ARCHITECTURE PORTFOLIO ANASTASIA MARINESCU
EDUCATION
2020 - 2023 The University of Manchester | Manchester School of Architecture First Class Honours
2020 - 2023 National College “Ion C. Bratianu” | Pitesti, Romania
High Honours with the following grades in Romanian Baccalaureate Computer Science 10 | Advanced Mathematics 9.8 | Romanian 9.1
EXPERIENCE & ACHIEVEMENTS
2023 ARHIAMA CONCEPT | Pitesti, Romania
Architectural Assistant working in ArchiCAD and D5 Render Producing plans, sections, elevations, landscape proposals, structure analysis and presentation images for websites
2023 “Italian Architecture Interferences in the Modern Romanian Architecture” | Bucharest, Romania Exhibition Curator and Graphic Designer
2023 The International Creativity Contest “BAUHAUS” | Bucharest, Romania Graphic Designer and Exhibition Curator along with The New European BAUHAUS Initiative, The Order of Romanian Architects and The National Museum of Romanian Literature
2022 F.S.R.P. - Forumul Studentilor Romani de Pretutindeni | Bucharest, Romania Human Rescources Volunteer
2022 ART NOUVEAU in Architectural Lines | Bucharest, Romania
Graphic Designer and Exhibition Curator with The Order of Romanian Architects
2022 Personal Art featured in the exhibition “ART NOUVEAU in Architectural Lines” 2022 The International Creativity Contest “BAUHAUS” | Bucharest, Romania Graphic Designer and Exhibition Curator along with The New European BAUHAUS Initiative, The Order of Romanian Architects and The National Museum of Romanian Literature
2022 C.E.A.A.A. - Centre of Excelence in Architecture, Arts and Audio-visuals | Bucharest, Romania Graphic Designer and Exhibition Curator
2022 L.S.R.S. - The League of Romanian Students Abroad | Bucharest, Romania Graphic Designer and Human Resources Counsellor
2021 ART NOUVEAU in Architectural Lines Competition | Bucharest, Romania First Prize with honourable mentions from The National Museum of Romanian Peasent
2021 MSA 2020 Diagrams Competition | Manchester, UK
Best Diagram Representation Champion amongst 200 participants
2020 C.E.A.A.A. - Centre of Excelence in Architecture, Arts and Audio-visuals | Bucharest, Romania Volunteer Classroom Assistant helping prospective architecture students for their university admissions in the UK and Romania
2019 Leaders Explore | Pitesti, Romania Participant in leadership bootcamp
2016 - 2020 EEYP - Erasmian European Youth Parliament | Romania, Germany, Spain, Czech Republic Delegate | Chairperson in multiple committees on transporation, urbanisation, environemnt and social security
SKILLS
Design Adobe Suite, Rhino, Grasshopper, SketchUp Pro, ArchiCAD, AutoCAD, EnScape Render, D5 Render, Twinmotion Render, Procreate IT Microsoft Office (Word, PowerPoint, ExCel, Outlook), C++ coding
Modelling 3D Printing, Laser Cut, Physical Modelling
THE TREE OF LIFE INSTITUTE
TECHNOLOGIES STUDIES
PAGE
PAGE
YEAR 3 ACADEMIC WORK Manchester School of Architecture, UK
4
YEAR 3 ACADEMIC WORK Manchester School of Architecture, UK
15
ARHIAMA CONCEPT
PERSONAL PROJECT ARCHITECTURAL ASSISTANT Pitesti, Romania
PAGE
17
ARCHITECTURAL ASSISTANT Pitesti, Romania
PAGE
18
“TREE OF LIFE” INSTITUTE
YEAR 3 ACADEMIC WORK || TUTOR: DAN NEWPORT, SIOBHAN BARRY HEALTH AND EDUCATION TYPE: UNIVERSITY AND PHISIOTHERAPY CENTRE SITE: MANCHESTER, HULME, UK
The purpose of this project is to suggest an innovative building for the MMU Faculty of Health and Education, emphasising the enlargement of areas for the Physiotherapy Department. The project client, represented by the Brooks Building, has outgrown its current capacity in the Health Department. Consequently, this proposal serves as a crucial intervention. The Institute is designed to provide new dedicated areas for physiotherapy and mental health treatments. It is dedicated to integrating biodiversity while focusing on users’ overall state of well-being. Starting from an analogue approach, the proposal develops into a sanctuary that fosters connectivity among individuals, the environment, and the architecture. Embodying a linear design, the Institute facilitates the interconnection of programmes through vegetation, positioning itself as a beacon for future developments in Manchester’s community.
Initially the project was presented through technical drawings to understand the dimensions of the site location and to offer a better sense of the proposals character. The hand drawings helped in building up the character of the Institute. Analysing the building, through analogue techniques and from various angles such as section views, perspectives, and landscape plans, helped in the further development of the concept when digital modelling was implemented.
INITIAL LANDSCAPE STRATEGY
INITIAL SECTIONS 1:200
TWO POINT PERSPECTIVE OF INITIAL PROPOSAL
Space distribution diagrams Activity Centre
FINAL PROPOSAL RENDER FROM THE FRONT OF THE BUILDING
Physiotherapy Private Area
Mental Health Common Space
West elevation space distribution
South elevation space distribution
East elevation space distribution
North elevation space distribution
Having an initial analogue approach for the building proposal resulted in analyzing various strategies and designs for the central column. The atrium space of the building is located in center of the design. Its function is to interconnect the programs of the building by generating a communal space surrounded by greenery. Initially the atrium consisted of a singular column aiming to support the central structure of the building. The column is part of the primary structure of the building. Starting with various iterations of its aspect, the column design further developed when digital techniques were utilized. All the hand drawings depict various strategies in which the column could be used as a structural element and how it influences the identity of the proposal. By analyzing each type through building sections, plans and sectioned axonometric views a better understanding of the atrium space was gained. This analysis helped in making further decisions on terms of columns’ aspect and structural functions.
FOURTH COLUMN PROPOSAL
Being located in the heart of the design a further analysis of the load distribution through the central part was required. The diagrams on the left present multiple iterations of the required number of columns to distribute the loads through the atrium area. The diagrams consist of structural grids that depict the connection of possible columns and their locations on the central area. FIRST COLUMN PROPOSAL
Top plan view of the fourth column proposal
SECOND COLUMN PROPOSAL
SECTIONAL AXONOMETRIC VIEW OF FOURTH PROPOSAL
THIRD COLUMN PROPOSAL
The organic columns proposed for the building is part of the primary structure. They were designed using parametric methods to create intricate organic figures. Due of the height and curvature of the structure, the columns require structural support between each organic element. The reinforcement is created by using SHS and steel ring connecters placed at different heights of the column.
Exploded axonometric view of the atrium space showcasing the relationship between the structural elements and the interior garden strategy. The organic columns build up the character of the proposal and by including timber structures for planting and seating the biophilic approach is enhanced. The space created boosts biodiversity and connection between users and the environment.
Atrium space showcasing the space designed for interior gardens with unobstructed views of the exterior boosting connection between the interior and exterior and offering constant natural lightning. The space aims to further connect users with the environment by surrounding them with vegetation and further develop the biodiversity.
The external cladding of the building was selected to enhance the overall performance of the proposal. The chosen façade aims to generate a better thermal comfort throughout the year while building up the internal and external character of the building. The iterative testing of the parametric cladding generated with Voronoi focused on analysing the internal floor thermal comfort and the geometries solar gains throughout the year. The selected façade aims to create an environment that requires minimal mechanical services focusing on passive heating and cooling. Facade iterations Voronoi 1000
Average direct hours: 4.5 hours
Average direct hours: 13.6 - 15.3 hours
Voronoi 2000
Voronoi 3000
solar gain is lowered; in front of glazing between 55% and 80% are found; more shaded areas
Average direct hours: 3.75 hours
Average direct hours: 10.2-11.9 hours
Voronoi 4000
EAST ELEVATION OF FINAL FACADE
Direct sun gains during Winter Solstice
Direct sun gains during Summer Solstice
Testing floor thermal gains the solar gain amount is distributed on the floor highest quantity (89%) next to the facade
Facade iterations
Testing floor thermal gains the solar gain is lowered; in front of the glazing 80% are found
solar gain is lowered; more areas with 11%-33% are found
Direct sun gains during Winter Solstice
Direct sun gains during Summer Solstice
Average direct hours: 4.5-5 hours
Average direct hours: 11.9-13.6 hours
Average direct hours: 3.75 hours
Average direct hours: 8-10.20 hours
The 1:10 physical model explores the building layers of the top floor in relation to the exterior and the cladding proposal. The model is best presented on an elevated platform for further understanding of the layers and textures used. The exterior organic cladding of the model has been 3D Printed and coated with dark green acrylic paints to showcase the metallic texture of the façade. The concrete slab of the floor had been casted with grey plaster and sprayed with black paints to recreate the real material. The insulation of the floor is presented with three foamboards stacked together to present the actual dimensions of the mineral wool insulation. The model is cut at different dimensions to show the interior layers and the connection between each element. To depict the double-glazing two clear acrylic board were cut and glued together. The timber floor finishing was created by using an MDF board and coating it with light oak paint. Process of 3D Printing the parametric designed facade
The design implements multiple sustainable strategies to reduce the utilization of mechanical systems and lower the overall carbon footprint of the building. By including operable windows in the central atrium. Passive cooling and heating throughout the year is created. The extensive green strategy implemented throughout the proposal has multiple roles consisting of boosting oxygen production, releasing the CO2, and creating a natural buffer for external noise sources. Simultaneously, the green roof system enhances the biodiversity of the area and makes a significant contribution to the thermal performance of the design. The site being directly exposed to natural lightning allows the implementation of photovoltaic solar panels to produce green energy throughout the building. Therefore, the proposal has a positive impact on the surrounding environment and creates a comfortable space for the users focusing on sustainable and green strategies.
1:200 GROUND FLOOR GA PLAN
1:200 FIRST FLOOR GA PLAN
WEST ELEVATION
The proposal aims to integrate green environments in the community. Placing the building in the centre of the site permitted the implementation of multiple landscape strategies. The design is surrounded by timber structural elements with various functions. The landscape intervention consists of introducing design elements where trees and vegetation are planted and simultaneously the elements could be used for seating thus further developing the connection between the users, nature, and architecture. This strategy aims to create multiple entrances on site to allow the access of the building from any point.
The linear character of the proposal strives to further develop the relation between users, nature, and buildings’ programme. The programmes of the design are divided into four main areas, and they are connected through the central atrium. The atrium is considered the heart of the Institute and intends to reconnect the community. by integrating study and practice areas, students are encourage to engage with professionals from the health industry to further develop their skills and knowledge while providing services for Hulme’s community.
PLANTS LANDSCAPE INTERVENTION
TREE LANDSCAPE INTERVENTION
SEATING LANDSCAPE INTERVENTION
1:200 GA PLAN
The building proposal creates a unique connection between architecture and nature. Through the linear character showcased in the south elevation it is clear how the concept integrates in the proposed landscape strategy. The parametric designed façade coated green aims to reproduce the aspect of tree leaves and with the organic columns depicting tree trunks the buildings’ structure becomes part of the natural environment. The sections showcase the connectivity of the spaces through the central atrium considered the “green” heart of the Institute. The exploded axonometric of the proposal intends to present the structural layers and how they are connected. It offers a clear understanding of the materials chosen throughout the design and how they blend to establish the proposals’ identity. The Institutes’ character and nature integration is seen in the night front render. SOUTH ELEVATION
SECTION ONE
SECTION TWO
NIGHT FRONT RENDER OF THE PROPOSAL
EXPLODED AXONOMETRIC OF BUILDINGS’ LAYERS
STUDY AREA SPACE
EXTERIOR LATERAL VIEW
EXTERIOR FRONTAL VIEW SHOWING LANDSCAPE DESIGN FUNCTIONALITY
COMMON ATRIUM SPACE
1:20 Technical Detail of all the Institutes’ floors Roof layers: 1. Growing vegetation 2. Growing medium 150mm 3. Filter fabric 1mm 4. Metallic drainage board 20mm 5. Root barrier 1mm 6. Waterproof membrane 0.3mm 7. Celotex XR4000 insulation 150mm 8. PVC roofing membrane 1.5mm 9. Precast concrete slab 50mm 10. Metal decking 0.5mm 11. Outdoor stainless steel C channel coated light blue 12. SHS steel connecter for parametric cladding 13. 5mm steel planks for SHS steel connecter 14. Continuous aluminium gutter coated light blue 15. 254x146x37 I beam stainless steel Parametric Façade strategy: 16. SHS (200mm width) curved steel fireproof coated dark green 17. Aluminium decking coated light blue for windows 18. Aluminium frame coated dark green for windows 19. Double glazing system 20. Aluminium cladding sheets coated dark green 5mm False ceiling: 21. Aluminium C channels for ceiling attachment 22. Suspension cords 23. False ceiling acoustic panels 1200x600x15mm 24. T24 metal runner 25. Aluminium electrical rail with cables 26. Water pipe 27. Ventilation system 28. Light fixtures Top floor layers: 29. Metallic aspect floor finishing 50mm 30. 203x203x46kg I Universal stainless-steel column 31. Exterior stainless steel C channel connector coated light blue 32. Vapour control barrier 33. Celotex F15000 insulation 100mm 34. Precast concrete slab 50mm 35. Metal decking 0.5mm 36. x146x37 I beam stainless steel Exterior wall build-up: 37. Interior plasterboards 2x10mm 38. Vapour control barrier 0.3mm 39. Celotex GA4000 insulation 200mm 40. Breather membrane 0.3mm 41. Sheeting board 10mm 42. Vertical Rail 10mm 43. Fibre cement panels Equitone [lunara] LA60 Hessain 10mm 44. 203x203x46kg I Universal stainless-steel column 45. 254x146x37 I beam stainless steel Ground floor 46. Floor finish 20mm 47. Screed 50mm 48. Celotex FI5000 insulation 100mm 49. Damp Proof Membrane 2mm 50. Precast Concrete Ground Slab 200mm 51. Compacted Soil 150mm 52. Ground
ARHIAMA CONCEPT - ARCHITECTURAL ASSISTANT PERSONAL PROJECT
As the architectural assistant of the ARHIAMA Concept, I was responsible with working on multiple residential projects. My journey as an architectural assistant in this company started by learning a new software to create 3D representations and final renders. The house presented on this page showcases my initial project into the firm. The house is located in Stefanesti, a residential town in Romania, and is surrounded by multiple residential units. The proposal was created based on the costumers requirements and offers on the ground floor a living room connected with the kitchen and an enclosed winter terrace leading to the yard, a storage unit, a bathroom, a technical room and a bedroom with a walk in dressing, while on the upper floor the house offers three bedrooms equipped with walk in dressings, two bathrooms and two terraces connected with two of the bedrooms. My role in this project was to create the 3D representation of the house, to place the project on the site, to create a landscape proposal and to generate final exterior renders for the costumers. EXTERIOR LATERAL RENDER OF RESIDENTIAL HOUSE IN STEFANESTI
EXTERIOR FRONT ENTRANCE AND WINTER TERRACE RENDER
STEFANESTI HOUSE SECTION WITH STRUCTURAL GRID DISTANCES
FRONT VIEW RENDER WITH LANDSCAPE PROPOSAL
STEFANESTI HOUSE GROUND FLOOR PLAN WITH SPACE F6AREAS AT 1:100
B
A
C
STEFANESTI HOUSE FIRST FLOOR PLAN WITH SPACE DIMENSIONS AT 1:100 F6
G
E
B
A
H
C
G
E
H
15.76 2.55
1.20
3.30
5.85
2.55
60 90 425
D
F
H
2
TERASA
A: 15.84 m2
1
A
GSPublisherVersion 0.70.100.100
5.70
B
2.40
D
F-03
F-11 F-10 F-09
F3
2.40 4.10
1
4.80
2.40 13.48
B
F-07
hp= 1.20
2
hp= 90
1
A
F-16
hp= 20 hp= 20
2.13 27 1.22
425
4.53
F-05
H
3 60 90
135 27
A: 19.82 m2
4.80
F
hp= 1.20
5.70
2
70 2.00
4.375
2.13
DORMITOR
5.70 2.40
2.28 27
90 2.10
1.50 2.10
4.575
27
F-05
F5
135
80 2.10
4.095 27
6.50 6.00
5.43
hp= 10
425
1
1.52 135
F4
1.50 2.10
F3
14.68
2.40
14.68
hp= 1.20
F-10 F-09
hp= 2.00
1.22
F-07
425
1.90
1.90
1.90
90 2.10
425
hp= 90
2.10 2.10
2.00 1.50
B
A: 24.84 m2
425
3
2
1
A
1
A: 5.71 m2
F-03
2 3R x 165 2G x 315
1
DRESSING
2.00 1.50
2
4.53
A: 19.82 m2
4 70 2.00
1.90
425
4.50 2.40
F3
F4
3R x 165 2G x 265
S-03
1
3
27 DRESSING
4 3 2
2.13
60 90
1.50 2.10
27
A: 29.71 m2
425
5.43
hp= 30
2 4 S-03
hp= 1.20
27 425
5
A: 7.22 m2
HOL+CASA SCARII
4.50 2.40
5
3 60 90
S-03
A: 8.44 m2
135
H
4.375
G
E
4
DORMITOR
90 2.10
1.50 2.10
C
A: 22.85 m2 BAIE
S-03
60 90
425
5.58
80 2.10
1.50 2.10
hp= 90
F-09
4.765
6.23
6.50
A: 33.83 m2 2.00 1.50
A: 5.71 m2
F6
B
A
5.70
135 2.28
80
F4
DRESSING CAMERA DE ZI
DORMITOR
DRESSING
1.60 90
2.13
9
8
7
6
5
4
3
2
1
A: 31.90 m2
A: 16.82 m2 27
TERASA
2.40 2.10
4
17R x 19 16G x 25 HOL+CASA SCARII
11
90 2.10
10
1.80 2.10
27
4 SITE CONTEXT IN STEFANESTI WITH HOUSE POSITION AT 1:100 S-03
60 90
BAIE
5.58
A: 9.84 m2
27
A
GSPublisherVersion 0.70.100.100
12
B
A: 7.22 m2
80 2.10
13
C
SP. TEHNIC
14
D
2.40
15
E
1.20
16
F
4.50
2.40 2.10
17
G
1.35
80 2.10
90 2.10
H
1.05
5.43
5.70 7.215
1.50
A: 30.30 m2
hp= 0.00
F-13
3.30
BUCATARIE
A: 24.45 m2 6.00 2.40
425
1.60 5.70
TERASA
U-02
80 2.10
A: 9.54 m
60 90
1.90
425 2
1.50 2.10
3.165 BAIE
F-11
135
2.28
hp= 1.20
27
3.015
5.58
hp= 1.20
A: 6.88 m
A: 4.38 m2 425
3.48
5
3.015
2
1.20
DRESSING DEBARA
135
5
5
425
60 90
hp= 1.20 425
F-12 hp= 1.20
hp= 0.00
3.30
F-12
F-15
425
5
5.85
1.50 2.40
3.60
D
F
H
ARHIAMA CONCEPT - ARCHITECTURAL ASSISTANT
During my time as an Architectural Assistant for Arhiama Concept I was asked to develop multiple house proposals for numerous investors. My initial proposal consisted of developing small housing units for a residential complex in Mioveni, Romania. The project’s aim was to deliver houses made of prefabricated construction materials which can be easily assembled on site to reduce the construction costs and environmental impact. My second housing proposal was designed for a site located near a small military airport in Maracineni, Romania. This housing units are meant for a residential complex and a key focus was placed on the maximum height of each unit and to offer a modern and minimalist aspect for the houses. A
B
S-05
MIOVENI HOUSE UNITS FIRST FLOOR AT 1:100
S-05
MIOVENI HOUSE UNITS GROUND FLOOR AT 1:100
A
C
B
C
F19
F19 7.13
4.50
7.13 4.50
2.05
29
29
4.50
2.05
5.37 1.20
1.00
76
1.00 1.00
4.23
27
1.78
43
43
29 97
43
1.20 60
3
3
hp= 1.20 43
4.50
F-14
41
29
29
3
2.05
3.90
F-07
29
2.03
2.05
29
3
hp= 50
43
43
4.23
27
1.78
43
6
DORMITOR
7 11
3.67
3.67
43
27
87
91
8.12
8.12
16
27
2
2
80 2.10
A7
2
8.12
15
7.27
A7 27
A7
U-12
F18
14
U-11
13
F18
12
6.05 m2
CA:
43 4.78
4.23
F20
CASA SCARII
1.00 2.10
F20
A7 8.12
F19 SOUTH ELEVATION
2
1
2
F17 NORTH ELEVATION
CA: 14.38 m2
3.67
3.67
3.40
1.60 1.50
3.40
16R x 18 15G x 28
CA: 15.07 m2
hp= 90
1.60
U-08
3.67
3.67
9 3 10
3.67
8 4
BUCATARIE
F-10
5
90 2.40
U-13
HOL CA: 3.70 m2
CA: 15.23 m2
4.23
27
1.78
43
1
80 1.50
1.60 1.50 F-06
1
1.00 60
43
43
1
1.00 2.40
43
29
hp= 90
43
hp= 1.80 43
hp= 89
1
1.78
U-16 1.00 2.35
4.23
27
2.36
1.77
U-10
CA: 4.20 m2
CA: 3.14 m
43
3.87
BAIE
2
U-06 43
4.16
U-14
DORMITOR
HOL 1.40 2.10
GSPublisherVersion 0.50.100.100
13
70 2.10 3.60
4.16
13
80 2.10
4.16
3.87
15.92 m2
CA: 3.87
80 2.10
GSPublisherVersion 0.50.100.100
U-07
CAMERA DE ZI 3.87
50 50
5.55
CA: 3.03 m2
F-08
1.71 hp= 20
BAIE
F-11
F-09
BALCON CA: 7.17 m2
29 1.79
1.60
29
1.93
1.00
4.50 4.50
4.50 1.79
81
2.05
2.05
80
29
2.73
29
1.00
4.50
81
2.05
2.05
7.13
7.13
F17
B
C
A
PROIECTANT: S.C. ARHIAMA PRO DESIGN S.R.L. 110069, strada NEGRU VODA, nr.30B, MARACINENI HOUSE UNITS PROPOSAL GROUNDPITESTI FLOOR AT 1:50 S. construita =166.50mp, din care : F1 TEL: 0248287170; 0723595920.
S. acces=1.55mp S. terasa acoperita =19.65mp S. utila =116.50mp S. locuibila=63.25mp
A
B
C
235
7.82
3.25 96
D NUME
SPECIFICATIE 3.25
37 33
1.69
90 5.90
C
A7 HOUSE SECTION
TITLU PROIECT: "CONSTRUIRE LOCUINTA"
235
2.40 SEF PROIECT
1.17 arh Amalia. GUGUI
1:100
arh Amalia. GUGUI
DATA 09.2023
tehn Anastasia Marinescu
A
FAZA D.T.A.C.
B
PR. NR. 101
D
E
SPECIFICATIE
NUME
SEF PROIECT
arh Amalia. GUGUI
1:100
PROIECTAT
arh Amalia. GUGUI
DATA
DESENAT 3.25
tehn Anastasia 85 235 Marinescu
09.2023
SEMNATURA
SCARA
TITLU PROIECT: "CONSTRUIRE LOCUINTA"
+6.46
FAZA D.T.A.C.
+5.78
+5.53
PLANSA NR. A2 235
96
4.50
3.87
2.05 +6.60
3.67
+6.60
C
7.82
TITLU PLANSA: PLAN PARTER
S05 HOUSE SECTION
BENEFICIAR: CIORANU OVIDIU MARIUS SI CIORANU ELENA DIANA, LOCALITATEA ALBOTA, STR. MORLOVANI, NR. 366, JUDETUL ARGES
F1
SEMNATURA SCARA
PROIECTAT DESENAT
B
PROIECTANT: BENEFICIAR: CIORANU OVIDIU MARIUS SI CIORANU S.C. ARHIAMA PRO DESIGN S.R.L. PR. NR. ELENA DIANA, LOCALITATEA ALBOTA, STR. PITESTI strada NEGRU VODA, nr.30B, MARACINENI HOUSE UNITS PROPOSAL FIRST FLOOR AT110069, 1:50 101 MORLOVANI, NR. 366, JUDETUL ARGES TEL: 0248287170; 0723595920.
E 85
S-05
S-05
F17
A
2.29
+5.75
+5.75
PLANSA NR. A3
TITLU PLANSA: PLAN SARPANTA
+5.00
TERASA
GSPublisherVersion 0.50.100.100
CA: 20.42 m2
37 305
96
1.325
1.70
1.465
1.70
GSPublisherVersion 0.50.100.100
GSPublisherVersion 0.50.100.100
3.50
+3.80 +2.80 5
1.335
5.55
+2.20
1.70 2.10
1.70 2.10
U-09
+1.40
85 2.10
85 2.10
F-08
F-09
7.10
23
5
235
25
5
235
235
5
25
85
235
25
CA: 7.75 m2
hp= 10
25
hp= 10
5
+2.80
+2.10
TERASA U-09
2.40 2.10
U-04
3.25
2.29
96
5
25 ±0.00
15
-0.50
±0.00
3.09
25
90 2.10
U-07
4
96
4
15
4
U-06
15 U-05
+5.75
A1
+6.60
+5.75
11.105
+5.78
+5.75
+3.80
F9
535
3
60
hp= 90
hp= 90
60 1.20
F1 NORTH ELEVATION
E GSPublisherVersion 0.95.100.100
+5.80
45 1.20
2.435
90 2.10
CA: 5.06 m2
15
D
25
F-06
hp= 50
25
F-04
9.96
F9
BAIE
1.295
U-05
C
GSPublisherVersion 0.95.100.100
F-02
2.685
B
+6.60
2.05
hp= 50
2.05
5
3
+4.90
+2.80
+2.80
2.95
15
2.95
2.95
1.30
2.95
2.05
3.20
+3.80
4.25 1.83
25
2.485
2
25
1
TERASA 2.98
+2.80
+2.20
F9 EAST ELEVATION
hp= 10
U-08
1.37
F-04
-0.50
+2.20
1 1.37
1.14
1
90 2.10
25 1.37
2
2.10 1.80
235
25
1
-0.50
±0.00
1.30
F-05
+0.01 -0.15 -0.32 -0.49
+2.50
4.255
90 2.10
U-06
1.30
2.075
CA: 4.47 m2
2
±0.00
hp= 30
3
80
4.015
4.70
60
2
1 3R x 165 2G x 265
15 BAIE
1.295
2.10 1.20
4.27
25
60 2.10
1.30
hp= 1.00
CA: 16.95 m2
25
1.14
15
60 1.20
F-03
hp= 90
CA: 2.12 m2
F-01
235
80 2.10 15
2.60
1.30
1.55
25
85
+2.50
25 1.30
70 1.50
hp= 90
1.935
25
A
2.685
15 1.20 2.10
4.015
4.70
BAIE U-01
BUCATARIE
2
1
80 2.10
15
3.25
DORMITOR
CA: 2.98 m2
4.25
3
25
U-02
80 2.10
HOL
CA: 11.90 m2
A1
70 22
45 1.20
1.025
U-03
25
2.95
3.00
3.00
80 2.10
1.775
25
25
25
A1
9.97
1
3
5
6
85
F-02
5.81 m2
F10
2
85 9.97
4
65
3.00 CASA SCARII CA:
3
F-05
70
85
hp= 1.40
2.19 hp= 1.40
F-04
1.06
7
16R x 175 15G x 26
F-05
70 70 22
16
2.05
15
9.97
14
25 70 70
70 1.50
1.975
10 9
13
8
12 11
F10
70 70
2.29
A1 HOUSE SECTION
15
4
-0.50
5.25
3.86
5.72
25
3.20
CA: 11.86 m2
3.05
DORMITOR
CA: 11.26 m2
3.05
3.20
3.645 5.36
5.25
DORMITOR
5.25
CA: 32.70 m2
5.25
3.20
3.645
LIVING
96
2
3
4
+5.75
+2.10
3.25
85
5
+1.00
+6.60
+6.46
+0.90
+6.38
GSPublisherVersion 0.95.100.100
CA: 3.37 m2
2.29
+5.75
+5.75
±0.00 96
2.29
3.25
85 935
93
2.10
235
70 35
1.645
1.20
3.25
4 45
36
85
235
235
36
3.25
215
2.10 96
37
B
C
475
60
93
37
3.25
5 85
6.97
45
36
E
A
B
235 +2.80
85
C
+2.80 +2.50
3.20
D
±0.00
-0.50
7.82
D F2
90
2.29
7.82
A
75
E
2.05
2.95
1.30
±0.00
±0.00
-0.50
-0.50
F2
A
F10 WEST ELEVATION GSPublisherVersion 0.95.100.100
5
B
F2 SOUTH ELEVATION 4
3
2
1
C
D
E
+3.70
TYPE 1 TWO BEDROOM 6TH FLOOR INTERIOR RENDER WITH APPROVED FLOOR PLAN
In the practice I was tasked to develop the majority of the final renders for the biggest investors the company works with. One of the first live projects I have worked on was to create interior renders for Craiovei Residence Complex, a complex consisting of four apartment buildings. The images I generated using D5 Render I currently showcased on the Residence’s Website and play a key role in the marketing and selling scheme of the complex.
TYPE 2 TWO BEDROOM 6TH FLOOR INTERIOR RENDER WITH APPROVED FLOOR PLAN
TYPE 3 TWO BEDROOM 6TH FLOOR INTERIOR RENDER WITH APPROVED FLOOR PLAN
TYPE 1 ONE BEDROOM GROUND FLOOR INTERIOR RENDER WITH APPROVED FLOOR PLAN
Balustrada H=90 - parapet plin
hp= 90
prag 10 1.20 2.10 80 2.10
hp= 90
90 2.10
90 2.10
EI150
EI150
EI150
EI150
hp= 90
BAIE S: 4.08 m2 BALCON S: 7.47 m2 1.50 1.30
1.00 2.10
DORMITOR S: 12.14 m2
80 2.10
90 2.10
90 2.10 1.20 2.10
W
HOL S: 5.24 m2
BAIE S: 4.10 m2
EI240
80 2.10
90 2.10
W
80 2.10
EI150
LIFT
EI240
90 2.10 W
EI240
80 BAIE 2 2.10 S: 4.16 m
CAMERA DE ZI S: 19.97 m2
80 2.10
hp= 90 1.20 1.30
2.40 1.30
CT
15 15
15 15
hp= 90
BALCON S: 9.11 m2
APARTMENT BUILDING 5TH FLOOR INTERIOR RENDER OF SIX ONE-BEDROOMS APARTMENTS AND 5TH FLOOR PLAN AT 1:50 Balustrada H=90 - parapet plin
15 15
prag 10
1.50 1.30
hp= 90
hp= 90
80 2.10
CT
hp= 90
1.50 1.30
hp= 90
hp= 90
1.50 1.30
BUCATARIE S: 7.98 m2
1.20 1.30
CAMERA DE ZI S: 19.21 m2
BUCATARIE S: 7.98 m2
2.40 1.30
EI150
90 2.10
15 15
DORMITOR S: 12.39 m2
DORMITOR S: 11.93 m2
1.50 1.30
perete separator balcoane rigips
EI150
1.20 2.10
CAMERA DE ZI S: 18.47 m2
BALCON S: 7.47 m2
DORMITOR S: 12.14 m2
EI150
1.10 2.10
hp= 90 hp= 90
90 2.10
CT
prag 10
W
W
6
5
Balustrada H=90
80 2.10
90 2.10
17 Trepte x 16.5 cm
4
HOL S: 7.00 m2
Rampa scari R60
HOL si CASA SCARII S: 16.28 m2
90 2.10
1.00 2.10
BAIE S: 4.08 m2
EI150 HOL S: 7.06 m2
EI150
BUCATARIE S: 7.83 m2
HOL S: 5.24 m2
80 2.10
3
Balustrada H=90 - parapet plin
BAIE S: 4.16 m2
2
1.00 2.10
80 2.10
1
15 15 BALCON S: 7.53 m2
80 2.10
BUCATARIE S: 9.13 m2
CAMERA DE ZI S: 19.21 m2
80 2.10
CAMERA DE ZI S: 21.24 m2
EI150 BAIE W S: 4.10 m2
CT
15 perete separator 15 balcoane 15 rigips 15 1.20 1.30
BUCATARIE S: 7.98 m2
80 2.10
90 2.10
hp= 90
prag 10
CAMERA DE ZI S: 19.07 m2
1.20 2.10 15 BALCON 15 S: 7.53 m2 1.20 1.30
BUCATARIE S: 7.97 m2
DORMITOR S: 12.40 m2
CT
90 2.10
1.00 2.10
prag 10
DORMITOR S: 11.93 m2
hp= 90
Balustrada H=90 - parapet plin
1.20 1.30
CT
2.40 1.30
15 15
hp= 90
15 15
1.50 1.30
prag 10
1.20 1.30
80 2.10
hp= 90
15 15
1.50 1.30
hp= 90
15 15
1.50 1.30
hp= 90
EI150
2.40 1.30
BALCON S: 9.11 m2
S1
S1
S1
LIMITA PROPRIETATE
C2
LIMITA PROPRIETATE
LIMITA PROPRIETATE
C2 F3
C
B
A
10.67 F3 10.57
F3 B
C
B
A
C
5.55
8.78
5.55
5.88
3.92
20O
3.08
F4
F4
3.60 50
10.34
F2
8.96
7.84
20O
1.88
1.80
2
60 +5.77
1.12 1.12 1.20
1
1 1.20
1.12 55
10.34
60 2.10 7.09 2.40
2.40
hp= 30 hp= 30
50 38
2
3.22
+5.77 8.24
70
1.80
F1 10.04
38
A
4.28 4.30
C
4.66
3.92
F1 B
B
3.46
38
3.60
A
2.55
3.98 4.48
4.38
C
1.38
2'
1 38
38
1.80 1.50 3.73
38
4.38
F1 B
BALCON 2.53
S2
+7.26
2
1.30 70 2.10
hp= 90
1.30
5.36
5.50
5.50
8.78
A
25
hp= 1.50
3.73 25
3.92
S2
24
1
70 2.10 75
2
1
70
4.24
60 90
U-13
1.46 4.30
+7.43
+7.26
S2
41
2
60 90
1.50 2.40
3
2'
2.55
1.63
CA: 6.60 m2
4.03
60 90
1.30
1.50 2.40
1.02
60 2.10
U-12
2.14 80 2.10
3.06
BAIE
U-12
1.12
hp= 1.50
prag 0.00
90 1.80
60 2.10
Fereastra fixa, geam mat
1.30 40
1.80 1.50
70 4.00
60 2.10
2.13
1.50
U-12
4.03
25
14.71 m2
CA:
1.12
90 1.80
1
3.00
4.05
90 2.10
15 80 2.10
8.96
F2
2.81
2.39
1.80
hp= 90
4.30
60
7.84
7.09 2.40
8.21
90 2.10
DORMITOR MATRIMONIAL
1.88
1.61
15
1.90 hp= 60
90 1.80
1.00
90 1.80
hp= 60
38 1.12
8.58 m2
CA:
3.91
U-12
4.24
3.06
4
5
3
2
1
CA: 3.53 m
HOL+CASA SCARII
27
S2
S2
20O
20O
+7.43
1.20
1.30 7
3'
25
3' 90 2.10
8
6
2.20
BAIE
4.04
U-12
15
CA: 3.58 m2 U-14
2.53
3
2'
80 2.10
1.66
Baie
25
25
3.92
9
5.37
2.35
1.71
2
2
4
11.45 m2
CA:
2.07
50
F4 25 11
12
13
25 90
U-12
9.12 m2
CA:
90 2.55
3.74
3'
10
15T x 28
89 16CT x 18 1.10
16
15
14 U-12
96
7.09
Dep CA: 2.41 m2
3.92
60 60
F
80 2.10
hp= 60
90 1.80 7.09
7.84
F2
80 2.10
HOL+CASA SCARII
S2
4
4
1.30 32
38
80 2.10
4.03
26.68 m2
3
1.00
hp= 90
1.80 1.50
hp= 1.80
3.08
2.81
U-12
1.10
1.50 2.10
CAMERA DE ZI CA:
60
1.10
DORMITOR
10.99 m2
CA:
U-12
90 1.80
Invelitoare terasa
+5.77
DORMITOR COPIL
BUCATARIE CA: 11.56 m2
4.30
4
4
hp= 1.05
U-12
hp= 60
90 1.80
40 90 1.80
38
70
38
3.92
1.80 1.50
1.30
38
1.30
15O
+5.77
1.80 1.50
1.48
5 15O
10.04
3.22
70
45
+2.81
5
5 15O
4.30 15O
1.50 1.35
77
4.00
2.70
2.70
2.70
2.50
4.30
4.79
4
terasa acoperita
2.88
4.00
15O
Perete h 2.80m
4.70
2.88
5
5 4.05
15O
5
+2.81 15O
8.78
9.14
A
11.72
11.66
9.02
8.96
11.66
C2
C
S1
S1
S1
8.78
MICESTI HOUSE UNITS1 GROUND FLOOR AT 1:50 GSPublisherVersion 0.17.100.100
GSPublisherVersion 0.17.100.100
MICESTI HOUSE UNITS1 FIRST FLOOR AT 1:50
Following the work produced for the Craiovei Reisdence Complex, the director and primary architect of the practice tasked me to develop new interior renders for two different Housing Units which are part of a Housing Complex in Micesti, Romania.
7.43
7.26
Limita proprietate- VDrum
7.43 7.43
MICESTI HOUSE UNITS1 ROOF PLAN AT 1:50
GSPublisherVersion 0.17.100.100
Limita proprietate E
Limita proprietate S
Limita proprietate N- C2
4
5.77
5.77 60
4
5.20
3.68 5.77
5.20
5.77 5.20
5.20
4.89 1
3 3
3
3.88
1
3
3
3.88
3.57 2.88
2.40
2.40
2.40
2.88 1.12
4.38
2.40
2.81 8.96 fereastra fixa, geam mat
5.50
3
2
3
3
5
1.30 2.80
5
3.92
2
0.00 -0.45
-0.45
11.66
2
0.00 -0.45
0.00
Perete h 2.80m
terasa acoperita
3
0.00 -0.45
FATADA LATERALA
FATADA PRINCIPALA
F1 SW ELEVATION
F2 WE ELEVATION
GSPublisherVersion 0.17.100.100
GSPublisherVersion 0.17.100.100
MICESTI HOUSE UNITS1 FIRST FLOOR INTERIOR RENDER S2
5.88
5.87 2
3
3
150
2.16
150
+6.16
2
150
F4
30
+6.16
2
4.50 60 90
60 90
1.35
1.35
10
F-16
balcon
F2 4'
perete h 2,00m
1.29
20
60 90
1.70
43
60 90
3.17
11.86
5
8.52 +5.98 9.43
3.60
4.65
4.49 8.08
F1
5
0.61
50 30
3.60
5.35
5.35
4'
150
1.31
1.80 1.50 3.64 3.90
5.35
5.35
11.86
10.49
9.14
3.04
U-05
2.13 hp= 1.50
3.60
5
B
A
F1
C
B
A
C
C
S2
MICESTI HOUSE UNITS2 ROOF FLOOR AT 1:50 LIMITA DE PROPRIETATE - S
LIMITA DE PROPRIETATE - N (C2)
MICESTI HOUSE UNITS2 ROOF PLAN AT 1:50 S2
MICESTI HOUSE UNITS2 GROUND FLOOR AT 1:50
S2
B
A
4
+7.21
2.00
15
F-17
1.80 1.50
1.40 31
3.60
4
S1
4.65
1.20
30
9.22
8.08
3
150
CA: 4.25 m2
43
25
70 2.10
hp= 90
30
5
5
S1
BAIE
80 2.10
92
12.76 m2
U-13
43 1.35
92
1.35
perete h 2,60 m
50
3.60
1.30
1.35
CA:
4'
1.35
60 90
60 90
F-18
8.29
90 90
60 F-15
40
60 F-15
hp= 1.50
DRESSING
2.13
U-05
5.19
2.40
2.94 30
2.47
4.48
F1
65
90 2.10
1.19
15 90 2.10
hp= 1.30
3.18
3.90
60 90
+7.24
150
DORMITOR hp= 1.50
1.50 2.10
43
hp= 1.50
3.74
S1 fereastra fixa, geam mat 4
3.63
3.75
1.47
60 90
1.98
9.75 m2
CA:
15
U-05
15
acces intrare 3.60
1.80 1.50
1.28
12.09 m2
90 2.10
90 2.10
1.98
30 U-05
hp= 1.51
1.98
2.30
1.30
1.80 1.50 3.63
F2
3.64
3.64
3.90 10.49
2.25 9.64 60 90 F-16
8.29
9.14 10.49
2.25
60 90 50 60 90
F-15
HOL+CASA SCARII
CA: 4.54 m2
3.49
12
11
9.22
2.66
80 2.10
BAIE
U-07
30
30
5.35
5.35
0.60
4
10 1.74
2.13
40 U-06
3.51
S1 fereastra fixa, geam mat
60 90
CA: 2.77 m2
hp= 90
1.40
Invelitoare terasa
+5.98
U-06
15
15
U-08
CA: 3.10 m2
25
F-15
hp= 1.50
60 90
1.30
S1
4
BAIE
CA: 12.63 m2
5.09
10
13
15
14
16
4.38
25
90 2.10
3.64
DORMITOR CA:
F
90 2.10 U-12
1.98
1.98 16CT x 18 15T x 28
hp= 1.50
hp= 60
60 90
9
BIROU
9.22
6.58
150
13.18 m2
CA:
6.03
90 1.80 50 90 1.80
11.65 m2
8
2.25
2.33
7
10.49
6
5
4
3
2
1.98 2.55
80 2.10
5
1
+5.98
3
CA:
9.22
3.75
3.63 DORMITOR
U-07
15
HOL+CASA SCARII
4
+2.28 150
9.43
8.54 1.30
F2
30
4.70
3.90
4.50
3.63
3.34
U-06
1
S1
+2.28
1
3.34
3 90 1.80
Limita proprietate
CA: 12.09 m2
3.64
3
43
1.60
hp= 90
BUCATARIE
3.91
hp= 60 hp= 60
90 1.80
90 1.80
2
2
1.80 1.50
hp= 90
9.24
1.30
1 3.60
7.23 1.29
1.80 1.50
C
6.53
U-12
21.34 m2
50
3.90
90 1.80
6.57 2.16
1.60
hp= 1.20
150
8.08 3.90
31
1.80 1.50
21
80 2.10
80 2.10
1.70
F4
53
U-14
CAMERA DE ZI CA:
1
perete h 2.00m
1.50 1.20
1.00
2.16
2.70
1.50 1.20
1.80 1.50
25
30
80 2.10
1.73
2.70 2.10
1.00
9.24 2
1
3.60 80 2.10
B
A
C1
F3
6.53
9.28
terasa acoperita
6.40 8.08 3.90 2.73
Limita proprietate
C
F3
8.08
30
9.28
S V
1
B
A
C1
F4
E N
Limita proprietate
F3
150
C
6.58
B
6.57
A
C1
S2
S2
MICESTI HOUSE UNITS1 GROUND FLOOR INTERIOR RENDER
LIMITA DE PROPRIETATE - N (C2)
LIMITA DE PROPRIETATE - S GSPublisherVersion 0.15.100.100
GSPublisherVersion 0.15.100.100
7.24 GSPublisherVersion 0.15.100.100
7.24
5.98 5.98
5.98
60
5.98
61 5.20
5.20
5.20
5.20
5.20 4.80
3.80
2.84 2.80
9.22 2.14
2.84
9.24
1.30 2.28
1.30
2.40
2.28 2.10
2.20
0.00
0.00
-0.45
-0.45
2.10
0.00
0.00
-0.45
-0.45
Fatada principala
F1 WS ELEVATION
Fatada posterioara
F3 NE ELEVATION GSPublisherVersion 0.15.100.100
GSPublisherVersion 0.15.100.100
LIMITA DE PROPRIETATE - V
LIMITA DE PROPRIETATE - E LIMITA DE PROPRIETATE - E
7.24
LIMITA DE PROPRIETATE - V
7.24 7.24
5.98
7.24
5.98 5.98
5.20
5.98
5.20 5.20
4.80
fereastra fixa, geam mat
Perete h 2,00 m
5.35
2.80 2.40
5.35
2.40
2.28
2.40
2.28
6.58 fereastra fixa, geam mat
0.00 -0.45
Terasa acoperita
0.00
0.00
-0.45
-0.45
MICESTI HOUSE UNITS2 FIRST FLOOR INTERIOR RENDER
F2 WN ELEVATION
0.00 -0.45
Fatada laterala
Fatada laterala
MICESTI HOUSE UNITS2 GROUND FLOOR INTERIOR RENDER
2.40
6.57
Terasa acoperita
Perete h 2,60 m
2.40
F4 SE ELEVATION
GSPublisherVersion 0.15.100.100
GSPublisherVersion 0.15.100.100
Besides developing the interior renders of the ground and first floors of the two units I was also tasked to modify the current floor plans of each unit to comply with the new approved documents. The difference between each unit is made by the size of each house, Unit 2 being lager than Unit 1.