t another depleted oil/gas ďŹ eld and a elf-sustaining ettlement is born.

0

50

100

200

TEAM: 93434.24 3.94


EPILOGUE Final reflection This internship at Triar has definitely beneficial for an undergraduate student pursuing architecture. I was using and practicing my knowledge and skills I acquired throughout my previous semesters and applied them in the real-world situations. I developed skills in many programs such as Adobe Photoshop, Autodesk Revit and even learned a new program, Google SketchUp. I found out what are my strengths and weaknesses, how an office works from the inside-out, the organization and responsibilities of employees and also the time management, scheduling and communication. Having meetings with the consultants and clients allowed me to gain social experience apart from the work experience . As my office mostly deals with BIM Projects that requires a grasp over working in collaboration, I understood a great deal of project management on such large scale projects and also got to know about some of Spanish by-laws and guidelines. I was part of various projects in their different phases of construction. I also got to know the workaround of submission drawings and how consultants and clients play their part in projects. The Evalam project taught me some software skills and at the same time, Eliana project taught me some of design philosophies of Ar. Juan Vi. I came to know about the axial importance of planes and geometries in modern architecture. The experience of working In this office has enriched me to be able to become a valuable member of any architecture office, working with professionals, brushing up my skills and knowledge gained at university and learning a lot of things I might not have heard or known.

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Conclusion We all have heard that Idiom - Knocking out two birds in one stone! This totally sums up my six-months internship at Triar, it gave me a great experience in the architectural practice. I came here to improve my skills within Architecture; however, I ended up leaving this experience with a much more understanding of myself and more wisdom about life. This opportunity and my placement specifically have led me in the right direction to develop myself and improve upon the way I approach things in life. I used my theoretical knowledge from my studies in real life and I am happy to say that I was able to complete the tasks I was given during my tenure. And above all, I witnessed the gloryness of European architecture which I used to study at my university. The beginning was quite challenging as I had to get used to a new daily routine, completely different style of working and get to know new people and most important in a completely new culture. I have also improved my communication skills because my tasks involve meeting with the clients and also get to talk to professionals from other domains of architecture. Additionally,I worked on various projects (of a different scale), as well as in different phases. Now, I have fair enough knowledge of BIM industry and I know it better how and what things are going across the world. Moreover, being submerged in the vibrant environment of Valencia City, I have developed life skills apart from professional skills. I evolved as a person and become more mature as an individual. However, there are some shortcomings too, I never worked much into architectural details and am still not much confident about the practical knowledge. My learning goals have been reached as I can see a big improvement in my working style which I can see with my keen interest of getting into great detail. I was also expecting to try new software, Luckily I got the opportunity to learn Unreal Engine 4 as per company’s requirements for visualization. However, I still have my limits here. I believe that this internship experience will help me greatly in my future career. I am thankful to the whole team of Triar for their precious time and valuable feedback that they have given to me whenever I used to stuck with something.

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5.03 ill. 70. Beach, Marbella, Spain


What´s Next? Although this internship was a life-changing decision for me. It has given me so many International connections and made me mindful of what is happening at the global level and who is leading the industry in different domains of architecture. I am very positive that these experiences are surely going to help in building my own career goals. However, there are still certain loopholes which need to be fixed before stepping into a professional career. Now I will be primarily focussed on to get in-depth knowledge of the architecture and construction industry in India, how things are shaping here and how the market is going to behave in the next 10 years? Parallely, I will keep on fixing the loopholes and will try to upgrade my skills with each passing day to match the standards at the global level. With a great year ahead and a plenty of goals yet to be accomplished, this internship journey made me more mature not only as a professional but also as an individual. Living in a completely different culture and learn to adapt to it is perhaps the best learning experience for me.

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Vocabulary To navigate the project

Aseo - Cleanliness Acero - Steel Acera - Side walk Ajardinada - Landscaped Albanileria - Masonry Aljibe - Cistern Almacenaje - Storage Aluminio - Aluminium Alzados y Secciones - Elevations and Sections Anchura de cubrejuntas - Width of joint cover Aparcamiento Cerrada - Closed parking Arriba - Above(up) Asfalto - Asphalt Baldosa de gres - Stoneware tile Baño - Bathroom Barandilla - Railing Bloque hormigón - Concrete block Cada cara - Each side Caldera- Boiler Calzada – Road Catastro - Cadastre (comprehensive land recording of the real estate) Cimentación - Foundation Climatizacion - Air Conditioning Cocina - Kitchen Contador agua caliente- Hot water counter Comprobación - Checking Cuarto de basuras - Trash room Cuarto limpieza - Fourth cleaning Dormitorio - Bed room Edificabilidad - Building Electricidad - Electricity Emplazamiento y Entorio - Location and Environment Enlucido - Plaster Escalera - Stairs Estructura - Structure Fontaneria - Plumbing Fachadas - Facades Grava - Gravel Grosor - Thickness Grueso antepecho - Thick sill Hormigón - Concrete Holladero - Flooring Hueco - Hollow Iluminacion - Lighting Jardinera- Planter Ladrillo - Brick Lamina de agua - Sheet of water Largueros - Beam Libre crecimiento - Free growth Límite del falso techo - Limit of false ceiling Madera - Wood Mamposteria - Brick work Marco de panel - Panel frame Moqueta - Carpet Muro - Wall Muro de bloque de hormigón - Concrete block wall Muro de vallado de parcela continuo - Fencing wall of continuous plot Nave - Ship

Noroeste - Northwest Parcela - Plot Parcela vecina – Neighbour plot Pavimento - Pavement Pavimentada sobre terreno - Paved on ground Perforado - Perforated Pilar - Column Pintar - Paint Piscina - Swimming Pool Planta baja - Ground Floor Planta Primera - First Floor Planta Cubierta - Cover Plant Poliestireno elastificado - Elasticized polystyrene Puerta - Door Rebosadero - Overflow Repisa - Sill (window) Revestimientos - Coatings Saneamiento - Sanitation Seguridad - Security Señalización - Signal Sistema de climatización - Air conditioning system Materia Prima - Raw material Sala Blanca - White room Salón - Comedor – Living dining Suelo - Soil Sureste - Southeast Suroeste - Southwest Teleco - Telephone Tendedero - Clothing line Tierra - Earth Trastero - Storage room Topografico - Topography Umbral - Sill (door) Unifamiliar aislada - Single family isolated Urbanismo - Urbanism Vallado - Fencing Ventana - Window Vestidor - Dressing room Vestuarios - Changing rooms Vivienda Abierta - Open Housing Zaguán - Hallway

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List of illustrations ill. 01. Picture with the project team...........................................................2.06 ill. 02. Office photos...............................................................................................2.07 ill. 03. Gransol house exterior render........................................................3.02 ill. 04. Site surroundings....................................................................................3.03 ill. 05. Administrative plans.............................................................................3.04 ill. 06. Ground floor plan...................................................................................3.06 ill. 07. 1st floor plan & Roof plan..................................................................3.08 ill. 08. Elevations and sections ...................................................................3.09 ill. 09. Elevations and sections ....................................................................3.11 ill. 10. List of doors and windows................................................................3.13 ill. 11. Panorama of site surroundings......................................................3.13 ill. 12. Isometric view of house........................................................................3.15 ill. 13. Site photos....................................................................................................3.16 ill. 14. Front view of the house........................................................................3.17 ill. 15. Exterior render............................................................................................3.19 ill. 16. Exterior render (Baladre)....................................................................3.22 ill. 17. Urbanisation plan....................................................................................3.24 ill. 18. Construction plan....................................................................................3.25 ill. 19. Architectural plan...................................................................................3.26 ill. 20. Elevations and sections.....................................................................3.28 ill. 21. Elevations and sections.....................................................................3.30 ill. 22. Site sections................................................................................................3.31 ill. 23. Isometric drawing..................................................................................3.32 ill. 24. Doors and windows panels............................................................3.33 ill. 24.1 Site section through house............................................................3.33 ill. 25. Site photos...................................................................................................3.35 ill. 26. House renders..........................................................................................3.36 ill. 27. Entrance view............................................................................................3.37 ill. 28. Entrance view (Evalam).....................................................................3.38 ill. 29. Proposed plan..........................................................................................3.40 ill. 30. Space distribution plan......................................................................3.43 ill. 31. Construction plan...................................................................................3.45 ill. 32. Construction plan (1st floor)............................................................3.47 ill. 33. Administration drawings...................................................................3.49 ill. 34. Exterior drawings....................................................................................3.51 ill. 35. Exterior sections......................................................................................3.54 ill. 36. Building sections....................................................................................3.56 ill. 37. Facade drawings...................................................................................3.58 ill. 38. Panel drawings.......................................................................................3.60 ill. 39. Doors schedule......................................................................................3.62 ill. 40. Exterior render........................................................................................3.63 ill. 41. Exterior render(AUMSA)...................................................................3.66 ill. 42. Exploded view........................................................................................3.68 ill. 43. Site layout.................................................................................................3.69 ill. 44. General plan............................................................................................3.70 ill. 45. Ground floor plan.................................................................................3.71 ill. 46. 1st floor plan............................................................................................3.74 ill. 47. 2nd floor plan...........................................................................................3.76

ill. 49. Type A & B layout......................................................................3.80 ill. 50. Type C layout...............................................................................3.82 ill. 51. Type D layout...............................................................................3.84 ill. 52. Elevations and Sections......................................................3.86 ill. 53. Elevations and Sections......................................................3.88 ill. 54. Views.................................................................................................3.90 ill. 55. Exterior render.............................................................................3.92 ill. 56. Clay render....................................................................................3.94 ill. 57. Existing Site layout...................................................................3.96 ill. 58. Phase 1 drawings.....................................................................3.98 ill. 59. Phase 2 drawings....................................................................3.100 ill. 60. Phase 3 drawings...................................................................3.102 ill. 61. 3d view of different phases of construction..........3.103 ill. 62. Site photos..................................................................................3.104 ill. 63. Bird eye view of site after 3 phases...........................3.105 ill. 64. G-STAR Nashville Facade Render.............................4.03 ill. 65. Facade details.........................................................................4.04 ill. 66. Joinery details..........................................................................4.06 ill. 67. Casa Fustera exterior view..............................................4.09 ill. 68. Apartment Living room render....................................4.11 ill. 69. G-STAR Nashville outlet interior..................................4.13 ill. 70. Beach, Marbella, Spain.....................................................5.03

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References Parking standards Spain - Ordenanza de aparcamientos, Valencia Spanish building codes - Seguridad de utilizaciรณn y accesibilidad Report references - https://issuu.com/shubam/docs/issuu_pdf Various rules and regulations - Triar Working manual About the company - www.triar.es For site photograps - Triar library and Ar. Juan VI (self clicked photos) For residence design principles - Spain Architects volume 1 and Mies vander Rohe at work For traslations to English - https://translate.google.co.in/

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“Architecture aims at Eternity� - Christopher Wren

nsingh@ar.iitr.ac.in

+91-8126481717


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