Paratchanan's Professional Career Portfolio l 2014 - 2019 by Min Paratchanan

PAR ATC HANAN M O N G KO L R AT H MA N E E PROFESSIONAL AND ACADEMIC PORFOLIO 2014 - 2019

PARATCHANAN MONGKOLRATHMANEE 494 SOI SATHORNTHIP, SATHUPRADIT RD. BANGKOK, THAILAND 10120 Mobile Numer: (+66) 87-071-9636 M.PARATCHANAN@GMAIL.COM Email: Address:

Linkedin: Date of Birth: Ncikname:

https://www.linkedin.com/in/paratchanan-m/ 23-11-1991 Min

SKILLS Results-driven professional with hands-on experience in managing all aspects of architectural design within the property, residential, educational, and retail. Proven success in various fields of design, including conceptual design, architecture, and graphics. Ability to plan and execute project delivery measurements to meet the success criteria of real estate development, appraisal, and investment, and housing development management, while meeting deadlines. Demonstrated communication and presentation skills, able to build relation and manage competing demands to achieve project goals. Adept at focusing on maintaining performance through personal growth, values based leadership, and planning that recognise human dynamics. • Architectural Design & Management

• Project Governance & Control

• Team Building & Leadership

• Digital & Physical Modelling

• Consultancy & Advisory

• Client Relationship Management

• Quality Assurance & Compliance

• Strategic Planning & Analysis

• Issues & Conflicts Solution

CAREER EXPERIENCE Quintrix Architects Co. Ltd, Thailand — Architect November 2014 - August 2018 • Credited with conducting detailed integration of programme through the collaboration in meetings with consultants and developers regarding feasibility analysis of functions, areas, and layout within the development. • Implemented masterplan and building designs along with ensured the project adherence to the local building codes and the client ‘s requirements, deadline, and budget restraints. • Recognised for incorporating BIM (Revit), Naviswork, BimTrack, and Rhinoceros to identify and resolve complex design and coordination issues with all consultants. • Explored key areas of improvements and clarified projects’ issues by attending meetings with local authorities, while drafting environmental impact assessment (EIA) reports and drawings for construction; leading on-site work

Freelance, Thailand — Architect January 2015 - Present • Devised the feasibility analysis, design development and key statements, and consolidated its items in compliance with local building codes, planning framework, and the client’s criteria • Delivered competent professional consultancy and solution to the complex design and construction issues by utilising Rhinoceros and AutoCad in coordination. • Conducted reports and technical drawings packages for submission of building permit, and presented architectural 3D rendering to ensure client satisfaction in architectural space and mood.

Design Team 3 Co. Ltd, Thailand — Internship October 2014 • Analysed the project feasibility, areas and functions to develop the architectural and interior layouts for high-rise residential buildings in Sri Lanka. • Incorporated SketchUp to explore the design solution and visualisation of 3D spaces. • Created drawings and diagrams to convey graphic information for the project presentations. ii

EDUCATION University College London, UK — MSc International Real Estate and Planning with Merit September 2018 - September 2019 l Bartlett School of Planning

Chulalongkorn University, Thailand — BSc International Program in Architectural Design with 2nd Class Honour August 2010 - September 2014 l Faculty of Architecture

University of Idaho, USA — Exchange Programme August 2013 - December 2013 l Department of Architecture

Ekamai International School, Thailand August 1999 - May 2010 l College Preparatory Diploma in Science

VOLUNTEER EXPERIENCE Assistance Architect, M.K.S. Engineering Co.Ltd — Ubonrat Hospital: Ward l Khon Kaen, Thailand July - Aug 2014 Architectural Student, Chulalongkorn University — Huay Kwang Community Pier l Bangkok, Thailand June - July 2013 Workshop Participant, Energy Meet Cooperation — Floating Energy Station (FloEs) l Bangkok, Thailand June - July 2011

OTHER EXPERIENCE Tutor, Weekend Studio — Fundamental Architecture for Prospective Undergraduates 2015 - 2017

LICENCES & CERTIFICATIONS

TECHNICAL PROFICIENCIES

Argus Developer CPD by Altus Group

Revit, Rhinoceros, SketchUp, AutoCAD, 3dMax, ArcGIS

Argus Enterprise CPD by Altus Group

Photoshop, Illustrator, InDesign, Microsoft Office,

Registered Architects by Architect Council of Thailand

Argus (Fundamental)

Revit Architecture 2015 Fundamentals by M Techonologies (Autodesk) Degree Show 2014 byThai Health Promotion Foundation

LANGUAGES

INDA Best Thesis Award by Chulalongkorn University

English and Thai iii

PA RATC H A N A N M O N G KO L R AT H M A N E E PROFESSIONAL AND ACADEMIC PORFOLIO 2013 - 2019

CONTENT CRIX CONDOMINIUM HIGH-RISE RESIDENTIAL PROJECT

MEGA BANGNA SHOPPING CENTRE

2016 - 2018

BUILDING-H: RETAIL PROJECT

CRIX SALE GALLERY

VARITHORN BOUTIQUE FLAGSHIP STORE

OFFICE PROJECT

2015

2017 - 2018

INTERIOR PROJECT

ST. ANDREW INTERNATIONAL SCHOOL

MONASTIC WARD BUILDING

EDUCATIONAL PROJECT 2015 - 2017

2015

CHARITY: INSTITUTIONAL PROJECT 2014 - 2016

S.E. BEACHFRONT R & B

MINING REMINISCENCE

INSTALLATION PROJECT

UNDERGRADUATE THESIS PROJECT

2015 & 2016

2014

KIAN GWAN WELCOME PAVILION

SUSTAINABLE BUILDING ADAPTATION

COMMERCIAL PROJECT

POSTGRADUATE DISSERTATION

2014 - 2016

2019 v

QUINTRIX ARCHITECTS

52th FLOOR: PRIVATE SOCIETY ROOMS

7th FLOOR: BLUE CLUB AND SWIMMING POOL

G FLOOR: DROP-OFF AREA

CRIX CONDOMINIUM Location Client Collaboration Gross Floor Area Parking Project Type Status Year

::: Citterio-Viel + Partner : 83,660.50 sq.m. : 580 : High-rise Residential :: 2016 - 2018

Software Project Role

: Revit (BIM) : Architectural Design Consultant : Designer / BIM Modeller

Development Responsibility:

Project Description:

- To conduct the detailed coordinations in architecture, structure, facade, MEP and landscape items with the chief architects from Italy, local consultants and client in accordance with project criteria and local codes.

The CRIX is a residential development consisting of tower, podium and parking building. With its site configuration, the internal organisation and cores of CRIX tower have been influenced by the turbulence analysis for high-rise structures and local building codes. The form of CRIX tower is inspired by the Tillandsia Cyanea, which rosette of the unit are overlapped to enhance vista and spaces.

- To review and give advice on the building functions, area calculations and internal organisation of space together with developed solutions for technical integration. - To develop Structural and Landscape Revit BIM models with local consultants for coordinations. - To produce drawings and documents for EIA, tender, construction submissions - To attend meetings with client and other consultancies.

This 54-story tower has integrated not only residential, but also facilities floors for public and private uses. The main lobby, juristic and co-working areas are located on the ground floor, while swimming pool, outdoor lounges, fitness and other indoor facilities are located on the 7th floor. There are 18-unit types in residential floor, which are only varied due to different structural and MEP elements.

MASTER PLAN - CIRCULATION DIAGRAM VEHICLE CIRCULATION OUT

VEHICLE CIRCULATION IN

QUINTRIX ARCHITECTS

PEDESTRIAN CIRCULATION

TOWER: GROUND FLOOR PLAN (FACILITIES)

TOWER: 7TH FLOOR PLAN (FACILITIES AND RESIDENTIAL)

PODIUM

TOWER

PARKING

STACKING PLAN

TOWER: 9TH - 51TH FLOOR PLAN (RESIDENTIAL) - 52TH

- 9TH - 7TH - GTH

TOWER: 52TH FLOOR PLAN (FACILITIES AND RESIDENTIAL)

G FLOOR: DROP-OFF AREA

SECTION DIAGRAM

G FLOOR: MAIN LOBBY

TYPICAL RESIDENTIAL FLOORPLATE

BRIDGE CONNECTION: PARKING TO TOWER

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GROUND FLOOR PLAN

PODIUM: 2ND - 6TH FLOOR PLAN (PARKING)

PODIUM: 7TH FLOOR PLAN

54TH FLOOR: ROOFTOP GARDEN

PODIUM: AXONOMETRIC MODEL

PODIUM: AXONOMETRIC SECTION

PODIUM: PARKING + FACILITIES

REAR PARKING BUILDING

UPPER TOWER SECTION (52TH -54TH FLOOR)

MAIN (FIRE) STAIRS 01

UPPER TOWER: AXONOMETRIC SECTION

On the 52th floor, the sky lounge, spa and entertainment rooms are situated on the same level as residential units, which provide convinient access to the rooptop garden on the 54th floor. Green areas and vegetations are evenly integrated in the form of green facades and landscape features on the rooftop, or facilities floors, of the podium and rear parking as well as ground level. 4

TOWER: 52TH FLOOR PLAN (FACILITIEES)

TOWER: 54TH FLOOR PLAN

MAIN (FIRE) STAIRS 02

52TH - 54THFLOOR

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52TH FLOOR: SKY LOUNGE

52TH FLOOR: SPA

49TH - 52THFLOOR

FACADE: RESIDENTIAL LEVEL

9TH FLOOR

7TH FLOOR: FITNESS

7TH FLOOR: INDOOR POOL

G - 7TH FLOOR

TOWER: AXONOMETIRC SECTIONS

G FLOOR: MAIN LOBBY

G FLOOR: CO-WOKRING AREA

The CRIX Condominium fully utilised Revit BIM at all stages of the design development to effectivetly generate and coordinate building information. Such implementation reduces errors of work due to its ability to stimulate greater collaboration amongst team members and contributes to design visualisation, systems coordination, scheduling and documentations.

REAR PARKING: AXONOMETRIC MODEL

REAR PARKING: AXONOMETRIC SECTION

This project also uses Naviswork to detect crashes within the models to prevent errors at construction phase

STRUCTURAL BEAM PLAN

TOWER: CORRIDOR SECTION

QUINTRIX ARCHITECTS

CRIX SALE GALLERY Location Client Gross Floor Area Parking Project Type Status Year

::: 460 sq.m. :5 : Temporary Office :: 2017 - 2018

Development Responsibility:

Softwares

: Revit (BIM) : Grasshopper : Rhinoceros : Architectural Designer : BIM Modeller

- To attend meetings and conduct thorough coordination of architecture, structure and MEP for interior spaces.

Project Role

- To develop design concept, intents and strategies, and key outlines, in which reflect the characteristic of CRIX Tower and client requirements using Revit BIM. - To integrate all outstanding building functions, areas and internal organisation according to project criteria.

- To finalise technical details and choices of finishes for building shell with client and all consultants. - To create and adjust Revit model and set of drawings for presentation, valuation and construction package.

Project Description: CRIX Condominium: The challenge lies in the context where the property is endlessly long, yet narrow. To promote oneâ&#x20AC;&#x2122;s absolute intimacy with linkage toward cityscape, CRIX tower is designed to form a petal-liked outline where no facade is aligned with one another. 6

Angular profiles not only enhance the visibility toward the surrounding context, but also provides better quality of space to become more dynamic and as a consequence. CRIX Sale Gallery: The feature of rotational cube has underlined the linkage of angular design to keep the relationship between the CRIX Tower and its Sale Gallery based on the four keywords: angular, vista, symbolic and connectivity CRIX Sale Gallery is strongly influenced by the idea of an angle as the site will be enclosed by construction barriers and not much view to be taken. Regarding this matter, the concept of dynamic freeform-shaped poses the advantages in terms of lighting, cast shadows and uniqueness of spaces that can bring about the exciting environment to be shared and enjoyed. The programme consisted of two floors; welcoming level and exhibition areas. It allows the creation of a journey under the open skylight, together with the exposition and sequence of spaces that lead to the show units. It is intended to design a dynamic dwelling space where people can feel free to roam around. Thus, it creates not only a programme in a confined space, but also a define experience for future customers.

SIDE C, Glass Gap

SIDE D, ALU. Gap

SIDE B, ALU. Gap

ROOF PLAN

SIDE A, Glass Gap

Void

GLASS RAILING

Void

F2 FFL +5.15

GLASS RAILING

Void

See A-906

EXHIBITION ROOM F2

See A-601

FFL +5.15

F2 FFL +5.15

Bathroom

Bed Room

BUILDING SHELL: AXONOMETRIC MODEL

Void F2 F2 FFL +5.15

WEST FACADE

See A-602

Living Room

Master Bedroom

Living Room

Void

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DN ST01

Master Bedroom

VIRTUAL ROOM F2 FFL +5.15

Laminated Glass (6+6mm) GLASS RAILING

Laminated Glass (6+6mm)

EXPLODED STRUCTURAL MODEL

Aluminium Cladding (4mm) Alucobond - Terra Pyrite #385

2ND FLOOR PLAN

Aluminium Composite Alucobond -Terra Pyrite #385 (4mm) Aluminium Cladding (4mm) Alucobond - Terra Pyrite #385

STORAGE F2 FFL +0.55

TOILET HER F2 FFL +0.55

RESTROOM F2 FFL +0.55

Aluminium Composite Alucobond -Terra Pyrite #385 (4mm)

TOILET HIM F2 FFL +0.55

Laminated Glass (6+6mm)

JANITORS F2 FFL +0.55

PARKING F1 FFL +0.15

UP ST01

OFFICE F2 FFL +0.55

See A-401

EXHIBITION HALL F2

FFL +0.55

Aluminium Cladding (4mm) Alucobond - Terra Pyrite #385

LOUNGE F2 FFL +0.55 ENTRANCE

LANDSCAPE

See A-601

FFL +0.55

FFL +0.15

Laminated Glass (6+6mm)

See A-603

LANDSCAPE F1 FFL +0.15

( INSIDE ) +0.25m

ENLARGED BUILDING SHELL

AXONOMETRIC SECTION

GROUND FLOOR PLAN

The CRIX Sale Gallery implements a combination of Revit BIM and Grasshopper in the delivery of design development and drawings package. The Grasshopper allows parametric experiments for architectural form and geometry. It simplifies method of fabrication and reduces errors and waste in the construction phase. A final parametic massing is integrated and coordinated in Revit BIM with the structural and MEP systems and interior to create dynamic, yet friendly space.

SCRIPTS IN THE GRASSHOPPER 1

9 10

25315 3300

1730

1559

2452

2348

2699

485

2215

2874

1642

FFL+13.95

Top of building

FFL+13.95

5352

Top of building

SG ROOF PLAN

+8.85 +8.45

DR03DR03

EXHIBITION ROOM DR03

SHOW UNIT 2A REFER TO INTERIOR DRAWING

9000

FFL+8.60

Technical Floor

13802

SHOW UNIT 1C REFER TO INTERIOR DRAWING

3450

Technical Floor

FFL+8.60

3450

+8.50

Green +5.15

2 FL

+5.15

FFL+5.15

2nd FLOOR PLAN 5150

2 FL

FFL+5.15

DR02

OFFICE

Close Sale Area PARKING

8480

LONGTITUDINAL SECTION

Road Level

FFL+0.55

4600

SG GROUND FLOOR PLAN 550 Floor +0.0 FOUNDATION PLAN 0 -200

1 FL

FFL+0.55

400

1 FL

+0.15

3600

100

3720

3400

100

EXHIBITION HALL

11455

2700

100 +2.14

+0.50

4400

4600

+3.73

FFL+0.00

Road Level

FFL+0.00

QUINTRIX ARCHITECTS

BEFORE The dormitory building, Building 1, 2 and 8 is anticipated to be demolished to maximise outdoor area for students

AFTER Demolition Renovation Open Space

The demolition creates additional open space, which maximise school internal space while external space such as car park

ST. ANDREW INTERNATIONAL SCHOOL BANGKOK SRIVIKORN CAMPUS Location Client Site Area Open Area Gross Floor Area: Project Type Status Year

: Bangkok, Thailand : Nord Anglia Education :16,690 sq.m. :10,190 sq.m. : 23,000 sq.m. : Education : Completed : 2015 - 2017

Software

: Revit (BIM) : AutoCAD : Rhinoceros : Architectural Designer

Project Role

Development Responsibility:

Project Description:

- To develop the design strategies, intents and functions in accordance to the client and operator requirement with respect to local building code for redevelopment project.

Nord Anglia Education aims to redevelop the existing Srivikorn Campus into a premium international school, where all the needs of students and communities are met in the secure, effective learning and teaching environment that nurtures high academic performance.

- To conduct the detailed coordinations of architecture, structure, MEP, landscape, lighting and traffic with all consultants for effective design outcome and minimise errors in the redevelopment site. - To attend weekly meeting during design development and construction phase with the clients, consultants and construction team for design solution and on-site issues. - To create 3D model and drawings sets for all packages.

The redevelopment will support middle and high school students between year 7 to13. The new school has been overhauled to comply with British school standards and global vision as followed; (1) demolition of existing two fore building due to structural issue, (2) partial demolition of Building-C due to functional issue, (3) renovation of Building-A, B and C.

RUSH HOURS (VERTICAL)

EMERGENCY ROUTE

SPACE CONNECTION

BUILDING CONNECTION

CIRCULATION AND CONNECTION FLOW Internal ciuculation is kept at minimum to reduce travel time around the school. The route is designed to create a sense of journey and interest by surrounding both side of the walkway with community areas.

COMMUNITY AREA + SOCCER FIELD

OPEN SPACE FACILITIES

BUILDING-A: DROP OFF AREA

Drop-Off

MASTER PLAN

COVERED WALKWAY AND FENCING DESIGN

SWIMMING POOL Swimmer Access

MAIN DROP-OFF AREA

MULTI-SPORT GROUND

FOOTBALL PITCH AREA

8 3

6 7

WALKWAY(SECURITY LINE)

MULTI-SPORT AREA / FOOTBALL

ANTI-VISION

ANTI-CLIMBING

OUT

STAFF & SERVICE IN-OUT

OUT

STAFF & SERVICE IN-OUT

322/ '(&.

08/7, 63257 *5281'

322/ '(&. :$/.:$<

)227%$//

SWIMMING POOL / FOOTBALL

Drop-Off 2. Building A Building A 3. Building B Building B 4. Building C Building C 5. Changing Room Changing Room 6. Swimming Pool Swimming Pool 7. Multi-Sport Area(Tennis, Multi-Sport Area(Tennis, Basketball, Volley BallBasketball, Volley Ball Football Pitch 8. Football Pitch Running Track 9. Running Track Additional Parking 10. Additional Parking Additional Multi-Sport Area 11. Additional Multi-Sport Area

1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11.

BUILDING-B: COVERED WALKWAY

The redevelopment creates additional open space, which maximise school internal spcaes, while minimise external spaces such as car park. A large open space is utilised as additional learning ground for extracurricular activities outside conventional classes hours. All buildings have been linked by open spaces and green covered-way for better security.

)227%$//

MAIN DROP-OFF AREA

QUINTRIX ARCHITECTS

REGULAR HOURS

BUILDING A This 7-story building acts as a front gate of the school. It is a check point that brings the students, staffs and visitors in and out the redevelopment. The community space links the flow from drop-off area to the Student Resource Centre, where contemporary workspaces suited for reeading, self-study and media suites for an access to e-sources. The facade of Building A has been renovated as well as provision of new classrooms, drame-dance studio, music rooms and auditorium.

QUINTRIX ARCHITECTS

Ground Floor / Mezzanine: Renovate the entrance and design the new Resource Centre continue to the mezzanine floor

BUILDING-A: RENOVATED FACADE

BUILDING-A: AREAS OF RENOVATION EXPLODED AXONOMETRIC MODEL

BUILDING-A: STUDENT RESOURCE CENTERE

BUILDING-A: COMMUNITY AREA

BUILDING-A: STUDENT RESOURCE CENTERE

BUILDING B

QUINTRIX ARCHITECTS

This 4-story building mainly composed of classrooms with break-out spaces for the academic and social discussion. Building-B provide not only academic study, but also wellness of students and staffs with fitness centre and gymnasium. The existing swimming pool has been demolished and converted into the double sport gymnasium that meets the standard requirement of the basketball courts and facilities. The building faรงade has been renovated in response to the renovated interior functions.

4th-5th Floor: Double the Sport Gymnasium with basketball facilities

2nd-3rd Floor: Change room layouts to create breakout areas

Ground Floor: Corridor and classrooms

BUILDING-B: RENOVATED FACADE

BUILDING-B: AREAS OF RENOVATION EXPLODED AXONOMETRIC MODEL BUILDING-B: RENOVATED FACADE

BUILDING-B: BREAKOUT AREA (FL. 02)

BUILDING-B: CORRIDOR (G FL.)

BUILDING-B: BREAKOUT AREA (FL. 03)

BUILDING-B: GYMNASIUM (FL. 04)

BUILDING C

QUINTRIX ARCHITECTS

This 5-story building with an atrium allows natural light inwards the interior space to stimulate creativiry and positive mindset to students during the school hours. The amphitheatre links the interior space throughout all levels, while the handrails around the courtyard acts as exhibition walls to display artworks and to celebrate successful stories, as well as general notifications for the students, staffs and community. The adjacent building has been demolished for better circulation and safety reason. The facade has also been renovated as the consequence to create harmony within the project.

BUILDING-C: SECTION DIAGRAM

BUILDING-C: RENOVATED FACADE

BUILDING-C: AMPHITHEATRE

BUILDING-C: IB CENTRE

BUILDING-C: LABORATORY

Elevation 02 Elevation 02

Elevation 02

4 4

Elevation 03 Elevation 03

5 5 6 5 5 6

2 2

3 3

2 2

6 6

7 7

5 6

1 1

5 6

12 6

01 Elevation 01 Elevation Elevation 01

Elevation 03

12 6 6

BUILDING-C: 1st FLOOR PLAN

BUILDING-C: 2ND FLOOR PLAN

BUILDING-C: ELEVATION 01

BUILDING-C: 3RD FLOOR PLAN

BUILDING-C: 4TH FLOOR PLAN

BUILDING-C: ELEVATION 02

BUILDING-C: ROOF PLAN

BUILDING-C: ELEVATION 03

SWIMMING POOL & CHANGING ROOMS

QUINTRIX ARCHITECTS

A 25-meter long swimming pool is provided by the school to encourage good health throught physical activity at young age. The facility is elevated above the ground level and surrounded by other outdoor sport facilities. The swimming pool is designed to meet the national standard for hosting local competition, along with its single-story facilities that includes changing room, offices and deck area, as well as seating areas to enhance learning environemnet.

2 8

8 8 8 5 4

3 1 7

6 9 7

SWIMMING POOL: GROUND FLOOR PLAN

SWIMMING POOL: SECTION

SWIMMING POOL: ROOF PLAN

SWIMMING POOL: STRUCTURAL MODEL

SWIMMING POOL: ELEVATION

QUINTRIX ARCHITECTS

S.E. BEACHFRONT R&B RESTAURANT AND BAR WITHIN STRUCTURE Location Client Site Area Gross Floor Area: Project Type Status Year Software Project Role

::: 5,070 sq.m. (Restaurant) : 1,280 sq.m. (Bar) : 1,230 sq.m. (Restaurant) : 475 sq.m. (Bar) : Restaurant : Installation : Schematic Design : 2015

Development Responsibility:

: Rhinoceros : Grasshopper : Architectural Designer

- To prepare presentations and physical models for the meetings with clients, foreign landscape designer, local architects and interior designer of the main development.

- To develop the architecturaL concept, master plan, and building outlines that comply with the client and operator requirements in term of functions, areas and mood. - To implement parametric studies of architectural forms through Grasshopper 3D modelling for efficient design. - To conduct detailed coordinations of architecture and structure with the consultant and suppliers for practicality and valuation to assess design potential.

Project Description: S.E. Beachfront Restaurant and Bar is a part of the large residential development that composed of one hotel buildings, five condominium towers and facilities areas. 14

GRASSHOPPER SCRIPT FOR WEAVING STRUCTURE

QUINTRIX ARCHITECTS MODEL OF BEACHFRONT BAR AT ASA EXPO 2016

S.E. Beachfront Restaurant and Bar is inspired by the local knowledge of the fishing tool, which weaves natural material to accommodate space. The architectural industry is moving faster with information and advanced technological tools. The weaving organic architecture challenges the norm of local construction and speed of delivery. However, the parametric design tool has mitigated the gap between technical possibility and effective design knowledge at the shell level. Similar to other architecture projects, these restaurant and bar experience inevitable changes along the

the process of design developments. Still, this shows the best balance between architecture and structure prior to the interference of other technical issues.The Beachfront project has explored the cantilevering possibility of volume, while employed the minimum number of the primary structure. The laminated member uses two timber-strips with the capacity of elastic deformation to simultaneously act in tension and compression to form a rigid structural system. The physical model of Beachfront Bar has been exhibited in the Association of Siamese Architects Expo 2016.

MODEL OF BEACHFRONT BAR AT ASA EXPO 2016

BEACHFRONT BAR

PHYSICAL MODEL OF BEACHFRONT RESTAURANT AND BAR

MASTER PLAN OF BEACHFRONT RESIDENTIAL DEVELOPMENT MASTER PLAN OF BEACHFRONT RESTAURANT AND BAR

QUINTRIX ARCHITECTS

KIAN GWAN WELCOME PAVILION Location: Client: Gross Floor Area Project Type Status Year Software Project Role

: Bangkok, Thailand : Kian Gwan Commerical Company : 4,630 sq.m. : Commercial :: 2014 - 2015 : Revit (BIM) : Rhinoceros : Facade Designer

Development Responsibility: - To develop the design concept and patterns that are aesthetically functional in respond to the client requirements. - To conduct the coordination of thermal, acoustic and material studies for the design development with the consultants. - To create digital and physical models for the study and visual presentation as well as set of drawings for all packages. 16

Project Description: Kian Gwan Commercial Company has been known for its high-quality mailroom equipment in Thailand since 1932. The company business has expanded over the past decades, which required more office space. The second office building has been built in front of the first one in 2009. However, the structural issues in the new office have caused tenant vacancy for years. Although there were several attempts for reinforcements, building inefficiency influenced the owner decided to demolish this newly built building. Instead of the conventional redevelopment of a highrise office building, the new design approach has been put forward as a welcome pavilion that is more open to the neighbouring community. The Kian Gwan Welcome Pavilion took advantages of the plot by making an open plaza to link the office spaces with a major public park on the opposite side. It will also utilise the existing foundation of the old building. The KG welcome pavilion consists of meeting areas, seminar rooms, retail shops, exhibition hall, and cafĂŠs that will be under one large floating roof. A special geometry has been applied to the ceiling to reflect activities

creating a more dynamic atmosphere. The building functions have been organised to one side, which left the other free for public use. The project hopes to lighen the street and encourage staffs and visitors to spend more time outside for better physical and mental health as well as energy sustainability of a building.

100 %

78.55%

80.99%

GRASSHOPPER SCRIPT FOR WEAVING STRUCTURE

INTERIOR ATRIUM

QUINTRIX ARCHITECTS

SEMI-OUTDOOR PLAZA

VIEW FROM 3RD FLOOR TERRACE

KIAN GWAN WELCOME PAVILION GRADIENT OF CEILING PATTERN

KIAN GWAN WELCOME PAVILION EXPLODED AXONOMETRIC MODEL

FACADE: LOUVER DESIGN Lourver design has been experimented in different shapes, sizes and gaps to analyse the temperature and internal comfort of space. SECTIONAL PERSPECTIVES

QUINTRIX ARCHITECTS

MEGA BANGNA SHOPPING CENTRE BUILDING-H DEVELOPMENT Location Client Site Area Gross Floor Area: Parking Project Type Status Year Software Project Role

: Samut Prakan, Thailand : Siam Future Development : 10,385 sq.m. : 9,200 sq.m. (Leaseable) : 27,350 sq.m. (Parking) : 1428 : Retail : Conceptual Design : 2015 : AutoCAD : Rhinoceros : Architectural Designer

Development Responsibility: - To develop the design strategies, area functions and key outlines of the new development, which enhance both users flow and parking capacity of the current shopping centre following the given project criteria. - To create digital model and sets of drawings for the visual presentation in a design competition. - To present the design proposal to respective clients. Project Description: With the growing demand of consumer visits, the Mega Bangna Shopping Centre has experienced insufficient parking capacity on the weekend, yet vastly vacant on the weekday as a norm condition of super-regional mall

in the community area. The plot-H is currently used as an outdoor parking lot with inadequate number of trees, which consequently caused the urban heat weave and unfriendly environment during the day. Initial masterplan of the new development integrated a parking building on the Plot-H, and two office towers with podium on the adjacent plot. To overcome the ongoing issues within existing development, the new scheme has been proposed to breakdown architectural scale that bring not only more pedestrian-friendly routes as a result, but also higher parking capacity at underground level. It also enhance connection between places through the provision of green plaza and anchor destinations, which attract consumers to roam around. This proposal hopes to sustains the retail strategy and revenue by maximising the shop frontages for prospective tenants as well.

GROUND FLOOR PLAN

2ND FLOOR PLAN

3RD FLOOR PLAN

QUINTRIX ARCHITECTS

BASEMENT PLAN

SITE ANALYSIS

PREVIOUS SCHEME

NEW SCHEME MASSING DIAGRAM LATITUDINAL SECTION

LONGTITUDINAL SECTION

FREELANCE ARCHITECT

VARITHORN BOUTIQUE FLAGSHIP STORE Location Client Gross Floor Area: Project Type Status Year

: Bangkok, Thailand : Varithorn Boutique : 85 sq.m. : Interior Design : Completed : 2015

Software

: AutoCAD : Rhinoceros : Interior Designer

Project Role

Development Responsibility: - To develop the design concept and internal layout that reflects the brand’s identity and client criteria, yet respect the renovation requirements for a lease. - To conduct the coordination of architecture, structure and MEP with the consultants for a thorough design. - To create digital model and sets of drawings for design meetings and submissions. - To provide the construction site supervision. Project Description: Varithorn Boutique is renowned as a Thai fashion brand that features a collection of stunning dresses and clothes

adorned with artistic screening technique, quality laces and embroidery details. Varithorn Boutique explores the definition of luxury femininity, which manifests through a variety of unique cutting and fabric selection in the different seasonal collection. This new flagship store has presented Varithorn retail space following the design concept of “walk-in closet” by creating an experience as if the consumer is choosing the clothes from her room. At the entrance, a short walkway acts as a welcoming space that displayed a different style of clothing on a simple black railing. The interior layout pushes the cloth railing towards the two walls, where the creamy brown curtains highlight the displayed collection. The choice and organisation of furniture that has been selected aim to stimulate the environment of a home, and respond to women’s behaviour during the fitting period.

FREELANCE ARCHITECT

GROUND FLOOR PLAN

GROUND FLOOR PLAN 21

FREELANCE ARCHITECT

MONASTIC WARD BUILDING UBONRAT HOSPITAL Location Client Site Area Gross Floor Area: Project Type Status Year

: Khon Kaen, Thailand : Ubonrat Hospital : 1,260 sq.m. : 1,390 sq.m. : Institutional : Completed : 2014 - 2016

Software

: AutoCAD : Rhinoceros : 3D Modeller : Graphic Illustrator

Project Role

Development Responsibility: - To create and develop 3D models for an inspection of any technical, function and aesthetic issues prior to the package submission and construction phases. - To conduct coordination of architecture, structure and lighting with the designers for visualisation in accordance to the changing project criteria. - To prepare physical models using laser-cutting method. Project Description: The Monastic and Executive Ward Building is a new building typology that emphasised on a concept of green

architecture in Khon Kaen, Thailand. The objective of a monastic ward building is to provide adequate rooms for prospective patients who used to have medical treatments in a very dense environment. It replaced the existing ward building that have been used for more than 30 years with a six-story building, which will provide over 60 rooms for patients. However, as the charity project, the design proposal has been modified to comply with the actual project budget. This medical facility sustainably generates electricity and hot water through the use of photovoltaic and solar energy. It not only has become an ideal development model for another neighbourhood in the Northeast provinces, but also provide opportunities for disabilities to generate incomes by hiring them.

FREELANCE ARCHITECT

FRONT PERSPECTIVE

GROUND FLOOR PLAN

astic and Exclusive Ward Building is a six-story building that aims to provide 60 rooms for patients. However, the ﬁnal design for Ubonrat Hospital has consisted only 17 V.I.P rooms and 3 monastic . This health care institution generates electrical energy and hot water within the patient’s room through the use of High Concentrated Photovoltaic (HCPV) / Combined Heat & Power (CHP) solar energy, ctor, mounted on a dual axis tracker that concentrates incoming solar power onto a receiver: electrical power and thermal power.

4 1

3 7

8 1

1 9

1 1 2 3 4 5 6 7 8

UNIT LAYOUT PLAN

V.I.P Room Monastic Room Ofﬁce Restrooms Service Room Meeting Room Nurse Room Garden

SECOND FLOOR PLAN 0

meters

2ND FLOOR PLAN

WARD INTERIOR

Ubonrat Hospital strongly focuses on the well-being of their patients by featuring the natural elements of sky and earth to the design. Each unit has integrated large window that allows sufficient sunlight into the ward, and displaus green vegetations along the railings of balcony. The shared rooms have been replaced with private patient’s rooms, which creates a healing environment where patients can rest well for rapid recovery. A single corridor maximises the use of natural ventilation and light for energy efficiency. The remaining available spaces within the development are used for organic vegetation, in which the products later be served to patiens and be sold to vistors to support the hospital’s Herbal and Vegetation Project.

FRONT ELEVATION

SECTION

SIDE ELEVATION

BACK ELEVATION

UNDERGRADUATE LEVEL

MINING REMINISCENCE THE ART OF MEASURING EXCAVATION Location

: Tako Pi Thong Mine, Ratchaburi

Academic Level : Undergraduate Degree University : Chulalongkorn University Course: : BSc in Architectural Design (International Program) Instructor : Yarinda Bunnag Project Type : Architectural Installation Year : 2014 Software

: Rhinoceros : ArcGIS

Project Description: The norn of mining processes create various desctructive impacts on the natural environment before, during and after the operations. Apart from the physical impact of extractive activities, the contamination of land water and air quality may result as well. To overcome exaggerated assumption, it is essential for the publics to understand the impacts of mining operation in a more experiential way in parallel with the growing environmental concerns. â&#x20AC;&#x153;How architecture can pronounce the impacts of mining; and become the didactic tools of measure and record that creat a better understanding of environmental impact.â&#x20AC;? Mining Reminiscence have turned an old mine of Tako Pit Thong into a school where mining site will be used as

a test ground for education in experimenting the new techniques and componenets in extractive activities, which can be used in developing efficient mining. The master plan layouts the facitiies such as the observatory tower, station, dormitory and common areas for further development. The measuring devices are developed to assess the impact of mining operation and translated these scientific data into visual arts, which can easily be understood by both professionals and general publics. As the landscape arts, these devices focus on measuring the dust particle, noise pollution and solid waste during the blast to visualise the impact in different scenarios to raise optimism in this industry. The system also works as an archive where it bring back of marks and measurements.

UNDERGRADUATE LEVEL

TYPE OF MINING TECHNIQUES

MINING PROCESSES: ANALYSIS ON THE IMPACT OF MINING OPERATION

MASTER PLAN

The site of Tako Pit Thong is an old open-pit mine that creates least environmental impact on deforestation, loss in biodiversity, water contamination , and aire-noise pollutions. Daily mining actitivties create the phenomena of particles in air, noise pollution and solid waste from fly rocks that can be accumulated over time, which lead to health and environmental issues.

OPTIMUM SAFE DISTANCE A predicted maximum safe distance from the effect of air blasting at the charge weight of 235 kg/delay

(x) m. : 180 m.

(2x) m. : 180 m.

(4x) m. : 180 m.

TRAVEL DISTANCE OF BLASTING PARTICLES Blasting Length (m.) : Travel Distance (m.)

20 m. : 50 m.

40 m. : 100 m.

(x) m. : 2.5(x) m.

TRAVEL DISTANCE OF DUST Maximum travel distance of dust as a function of blasting length

20 m. : 50 m.

40 m. : 100 m.

(x) m. : 2.5(x) m.

TRAVEL DISTANCE OF FLYI ROCK x = Number of explosive or delay

The impact of mining operations resulted from; (1) topsoil removal; (2) drilling; (3) blasting; (4) removal of overburden; (5) loading minerals to the processing plants. The two types of plants widely use are crushing and separation plants. Here, the level of noise pollution range between 80 - 120 dB, where blasting is the loudest source. The dust particles are ranged between 0.1 - 0.5 mg/cum, which the acceptable standards in Thailand is at 0.3 mg/cum. 25

UNDERGRADUATE LEVEL

FLOW OF ENERGY, DATA AND LIGHT

OSCILLATION OF LIGHT

OSCILLATION OF LIGHT INSTALLATIONS

SOUD LEVEL COMPARISON

TECHNICAL APPARATUS

MEASURE: LEVEL OF FREQUENCY

MEASUREl LEVEL OF NOISE

Sensing and Feedback of OSCILLATION OF LIGHT Sensing and Feedback of OSCILLATION OF LIGHT

Sensing and Feedback of OSCILLATION OF LIGHT

DUST BARRIER Dust get filter through the special sheets, in which the photovoltaic sheets capture the amount light that shine through the areas that has no dust accumulation. TECHNICAL APPARATUS

FLOW OF ENERGY, DATA AND LIGHT

The device also reproduce the electricty as a light source, emitting the ray for landscape art installations.

FIELD INSTALLATIONS

DEVICE FLEXIBILITY AND INTERACTION

FLY ROCK SCALE INSTALLATION

FLY ROCK SCALE

PLAYBACK The glowing fiber responds to the surface being hitted by the fly rock, indicating the size and direction of projectile. OPERATION The Fly Rock Scale respond to the amount of rocks it hold by relocation of the supporting base, which will effect the heigth and caused the structure to expand its frame

DEVICE INTERACTION

TECHNICAL APPARATUS

UNDERGRADUATE LEVEL

FLOW OF ENERGY, DATA AND LIGHT

RATIONALE IN DECISION-MAKING PROCESS FOR SUSTAINABL BUILDING ADAPTATION:

POSTGRADUATE LEVEL

A PERSPECTIVE OF PROPERTY STAKEHOLDERS IN THAILAND Academic Level : Postgraduate Degree University : University College Lonson Course: : MSc in International Real Estate and Planning Supervisor : Howard Cooke Paper Type : Dissertation Report Year : 2019

ABSTRACT Purpose:

Practical Implications:

The City of Bangkok seeks to increase sustainability awareness in the real estate industry as anthropogenic activities in the built-environment causes environmental degradation and high energy consumptions. The growing building footprints theoretically hinder potential sustainability development. Nearly 5 million m2 of vacant and abandoned buildings in Bangkok real estate market offer opportunities for the adaptation in extending the building life cycle. This dissertation aims to investigate sustainable building adaptation (SBA) in Bangkok, emphasizing on the attributes and rationales of decision-making processes of key actors in real estate industry of Thailand at different level of building adaptations.

With growing evironmental concerns, the impacts of LEED (Leadership in Energy and Environmental Design) as a voluntary approach provides actionable information, whereas the building obsolescence and vacancy issues provide adaptation opportunities for the property stakeholders. Building adaptation involves the complex decision-making process in assessing key attributes to achieve greater outcomes of sustainability at multiple levels. This disseration collects empirical data for a academic research considering current condition of real estate market. There are over 5 million m2 vacant buildings and thus, the existing buildings should be adapted. The question of how and why adaptation attributes has influenced the decision-making processes are essential to stimulate the sustainability implementation in Thailandâ&#x20AC;&#x2122;s building industry.

Design / Methodology / Approach: Six comparative case studies were undertaken to identify the building attributes and development processes in explaining the principles of decision-making on the particular adaptation and sustainability levels. A qualitative research was conducted through ten interviews with property stakeholders to analyse the decisions and its effects on the building adaptations and scope of sustainability. The research evaluated SBA attributes using arithmetic mean to ascertain the respective importance of adaptation attributes in building development as previously studied.

Originality / Value: This research reports on the samples of large-scale development that cover office, residential and mixed-use adaptation conducted between 2010 to 2019 in Bangkok, Thailand. It is an analysis of why abandoned and operational buildings are undertaken for adaptation and how the signification of different SBA attributes is prioritised in the decisionmaking process in real-estate development.

Findings: The research discover that SBA is an emerging and ongoing trend in the Thai real-estate industry, considering the cycle of large and highrise building developments at its creation stage. It investigates that the building adaptation at different modification degrees vary in priorisation of key attributes when considering sustainability implementation. SBA attribute influence the decision-making process in undertaking specific direction of the developments in relation to time period. The findings indicate high importance of location and land-use, physical and regulatory attributes in building adaptation has retained across the cases. Economic and environmental considerations toward the delivery of SBA induce both positive and negative impacts on the decision. This leaves the social sustainability, risk, and government incentive as the least influences over the alteration and extension. The research reveals that sustainability can be achieved through building adaptations. 28

Keywords: Thailand, Bangkok, Adaptation, Sustainability, Attributes, Developers, Architects, Decision-making, Process, Real estate development, Office building, Residential, Mixed-use,

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