Gun Srisawat Portfolio for Summer Internship 2018 by Ponthakorn Srisawat

Portfolio

Gun Srisawat M.Arch II

Southern California Institute of Architecture

Portfolio

Gun Srisawat M.Arch II

Southern California Institute of Architecture

Table of Contents 2GAX

Design Studio 04 Visual Studies I 14 Advanced Materials and Tectonics 26 2GBX

Visual Studies II 34

B.Arch

Undergrate Thesis 36 LYNK architect

Renovate Nobel House

Gun Srisawat Southern California Institute of Architecture M.Arch II 100 S One Santa Fe Ave. 412 Los Angeles, California 90013 1 + 909-348-3979 onscalearchitect@gmail.com Instagram : Itsmegun ÂŠ 2018 All rights reserved. No part of this book may be reproduced in any form without written permission of copyright owner.

SEMBLANCES Design Studio

Instructor : Herwig Baumgartner Partner : Peter Chu

This studio will interrogate the potential of new forms of digital perception in architecture. The studio will exploit contemporary methods of measuring and analyzing 3D form and space in conjunction with human and computational forms of design production to identify how this transforms our understanding of the relationship between context and architecture. The technology behind data collection allows for the production of overwhelming quantities of information which need to be interpreted and structured. How can we rethink our relationship as designers to these methods to allow for new possibilities in architectural production. Our focus is on the aesthetic dimension of architecture and the possible production of new modes of being in the world. If, as argued above, the shift in modes of reproduction accompanies transformations in the architectural invention, a contemporary approach to architecture would be affiliated to modes of imaging that dislocate the subjectivity of single point perspective, such as machine vision. As a starting point we will work on producing a composite form of selected source material derived from the site context that redefines the formal relationships inherent in selected elements and shifts these toward an architectural scale.

QR code link to Final Animation in Youtube or Click https://youtu.be/tIoxn8uDUak

1. Original Soaps 2. Duplicate and Reasemble 3. 18 Cuts by read the texture and shape 4. Developing new envelop

Top View panning

Site Plan and Contex, Not to scale

Cross Section Drawing, Not to scale

Chunk and Interior, Not to scale

1. Panning Elevation, Event space 2. Panning Elevation, Main Entrance 3. Physical Model Powder Print scale 1 to 32 4. Site Model CNC and Powder Print scale 1 to 32

Visual Studies I FALL 2017 VS4200 ( 2GAX ): Visual Studies 1 Instructor: Kristy Balliet & Casey Rehm Partner : Weitse Yuan

The course will cover issue of contemporart representation and development of splines in relationship to complex digital form and physical and visual space. Visualization today encompasses the development, exploration and communication of information and idea in multiple mediums. This course will engage recent techniques related to splines, gesture interface and virtual reality. And develop critical visual literacy and review methods for generating and evaluating line, surfacees and volume. We will review modes of drawing and modeling in three dimensional space, including the importance of precision and abstraction. Exercises and assiciated tutorials provide opportunities to discover novel concepts through transformation and tactical work flow, multiple realities and digital/physical fabrication.

The Gestural Line Exercise 1 The first exercise requires the generation and design of lines through gestural animation. You will create a series of lines in space and then redesign their relationships and qualities. The initial digital models will engage two different techniques. The first model will be the result of a set of designed lines in Maya and the second model, the generation of lines in Virtual Reality, using Oculus Medium. Both models will use an imaginary bounding area. The project will develop by evaluating and modifying the quality of the

Composite Model Exercise 2 The second will deal with patern, tecture, and surface articulation with VR environments. By choosing three diferent object and read it as a surface of the model. Model in both digital and physical form. We will review modes of drawing and modeling in threedimensional space, including the importance of precision and abstraction. The character of the final modelwill be designed and built by every team. You will be expected to develop expertise and execute your intentions with clarity.

1. Control point of Kendo motion, Draw in Oculus Medium

2. Surface Contour, Not to scale

Texture Model Exercise 3 The final project will ecplore processing and tecturing mapping. The final project will be a refinement of all concepts. Textures and reconstructed models untilize Processsing on previous models. Students will produce an unrolled texture map of their 3D printed model of exercise 2 using slit scanning. Each student group will then develop a 2D pixel bending algorithm to manipulate those maps and reproject them back onto their 3D models. In the second half of the project, students will voxelize their 3D model and develop 3D algorithms based off of their image scripts to modify, transform, add, and subtract from their 3D model. The final output will be an object transformed through algorithms and texture mapped with new 2D scripts. This model will be color printed. Focus on utilizing bottom up logic and intelligent agent based algorithms to manipulate color and matter at a granular level of resolution. As part of this exercise students will produce their own software to operate on both 2D image manipulation and generative 3D solid manipulation.

1. Perspective view. 2. Physical model, Color Powder print, Front view. 3. Physical model, Color Powder print, Back view. 4. Texture mapping through manipulate from Proceesing.

Advanced Materials and Tectonics AS 32000

Fall 2017 ( 2GAX ): Instructor: Maxi Spina Team : Peter Yun Chu, Weitse Yuan, Sandy Lao The class paired areas of investigation and speculation are Tectonics predominantly building envelopes and performance largely consisting of technical, technological, cultural and environmental dimensions. Working in groups throughout the entire semester, the student analyzes and document a precedent in order to formulate a series of hypotheses in an attempt to construct a number of interrelated tectonic conjectures. In scrutinizing building assemblies, the class will attempt to positionconstruction analysis so as to produce both technical knowledge and critical awareness of embedded cultural habits. The class will thus seek out an alternative understanding of the tectonic one that not only mirrors the realm of construction materials, methods, sequences, tolerances, etc. But also embrace architectural processes of expression, encompassing issues of geometry and technique; posture and character; etc.

1. Axonometric of Envelop system, Not to scale.

The Silo Design Transformation. This design transformation aimed at exploring approaches for heat gain reduction and shading through facade design, The study used digital simulation from Ladybug to analyze radiation analysis and shadow studies which take place in Los Angeles, California. Testing took place from June to December 2017. The purpose of the study was to compare the effectiveness of thermal transformation and orientation from Original Building â&#x20AC;&#x153;The Siloâ&#x20AC;? which located in Nordhavn, Copenhagen, Denmark. According to the climate in Nordhavn, the external screen shading for this building has to be resistant to the sea breeze and salty moisture from entering a building. Stainless steel is the best material solution for this context. But the problem is the Climate in L.A. is hot and dry almost entire year. So our study was compared three different shading strategies to determine its effect on thermal mass in the building. The First type is to increase the angle of cladding material to reflect more sunlight. The second is adding more upper shading, and third is rotate the entire shading. In summary, the results of the study showed that adding more shading in the west and south sides of the building are very effective to reduce UV light. And the study also found that another way to reduce heat mass during the night from a concrete wall is to constructing two layers of exterior wall with space in the middle and changing the window glass from clear to 6 mm-thick green tinted heat absorbing glass might be the best way to save investment cost.

Sunlight Hours Analysis

The main facade of the building is f ing by the building around. The sou rowest side of the building to recei

Solar Radiantion- Facade

Solar Radiantion- Interior

The new facade is successfully decorated the old building, but it also blocks the 80 percent of the sunlight. To solve this situation, Architect uses perforated Galvanized-steel to allows more sunlight into the building.

Facade blocks almost 80 percen light and it is why the architect d top is an open space with fulfillin

Precedent Study: The Silo System: Galvanised-steel Cladding & Steel

Radiation Analysis

Copenhagen_DNK 1 Jan 1:00 - 31 Dec 24:00

Sunlight Hours Analysis

Annual Windrose

The main facade of the building is facing the east and west side, and these two side is not shading by the building around. The south side of the building get the most sunlight, but it is the narrowest side of the building to receive the sunlight.

Based on the climate data in Copenhagen, The Average Temperature of the year is 8.5. Therefore, the building prefers to prevent the heat going outside, instead of cooling down the interior. This building utilizes the triple-layer glass to prevent the heat leak to the outside. Meanwhile, in order to reduce the construction fee, this building can use the triple-layer glass at the west side, double-layer glass on the east and south side and single-layer glass on the north side which do not face any wind.

Solar Radiantion- Interior

Solar Radiantion & Wind

Facade blocks almost 80 percent of sunlight. People have to go to the balcony to get the sunlight and it is why the architect design such modulate facade with a balcony. Also, on the rooftop is an open space with fulfilling sunlight that allows people to go and enjoy the sunshine.

This building utilizes the triple-layer glass to prevent the heat leak to the outside. Meanwhile, in order to reduce the construction fee, this building can use the triple-layer glass at the west side.

ENVIRONMENT Advance Tectonics 3200 Gun Srisawat _ Lingchen “Sandy“ Liao _ Weitse “Alfred“ Yuan _ Yun “Peter“ Chu

Enevelop Detail, Not to scale

Suppot Fireproof Layer

Wall Insulation Panel Triple-glazed Window

Holding Elements Integrated Blind

Energy Efficient Window Treatments Energy Efficient Window Treatments Energy Efficient Window Treatments

Primary Steel Rectangular Hollow Section

SunlightHours Analysis Los_Angeles_Intl_Arpt_CA_USA 21 JUN 9:00 - 21 JUN 18:00

Summer - Original Facade The Original building is located in Denmark which is lack of sunlight, and the original design is to receive more sun light. Meanwhile, it also keeps the view from inside to outside.

Secondary Steel Rectangular Hollow Section Steel Frame Structure

Window awnings can reduce solar heat gain in the summer by up to 65% onWood south-facing Platform windows and 77% on west-facing windows. You can use an awning to shade one window or have an awning Window awnings reduce solar heat in building. the summer by up require to 65% ventilation on south-facing windows custom-made to can shade the entire side gain of the Awnings to keep hot airand from Galvanised-steel Cladding 77% on west-facing windows. can use an awning to shadeor an the awning Window awnings reduce solar heat gain in the(eyelets) summer byone upwindow toopenings 65% or onhave south-facing windows and becoming trappedcan around theYou window. Grommets other along tops and sides custom-made to shade the entire side of use the building. Awnings require ventilation keepanhot air from 77% west-facing windows. You can an awning to shade one window awning of an on awning can provide ventilation. The awning may also open to the sidesor ortohave top to vent hot air. becoming trapped around the window. Grommets (eyelets) or other openings along the tops and sides custom-made to shade the entire side of the building. Awnings require ventilation to keep hot air from of an awning can provide ventilation. The awning may also open to the openings sides or top to vent becoming trapped around thehelp window. (eyelets) other along the hot topsair. andlong sides High-reflectivity window films blockGrommets summer heat gain. or They are best used in climates with By assembling the steel structure, we can a shape for the galvanised-steel of an awning can frame provide ventilation. The make awning may also to the sides or cladding. top to vent hot air. cooling seasons, because they also block the sun's heat in open the winter. High-reflectivity window films help block summer heat gain. They are best used in climates with long cooling seasons, window becausefilms theyhelp also block block summer the sun'sheat heat gain. in theThey winter. High-reflectivity are best usedarea, in climates long The effectiveness of these reflective films depends on Size of window glazing windowwith orientation seasons, because they also block the heat the winter. ,cooling climate, buildingof orientation and whether the sun's window hasin The effectiveness these reflective films depends on Size ofinterior windowinsulation. glazing area, window orientation

Energy Efficient Window Treatments , climate, building orientation and whether the window has interior insulation.

The effectiveness of these reflective filmseffective depends on on Size of window glazing window orientation WindowSilver, awnings can reduce films solar heat gain inare the more summer by up to 65% south-facing windows andarea, 77% on west-facing windows. mirror-like typically than the colored, more transparent ones. Eastand You can , climate, building orientation whether the window has interior insulation. use an awning to shade one window or haveand an custom-made shade the entire side of the building. Awnings require to west-facing windows, because of awning their potential for heat gain, can benefit more from these films. Silver, mirror-like films typically are moregreater effective thantothe colored, more transparent ones. Eastand ventilation keep hotNorth-facing air from becoming trapped around the window. Grommets (eyelets) or other openings along the tops and sides of an awning windowsbecause won't benefit them, and south-facing windows may more benefit somewhat, but can prowest-facing windows, of theirfrom greater potential for heat gain, can benefit from these films. vide ventilation. The awning may also open to are sides oreffective top to ventthan hot air. High-reflectivity window films helpones. block summer heat gain. They Silver, mirror-like films typically more the colored, more transparent Eastand the benefit could be offset by thethereduction ofand heatsouth-facing from the winter sun. North-facing windows won't benefit from them, windows may benefit somewhat, but are bestwest-facing used in climates with longbecause cooling seasons, they also block sun’sgain, heat in thebenefit winter. more from these films. windows, of theirbecause greater potential fortheheat can

the benefit could be offset by the reduction of heat from the winter sun. North-facing windows won't benefit from them, and south-facing windows may benefit somewhat, but The effectiveness of these reflective films depends on Size of window glazing area, window orientation the benefit could be by the thewindow reduction of heatinsulation. from the winter sun. films typically are more effective than the climate, building orientation andoffset whether has interior Silver, mirror-like

SunlightHours Analysis Los_Angeles_Intl_Arpt_CA_USA 21 JUN 9:00 - 21 JUN 18:00

Summer - New Facade The New Facade reduce the sun lighthour for per day in the summer, and prevent the heat to the interior.

colored, more transparent ones. East- and west-facing windows, because of their greater potential for heat gain, can benefit more from these films. North-facing windows won’t benefit from them, and south-facing windows may benefit somewhat, but the benefit could be offset by the reduction of heat from the winter sun.

y Efficient Window Treatments

Winter

SunlightHours Analysis Los_Angeles_Intl_Arpt_CA_USA 21 JUN 9:00 - 21 JUN 18:00

wnings can reduce solar heat gain in the summer by up to 65% on south-facing windows and st-facing windows. You can use an awning to shade one window or have an awning de to shade the entire side of the building. Awnings require ventilation to keep hot air from rapped around the window. Grommets (eyelets) or other openings along the tops and sides ng can provide ventilation. The awning may also open to the sides or top to vent hot air.

tivity window films help block summer heat gain. They are best used in climates with long asons, because they also block the sun's heat in the winter.

veness of these reflective films depends on Size of window glazing area, window orientation uilding orientation and whether the window has interior insulation.

ection

or-like films typically are more effective than the colored, more transparent ones. East- and g windows, because of their greater potential for heat gain, can benefit more from these films. g windows won't benefit from them, and south-facing windows may benefit somewhat, but could be offset by the reduction of heat from the winter sun.

SunlightHours Analysis Los_Angeles_Intl_Arpt_CA_USA 21 JUN 9:00 - 21 JUN 18:00

Summer - Original Facade

Winter - Original Facade

The Original building is located in Denmark which is lack of sunlight, and the original design is to receive more sun light. Meanwhile, it also keeps the view from inside to outside.

SectionSummer

Detail 01A 01A Detail Dual Dualfinish finish Detail 01A

Dual finish IGU IGU24 24mm mmthickness thickness

1A Dual finish

Polymide strips create the thermal breakbreak Polymide strips create the thermal

IGU 24 mm thickness External aluminium extrusion External aluminium extrusion

You can 4 mm thickness Polymide strips create the thermal break ion to can miniumproextrusionExternal aluminium extrusion in. They Thermally broken sub-sil Thermally broken sub-sil broken sub-sil

the m these t by the

Internal aluminium extrusion

SunlightHours Analysis Los_Angeles_Intl_Arpt_CA_USA 21 JUN 9:00 - 21 JUN 18:00

Polymide strips create the thermal break

Summer - New Facade

Winter - New Facade

The New Facade reduce the sun lighthour for per day in the summer, and prevent the heat to the interior. Internal aluminium extrusion

The new facade extent the cladding at the south side to prevent the sunlight from the south side with a high angel of the sun and it extraordinary reduce the temperature inside the building.

Internal aluminium extrusion

Thermally broken sub-sil Internal aluminium extrusion

Advance Tectonics 3200 Gun Srisawat _ Lingchen “Sandy“ Liao _ Weitse “Alfred“ Yuan _ Yun “Peter“ Chu

Interior heat gain, analysis by Ladybug SunlightHours Analysis Los_Angeles_Intl_Arpt_CA_USA 21 JUN 9:00 - 21 JUN 18:00

Big Picture Visual Studies II

Spring 2018 ( 2GBX ): Visual Studies II Instructor: Ryan Tyler Martinez & Casey Reas Partner : Siyao Zheng

It introduces Processing, a flexible software sketchbook and language for learning how to code within the context of the visual arts, and advanced 3D modeling in Zbrush and Autodesk Maya for the production of architectural representation through the development of digital techniques. Beginning with the fundamentals of Processing, the course will examine the notion of “Regularity and Random”, “Growth, Form, and Simulation”, and “Emergence” in both two and three dimensions. Students will be required to constantly work between code and output, gaining familiarity with the constraints and advantages of the software. Later in the semester students will work in teams of two and will be introduced to XGen, a geometry instancer that lets you populate the surface of polygon meshes with an arbitrary number of primitives either randomly or uniformly placed. XGen lets you quickly populate large-scale environments, including grass savannas, forests, rocky landscapes, and debris trails. As a final deliverable for the class, teams will work with other teams to create large pictorial landscapes using the combination of their output from Processing, spherical envelope volumes in Zbrush and XGen surface textures in Autodesk Maya.

QR CODE TO Processing Animation in Youtube.

https://youtu.be/hIrL67bsAnc

BAMBOO STUDIO 6 AR 416 Advanced Architectural Design (Thesis Project) Bamboo Architecture: Design and Construction Instructor : Assistant Professor Supreedee Rittironk, Ph.D. Team : Chawin Poomngram Chomsutha Pranwiwat Mongkol Plangkongkom Phonthakorn Srisawat Peewara Wongphonchai Wanipha Ngramsomsri Shuthasuk Chantanomsuk Tanthai Tengkankij Thammatat Kongtong

Thammasat University is one of few universities in Thailand that are serious about utilization of bamboo in architecture. As a research university, the creation of architecture will come from the role of research and design integration. Faculty of Architecture and Planning is in the support of creating Bamboo design studio and the researcher to do indepth research to explore further uses of bamboo. Studio is formed into a 8-10 undergraduate students, with hands-on design-construction approach. Later on, bamboo studio has been successful and created many researches and design projects. It has been 8 years that faculty has created 8 generation of bamboo designers. Later on, few interested students decided to continue to so research and design project. Then, the interest has kept coming to develop and promote the most use out of this Bamboo material.

QR code link to Bamboo studio 6 in Youtube or Click https://youtu.be/JM_HqUSdBF4

39 SCULPTURE MAKING PROCESS Location Lavrovance Resort Main Entrance Duration 2 Day (including Bamboo preparation)

1.Find the right cordinant to make sure the scrupture point to the destination. 2.After we pin point the foundation and marked the height. 3.bended the bamboo by using levers technics. 4.then we pouring concrete into hollow of bamboo (make it wet for 48 hours) 5.tied the small bamboo for1 curve axis. 6.with a little help form nice local bamboo technician 7.harness the rest of the curves and make it's in the right angle till the top of scrupture. H.O.B. MAKING PROCESS Location Just over small canal next to Lavrovance Duration 10 Day

1. let the fresh bamboo dries for 1 of 2 weeks or soaked it in borax (muxh faster but more expentsive) 2. the foundation were done by ground beam 3.we prefrabrication bamboo frame by frame on the ground and then lift it up and carry to construction site. 4.each frame had to be arrange properly because the slope had to be right angle for drain heavy rain. 5.After that we bundle each frame to strengthen the bamboo. 6.roof coverings this step was easy can't believe bamboo can hold more than five men in one time, very strong. 7.gentle pouring concrete in to the bamboo hollow to slow Degradation and prevent it from insects and strengthen.

1st Floor Plan

2nd Floor Plan

Not to scale

This QR CODE lead to walkthrough animation in Youtube. https://youtu.be/MgfvFrcNxUU

Noble House Location Subject

Phattanakarn 44, Bangkok Thailand Renovate project

This is my first project as a junior architect at LYNK architect Company, I had been assign to collect information with clients to know what and how them want to renovate their house. After i had recive an construction drawing and know this house had been build in 1991 by A49 a big name architect company in Thailand and i found out that there the foundation of this house has been shrink more than 157 cm. and still, so I have to talk with an Engineer to find the right way to renovate. Then i sketch new plan with new furniture layout and new wall line.

Function Requirement. 1. 2. 3. 4. 5. 6.

client want extra more space for car park. new living room with double spcae new kitchen space for elder new garden new bedroom with walkin closet and bathroom