Suyue Jin

Page 1

SUYUE JIN Selected Work 2016 - 2023 SCI-Arc | M.Arch2


Suyue Jin

Los Angeles, CA 90012 (Open to Remote/Relocate) Mobile: (+1) 424-599-3364 | E-mail: jinsuyue9895@gmail.com | Linkedin: www.linkedin.com/in/suyue-jin-b518011a4 | Portfolio: https://issuu.com/jinsuyue/docs/suyue_jin_portfolio_2023

STATEMENT

COVER LETTER

Experienced designer with diverse working experience in both Asia and the US. Participated in various architectural projects, ranging from small to large, including furniture design, residential, educational institutions, commercial competition. Skilled in AutoCAD, Revit, Adobe suite. Strong arts and design professional with a Master of Architecture degree from SCI-Arc.

Dear Hiring Manager

WORK EXPERIENCE Architectural Designer | Tom Wiscombe Architecture, Los Angeles, USA

11. 2023 - Present

• Paticipated in large public building project and develop circulation for the building and site, including stairs, ramps and egress. • Generated drawings for basement level and ensure maximum parking space.

Social Media Editor | SCI-Arc, Los Angeles, USA

09. 2021- 09. 2022

Intern Architect | Xuberance, Shanghai, China

01. 2021- 04. 2021

• Curated, edited, and formatted student projects and school news for distribution via SCI-Arc China's WeChat Official Account.

• Produced schematic design for diverse architectural competitions including govenment, commercial, sports centers, museums and amusement center. • Created diagrams, renderings and animation to enhance design. • Designed 3D-printed chair furniture and ceramic vase, produced physical models.

Over my Eight-year architectural journey, I participated in various architectural projects, ranging from small to large, including furniture design, residential, commercial competition and large public building. Leveraging my expertise in advanced software tools, l excel in conducting BIM modeling, delivering graphic and animated presentations and producing 3D renderings During my working at TWA, I have paticipated in large public building project, developed circulation for the building and site. Additionally, I have generated drawings for basement level and ensured maximum parking space. When I worked in China, I have participated in the construction process of the high-rise prefabricated steel structure residential project, created fuzor animation to visualize the construction process, and conducted presentations. My studies at Southern California Institute of Architecture(SCI-Arc), especially relevant tectonic courses, have enabled me to hone my skills in detailed construction drawings. Besides, I intend to keep progressing on the architectural licensure track. l am confident that l would be a strong candidate for the Architectural Designer position.l am excited about the opportunity to contributemy expertise to your team and assist in the companys success.Thank you for considering my application. I look forward to discussing my qualifications further in an interview.

06. 2019 - 08. 2019

Intern Architect | Jingu Group, Changzhou, China

I am writing to express my sincere interest in the Architectural Designer position. As a highly creative architectural designer in both Asia and the US, I possess a Master of Architecture and a Bachelor of Engineer degree.

• Created BIM model for high-rise prefabricated steel structure residence and negotiated construction progress of the basement. • Conducted Fuzor rendering animation to visualize the entire process of construction.

Sincerely, Suyue

SKILLS

REFERENCE

Architectural Design

Computational Design

Rendering

Graphic Design

Rhino, Revit, AutoCAD, SketchUp V-Ray, Enscape, Lumion, Fuzor, Redshift, Keyshot

Maya, ZBrush, Blender, Cinema 4D,Unreal Engine Photoshop, InDesign, Illustrator, After Effects

EDUCATION

Eric Owen Moss

Principal and Lead Designer, Eric Owen Moss Architects mail@ericowenmoss.com

Ashley Hastings

Southern California Institute of Architecture(SCI-Arc), Los Angeles

09. 2021- 09. 2023

Changzhou Institute of Technology, Changzhou

09. 2016- 06. 2021

Master of Architecture, With Scholarships, GPA: 3.87/4.0

Bachelor of Engineering, Major in Architecture, GPA: 4.22/5 (86/100)

LANGUAGE Chinese (native), English * Selective Personal Experience from 2016 to present

Design Technology Manager, Woods Bagot Adjunct Faculty, SCI-Arc ashley.hastings@woodsbagot.com

Marcelyn Gow

Undergraduate Programs Chair, SCI-Arc Partner, servo los angeles 213-880-9414 marcelyn_gow@sciarc.edu


Contents 01 Microalage Bio-Tech Building

01

Design Development Project | 2022 Fall | Los Angeles

02 Invisible Chinatown

06

Chinatown Renovation | 2023 Summer | Los Angeles

03 Wrapper 2

10

Housing and Office Project in Culver City | 2023 Spring | Los Angeles

04 Accumulations

14

Rennovation of Ascot Reservoir | 2022 Fall | Los Angeles

05 Diamond Ranch Elementary School

17

Architecture Design of The Elementary School | 2021 Fall | Los Angeles

06 Cal Poly Students Services Building

19

Architecture Design of Advanced Materials and Tectonics | 2021 Fall | Los Angeles

07 Probationary Bond

21

Road Trip for Couples | 2020 Summer | Shanghai

08 Building Empathy

23

Revit & BIM 360 | 2022 Spring | Los Angeles

09 Renovation of Maryland Residence Professional Work | 2021-2023 | University Park, MD

24


01 Microalage Bio-Tech Building Partner: Arthur Modine, Zeyu Wang, Yangmin Su, Sizhe Lu, Wei Zhu, Zhao Mu, Yanchu Instructor: Zach Burns, Matthew Melnyk El Segundo, CA 2022

For the course Design Development, We investigates issues related to the implementation of design: technology, the use of materials, systems integration, and the archetypal analytical strategies of force, order and character.The course includes a review of basic and advanced construction methods, analysis of building codes, the design of Structural and Mechanical systems, Environmental systems, Buildings service systems, the development of building materials and the integration of building components and systems.

https://vimeo.com/804690365 1


200’ 0

Site Plan

North Elevation

Batten Fluorescent Light Linear Return Diffuse r Sprinklers Head Emer gency Sig nal SD

Ceiling Plan

Smoke Detec tor and Alarm

South Elevation

100’ 0

Typical Plan 2

West Elevation

East Elevation


Assemply Chunk Isometric

RAISED FLOOR ASSEMBLY

Laboratory Chunk Exploded Isomeetric

SPACER RODS Raised floor assembly

RAISED FLOOR ASSEMBLY

SPACER RODS

Spacer rods

CONCRETE SLAB

Concrete slab

CONCRETE SLAB

Glazing

A36 STEEL BEAM W22x147

A36 steel beam w22x147 Steel wall track

Laboratory Enclosure

STEEL WALL TRACK

A36 STEEL BEAM W22x147 STEEL WALL TRACK

10" A36 steel pipe beam

10” A36 STEEL PIPE BEAM 10” A36 STEEL PIPE BEAM

Raised Floor Plates Vinyl based VINYL BASED NONSLIP DECKING Nonslip decking VINYL BASED NONSLIP DECKING POURED CONCRETE SLAB Poured concrete slab POURED CONCRETE SLAB STEEL SLAB END CAP STEEL SLAB END CAPSteel slab end cap

Algae Bioreactor Facade

METAL DECKING

Metal decking METAL DECKING RIENFORCED STEEL SLAB JOIST Rienforced steel slab joist 6” A36 STEEL PIPE BEAM 6”PIPEA36 steel pipe beam 6” A36 STEEL BEAM

RIENFORCED STEEL SLAB JOIST

Steel Structure

TYPICAL ENCLOSUREenclosure EDGE Typical edge

TYPICAL ENCLOSURE EDGE

Glazing Structural Net

ENCLOSURE ASSEMBLY ENCLOSURE ASSEMBLY SEE ABOVE

SEE ABOVE

Algae tank ALGAE TANK ALGAE TANK Double paned e-coated glass DOUBLE PANED E-COATED GLASS ALUMINUM MULLION Aluminum mullion

DOUBLE PANED E-COATED GLASS

Structural Core

ALUMINUM MULLION

Steel tension wire 1/2” tension gude bracket STEELSteel TENSION GUDE BRACKET STEEL TENSION GUDE BRACKET Steel load transfer bracket STEEL LOAD TRANSFER BRACKET STEEL TENSION WIRE 1/2”

STEEL TENSION WIRE 1/2”

Concrete Exoskeleton

STEEL LOAD TRANSFER BRACKET

A36 steel wide flange section

A36 STEEL WIDE FLANGE SECTION

A36 STEEL WIDE FLANGE SECTION

Assemply Chunk Section Detail

Assembly Chunk REINFORCEMENT CONCRETE DIAPHRAGM SLAB RAISED ACCESS Reinforcement concrete slab

REINFORCEMENT CONCRETE FLOOR PEDESTALS DIAPHRAGM SLAB

CAST-IN PLACE CONCERET Raised Floor pedestals RAISED access ACCESS FLOOR PEDESTALS

Cast-in place conceret

Laboratory Chunk Isometric

Laboratory Chunk Exploded Isomeetric

CAST-IN PLACE CONCERET

COMPOSITE STEEL FRAMING

Composite Steel framing

COMPOSITE STEEL FRAMING

STEEL FLANGE PLATE STEEL FLANGE PLATE

Steel flange plate

Laboratory Enclosure

10” A36 steel pipe beam

10” A36 STEEL PIPE BEAM 10” A36 STEEL PIPE BEAM

COMPOSITE STEEL FRAMING

FLANGE STEEL PLATE

COMPOSITE STEEL FRAMING

Composite steel framing

Raised Floor Plates

Flange steel plate

Algae Bioreactor Facade

Glazing

Aluminum cladding panels MAIN I-BEAMS Main I-beams MAIN C-BEAMS Main C-beams ALUMINUM CLADDING PANELS Interior claddings INTERIOR CLADDINGS MAIN I-BEAMS

FLANGE STEEL PLATE ALUMINUM CLADDING PANELS

MAIN C-BEAMS INTERIOR CLADDINGS

Glazing Structural Net ENCLOSURE ASSEMBLY SEE ABOVE

Steel Structure

Steel connecting rod Steel plate GLAZING Aluminum mullion SEE ABOVE Glazing

STEEL CONNECTING ROD STEEL PLATE ALUMINUM MULLION ENCLOSURE ASSEMBLY

Concrete Exoskeleton

STEEL CONNECTING ROD STEEL PLATE ALUMINUM MULLION GLAZING

Laboratory Chunk Section Detail 3

Laboratory Chunk


Independantly Controlled Wet Lab Ventilation Due to the presence and handling of potentially biological and chemical hazards, the labs in the wings of the building require seperate, more specialized ventilation systems. These systems are designed to give optimum airflow so that hazardous fumes can exit the fume hoods and lab interiors as quickly as possible, while also keeping the labs at independantly controllable comfortable temperature year round with a combination heating and cooling system.

8 Structural Cores Provide Exterior Egress Efficiently placed structural cores give an easy method of egress from anywhere in the building and open directly to the exterior. These cores also provide 2 or 3 elevators each depending on configuration for continous circulation of the building during normal operation.

office Cafe Drylab Storage Assembly Bioreactor Wetlab Other

Max FT2 People 6400 64 4400 22 61700 309 15300 31 26800 1787 10800 180 75700 379 5400 18

HVAC

Exhaust unit Rooftop chiller/heater unit Filter unit

Structural Steel Frame To acheive the architectural vision of a floating mass, large, counterbalanced cantilevers are required. High carbon steel provides the tensile and compressive strength necassary to build the long spans needed. The 3-Dimensional space truss is made of a variety of different members, which move loads efficiently from caintilevered labs to the ground.

W12x65 intumescent coated A36 carbon steel Secondary structure for glazing system

10 Arm Steel Joinery Detail

Return duct Supply duct

W21x147 intumescent coated A36 carbon steel

Vertical exhaust core Fume hood interchange unit

Seventh floor Exhaust unit

Basement chiller/heater unit

Exhaust unit Seventh floor Seventh floor

Basement chiller/heater unit Supply duct Supply duct

Seventh floor Seventh floor Seventh floor

Egress Routes

Steel reinforced concrete

Fume hood interchange unit

Main Concrete Cores With Egress Paths Concrete cores create the main method that structural loads (as well as inhabitants) move throughout the structure. 2 Feet think walls of Carbon-fiber reinforced concrete create a solid core with unparalled compressive strength, from which the great weight of the balanced cantilevers will rest.

Seconday Steel Structure

Secondary steel frame (for curtain glazing) Primary steel frame

Steel frame

Glazing enclosures

Glazing system

Basement floorplates

Concrete on metal deck

Modular structural panels

Laboratory enclosures

Aluminum finish

Outer wall

Retaining walls

Inner wall Floor Plates Facilitate Modular Encosure Building Cast in place reinforced concrete floor plates are fitted with raised panels to create the final finish floor, however, some areas are left empty. These loctions are areas where a freestanding, modular laboratory enclosure will be built and then outfitted with equiptment and connected to the laboratory. The floor plates contain data, plumbing, steam, and other systems as necassary.

Reinforcred concrete basement Base isolators

Concrete exoskeleton

Vertical concrete cores

Foundations

Concrete on metal deck Raised floor panels

Main Structural Grid Truss With Concrete Cores Structure System 4

Floor plates


Bottom sealing Steel plate

Steel column Reingorcement concrete Diaphragm slab

Corrugated steel sheet

Cast-in-place concrete

Stud connector

Reingorcement concrete Diaphragm slab Cast-in-place concrete

Welded wire Reinforcing mesh Basement T/slab el.

Cast-in-place concrete

Heb 400 profile

Welded wire Reinforcing mesh Heb 400 profile Cover rubber Laminated elastomeric pad Lead core

Heb 400 profile

Upper connecting Steel plate Upper sealing Steel plate Bottom sealing Steel plate Bottom connecting Steel plate

Aluminum cladding panels Uminum rails Cross fixing Water Proof Plywood

Exterior claddings Aluminium rails

I-beams Main c-beams Plywood

Water proof Plywood Insulation

Horizontal fixing rails Interior claddings

C-beams Plywood

I-beams

Isolator Reinforce concrete block

Base Isolator

Base Isolator Section Detail

Rigid steel tensioned curtain wall Hvac unit Precast structural concrete exoskeleton Raised floor plate Steel panel cladded program enclosure Steel truss

Structural central stair core Grade fill landscaping Isolated air gap

Base isolators

Partial Section Looking South 5

Lab Unit Modular Compound

Lab Unit Modular Compound Section Detail


02 Invisible Chinatown Partner: Wei Zhu Instructor: Eric Owen Moss Los Angeles, CA 2023 Food is a central element in shaping immigrant cultures, presenting both opportunities and challenges. Chinese food culture adapts as immigrants move, embodying the dynamic nature of contemporary culture. This thesis explores mobility as a design concept, uncovering the interplay between architectural space and cultural identity. Focusing on Chinatown, where traditional culture faces demolition, it questions whether new orders can replace old ones and explores vertical development within urban landscapes. The project envisions a food culture complex, delving into the sensory aspects of taste, smell, appearance, and touch, reinterpreting Chinese culinary traditions within their original cultural context. It seeks to build new structures atop existing properties, investigating the untapped potential between old buildings and the open sky. This confrontation with dominant culture on the urban fringe fosters new ideas crucial for emerging cultural growth.

6


Shape Diagram

Old buildings on site

Mirror the original building

Simplify to three blocks

Original circulation

Extrude center box as main vertical structure

Project original circulation to the upper blocks

Three large blocks circle around center structure

Add volume

Rotate the blocks to enlarge the space inbetween

Original buildings

New Roof

New Vertical Circulation

Center Sphere

4 Horizional Structure

3 Main Blocks

Food Library Rendering

Function Diagram

7

Entrance Rendering


Library

Workshop 8

Lobby to library

Connect to library

Leveled space as reading zone

To library shelf

Library Block

Hang inbetween two main truss

Lobby to office

Connect to theatre

Office service to theatre

Entrance and exit of theatre

Theatre Space

Connect to the ground

Kitchen as exhibition

Kitchen connect to library

Kitchen connect to theatre

Workshop for cooking

Artist Studio

Top exhibition space

Lobby Floor Plan

Library Floor Plan

Theatre Floor Plan


A

Structure Model

9

Section A-A’

A’


03 Wrapper 2 Partner: Aleksandra Lapshina Instructor: Eric Owen Moss Culver City, CA 2023

Directly to the east of the (W)rapper Office Tower site is an area long designated for a second office building, Wrapper 2. That project [currently approved as an office building] is sited between the original Wrapper to the west, and, on the south west corner of the la Cienega/Jefferson site, directly to the east, a newly approved housing project and a new office building, are in the offing. The project assignment is to design an office/housing project accompanied by a plausible case for the conceptual use decision: either entirely an office; or entirely a housing project; or a hybrid office/housing project; or an office that converts to housing, how?; or housing that converts of office, how?; or a project that could become first office, then housing, then again office, and so on…; and finally, offer the developer two distinct conceptual options, and make a plausible case for each.

10


BOX AND SPHERE

Basic Shape Concept

Box and Sphere

Wrapper 2 Shape Curve Wrapper1 Structure

Curves In 4 Directions

Selected Curves

Basic Shape: Box

Basic Shape: Sphere

Circle To Cut Box

Circle To Cut Sphere

Overlap Blocks

Create Crack

Add Main Structure

Shape Sequence

Wrapper 2 Structure Curve

Residential Block 15ft

10ft

Lower Level Office

Residential Office Exhibition

14ft

Main Vertical Structure

Exhibition Structure

Office Structure

Exhibition Floors

Office Floors Upper Level Office

Lower Level Office Exhibition Truss System

11

Residential Structure Residential Floorplates Wrapper2 Floorplates

Wrapper2 Structure

Structure Sequence

Wrapper2 Design Concept


2

1

Ramp

Office

Exhibition

Stair

3

4

1-Exhibition Space 2-Office Space 3-Swimming Pool Area 4-Public Outdoor Area

Public Level

1 - Exhibition Space 2 - Office Space 3 - Swimming Pool Area 4 - Public Outdoor Area

Office

Residential

The Crack

1

2

3

4

Structure

Structure and Crack

1-Exhibition Space 2-Theater 3-Theater Lobby 4-Residential Block

Block andCrack

1 - Exhibition Space 2 - Theater 3 - Theater Lobby 4 - Housing Block

12

Structure and Crack

Theater Level 0' 10' 20'

50'


Section

13


04 Accumulations Partner: Haocun Zou Instructor: Marcelyn Gow El Sereno, Los Angeles 2022

Food is a central element in shaping immigrant cultures, presenting both opportunities and challenges. Chinese food culture adapts as immigrants move, embodying the dynamic nature of contemporary culture. This thesis explores mobility as a design concept, uncovering the interplay between architectural space and cultural identity. Focusing on Chinatown, where traditional culture faces demolition, it questions whether new orders can replace old ones and explores vertical development within urban landscapes. The project envisions a food culture complex, delving into the sensory aspects of taste, smell, appearance, and touch, reinterpreting Chinese culinary traditions within their original cultural context. It seeks to build new structures atop existing properties, investigating the untapped potential between old buildings and the open sky. This confrontation with dominant culture on the urban fringe fosters new ideas crucial for emerging cultural growth.

https://vimeo.com/804690451 14


3D Lidar Scanning From Site

Exhibition Hall Model Photo

Intersection Plants and artificial stones are intersected with together homogeneously to build structures

Stack Stacking between stones and branches creates a shelter

Symbotic The plant grows in the crevice of the stone and coexists with the foundation

Growth The bushstock mountain in Ascot grows natural stones and artificial objects

Translation Amplify flowers into buildings to create spaces of different scales

Blur Plants from nature are placed on hollow shelves like sculptures

Accumulated Objects Model

Greenhouse Garden 15

Exhibition Hall

Courtyard

Administration

Classroom


Classroom Entrance

Animated Projection

Exhibition 16

Courtyard

Exhibition Interior

Administration

Office Interior


05 Diamond Ranch Elementary School

Partner: Wendy Chen, Hao Wang Instructor: Marcelyn Gow 2021

Concept Our project for the new Diamond Ranch Elementary School responds to the effects of increasing aridification in California, scarcity of water, overuse of natural resources and the isolation of plants from buildings. The school is designed to promote a reflection on the relationship between people and nature. Do we need an air conditioning system? Do we need artificial light sources during the day? What role does the water cycle play in the natural environment? What is the relationship between plants and architecture? We think that architecture should create a connection rather than a separation between people and nature.

Our site and building are quietly located between the land and the mountains, and it the campus has a strong sense of sculptural qualitye. The free and organic form also shapes the changeable adaptable indoor space comprised of: walls, floors, ceilings, and flexible indoorinteriors. They These forms allow teachers and students to look at the sky and mountains at any time and they blur the boundary between architecture and nature. From a functional point of view, holes of different sizes and walls of varying shape also introduce natural light into the rooms and realize natural ventilation, which "cools down" the perennially hot building.

https://vimeo.com/804690318

Classroom Rendering 17

Chairs Rendering


18

Classroom Cluster Top View

West Perspective View

Nature Classroom Interior Space

Classroom Cluster Perspective View


06 Cal Poly Student Services Building

Partner: Sijia Li, Hanna Park, Zeyu Wang Instructor: Dwayne Oyler, Randy Jefferson 2021

Main Roof Structure Standing Seam Roof Panel

Roof

Window

Third steel purlin

Curtain Wall Steel Beam

0

1

2

Secondary steel beam

5M

Aluminum standing seam panel Steel beam Unite steel beam Steel column Steel beam for 3f Intersection point

Primary steel beam

Steel ring beam Steel pipe Permanent steeel shuttering

Column rebar Steel reinforced concrete Steel column

Steel beam for 2f

2.5 Radiant slab assembly

Beams And Columns 19

Steel perimeter beam

Floors With Roof

Overall Roof Structure For the class Advanced Material and Tectonics, We select Cal Poly Students Services Building from the list provided, research and gather pertinent technical information. Analyzing and comparing tectonic assemblies through drawing, and understand the relationship between individual parts and their composite whole. These relationships mediate the multiple aspects of the composite whole: function, performance, durability, economy, aesthetics, assembly, installation, sequencing, availability and climate.


Roof Structure Transformation A1

Chunk And Tectonic Breakdown Wooden Panel B1

B2 Steel mounting bracket Aluminium mullion Glass panel gap Glass panel

Wooden beam

Steel Mounting Bracket

Steel beam

Unit steel Connector

Model Detail - Inside View

Aluminium Mullion

First + Second Layer (Original)

+ Third Layer

B3

B4 Steel mounting bracket

Model Detail - Perspective View

+Fourth Layer

Model Detail - Birds View

A2

A3 Accoya wood panel

Glass gap Low-e coated tripled glazing

Bracket for wood lap joint

20

Wooden beam Steel plate

Steel mountain bracket Bracket for wood overlap joint

Top aluminum mullion

Aluminum Mullion

Mullion connector

Bracket slotted connection

Wood Panel

Steel beam

Steel Connection

First + Second Layer (Original)

+ Fifth Layer

B7

B6

B5

A4

Wooden panels with different angle

Bracket for Wood lap joint

Aluminium mullion Glass panel Gap Glass panel

Steel mounting Bracket

Joint for Wood panel Wooden Panels

Tertiary Transoms

+ Third Layer

B8

+Forth Layer

+ Fifth Layer


07 Probationary Bond

Individual Work Instructor: Alfred Pun 2020

Concept

The uncertainty of love makes people hold up a steelyard in their hearts, but the modern way of life makes people want to have weight to measure all this, and face major choices, such as determining love relationship, marriage, divorce. People's desire to test love is also more urgent to make sure their mutual feelings are not superficial, but derive a deeper and longterm development relationship. Based on this premise, the design uses four homestays as carriers and uses a road trip to provide lovers with a four-day and three-night emotional exploration journey to test their love. Most of the time, couples do not think clearly whether they are really suitable for marriage, because many can't tell the difference between falling in love and getting married. I wish all couples would think more carefully about getting married instead of rushing down the aisle. From an architectural point of view, I arranged a road trip for all couples to get married on and designed four small residences for the trip. Hopefully, they'll find if they want to walk down the aisle,after their grueling road trip together.

Intouchable

This design is the first unit of the road trip. Lying on the beautiful and unique landscape of the great salt lake, we explored the visible face of couples with the help of mobile phones through the interlaced stairs and partition walls.

Excessive Intimacy

This design is the third unit of the road trip, creating buildings with the main tone of depression in the desert. Thick walls are used to minimize the activity space, discussing the lifestyle of two people under excessive intimacy.

Height Selection

This design is the second unit of the road trip.It's a tree house in the forest.There are two different heights for the couple to choose. Standing at different heights, one can see different sceneries. The choice of house is left to the couple. 21

Choice

This design is the fourth unit of the road trip. As the last part of this design, the theme for this unit is 'choice'. Lying among the snow mountain.


Plan A Section A

Plan B Section B

Section A

Section B

Intouchable

B A

Section C

Plan

Height Selection

C B A

TOGETHER

SEPARATE

B

Section A

THE LAST CHANCE

Section B

Section C

Plan B

A

B A

Section

22

Plan A

Excessive Intimacy

Plan

Choice

C


08 Revit & BIM 360: Building Empathy

23

Transportation Center Perspective

Site Plan

Level 01

Level 01 Area Diagram

Level 02

Level 02 Area Diagram

Partner: Hao Wang, Christy Yu, Kangxin Wu Instructor: Ashley Hastings 2022

Copr Detail View

Wall Detail Section 3/8" = 1'-0"

Roof Structure


09 Renovation of Maryland Residence

4409 Beechwood Road, University Park, MD 20782 Professional Work 2021-2023 MARYLAND RESIDENCE

4409 BEECHWOOD ROAD, UNIVERSITY PARK, MD 20782

RETURN AIR

COORDINATE WITH GC. UTILIZING NEW ADDITION CLOSET SPACE TO PROVIDE A SECONDARY SUPPLY DUCT FOR STUDY AND WALK-IN CLOSET. YU TO DECIDE THE POSITION OF RETURN AIR FROM CORRIDOR.

OVER HANG FRESH MAIN FRESH AIR INTAKE

SECONDARY WALL REGISTER FOR STUDY

MARYLAND RESIDENCE

4409 BEECHWOOD ROAD, UNIVERSITY PARK, MD 20782

OVERHEAD SUPPLY

WALL REGISTER FOR WALK-IN CLOSET

2

3

CEILING MOUNT RETURN GRILL

42" GFCI

42" GFCI

THROUGH JOIST

SUPPLY AIR RETURN AIR

OVER HANG SUPPLY MAIN 6

A300

AHU

2

3

AC TO PROVIDE CONNECTION TO SUNROOM

6

AC DUCT BASEMENT AND GROUND FLOOR SCALE:

4

GROUND FLOOR CEILING SCALE:

AC DUCT IN ATTIC SCALE:

42" GFCI

42" GFCI

3

42"

B

B

42" GFCI

42" GFCI

JOIST DIRECTION JOIST DIRECTION

1

4

KITCHEN AXON SCALE:

5

KITCHEN ENLARGED PLAN SCALE: 1" = 1'-0"

WALL REGISTER FOR WALK-IN CLOSET

KITCHEN RCP

Date

Description

Date

AC TO PROVIDE CONNECTION TO SUNROOM D

B

1

1 ________ ________ A210

Description

COORDINATE WITH GC. UTILIZING NEW ADDITION CLOSET SPACE TO PROVIDE A SECONDARY SUPPLY DUCT FOR STUDY AND WALK-IN CLOSET. YU TO DECIDE THE POSITION OF RETURN AIR FROM CORRIDOR.

SCALE: 1" = 1'-0"

D

6' - 6 1/16" LEVEL 01 CEILING 8' - 6"

LEVEL 01 CEILING 8' - 6"

LEVEL 01 CEILING 8' - 6"

SECONDARY WALL REGISTER FOR STUDY

THROUGH JOIST

PORCH ROOF 7' - 6"

OVERHEAD SUPPLY

2' - 1 5/16"

8' - 6"

3' - 0"

1' - 6"

1' - 2"

LEVEL 01 0' - 0"

2' - 0"

2' - 0"

1' - 2"

2' - 4 1/16"

LEVEL 01 0' - 0"

LEVEL 01 0' - 0"

Description

1' - 0"

V.I.F.

13' - 4 1/2"

Scale

1" = 1'-0"

2

3

Elevation 1 - b SCALE: 1" = 1'-0"

6

Elevation 1 - c SCALE: 1" = 1'-0"

A300

Elevation 1 - d SCALE: 1" = 1'-0"

PORCH ROOF 7' - 6"

PORCH ROOF 7' - 6"

OVER HANG RETURN MAIN

NOT FOR CONSTRUCTION

BATHROOM B 0108 35.58 SF

3' - 3"

C:\Users\Joshua\OneDrive\House M\ProjectM - 220502.rvt

4 1/2"

4 1/2" 2' - 0"

THROUGH JOIST

4' - 0"

KITCHEN 0104 103.47 SF

RETURN MAIN TO BASEMENT

BEDROOM B 0107 168.23 SF

Project Name

DETAILS KITCHEN 3' - 8 1/2"

CEILING MOUNT RETURN GRILL

VESTIBULE 0102 7.02 SF

OVER HANG RETURN MAIN

AHU SUPPLY AIR

FR.L01

NOT FOR CONSTRUCTION

2022/5/3 2:13:50

1 1/8" 2' - 6"

8' - 6" 1 1/8" 2' - 6"

RETURN AIR LEVEL 01 WINDOW SILL 3' - 3"

MARYLAND RESIDENCE

C:\Users\Joshua\OneDrive\House M\ProjectM - 220502.rvt 2022/5/3 2:13:25

OVER HANG SUPPLY MAIN

5' - 6 3/8"

5' - 6 3/8"

FOYER 0101 117.39 SF

Project Name

MARYLAND RESIDENCE VENT

OVER HANG FRESH MAIN

Description

HVAC PLUMBING

FRESH AIR INTAKE

PUMP

1

2

LEVEL 00 RCP HVAC SCALE: 3/8" = 1'-0"

Scale

3/8" = 1'-0"

5

LEVEL 01 RCP HVAC SCALE: 3/8" = 1'-0"

E110

LEVEL ATTIC FLOOR HVAC SCALE: 3/8" = 1'-0"

© 2020 JIAHUA XU

© 2020 JIAHUA XU

MARYLAND RESIDENCE

MARYLAND RESIDENCE

4409 BEECHWOOD ROAD, UNIVERSITY PARK, MD 20782

7' - 6"

4409 BEECHWOOD ROAD, UNIVERSITY PARK, MD 20782

LEVEL 01 0' - 0" LEVEL 01 SUN RM -0' - 3 1/2"

4

LEVEL 01 0' - 0" LEVEL 01 SUN RM -0' - 3 1/2"

5

BATHROOM A CORE ELEVATION NE SCALE: 1" = 1'-0"

BATHROOM A CORE ELEVATION NW

SCALE: 1" = 1'-0" PORCH ROOF 7' - 6"

NORTH CRAWL SPACE 0002 85.76 SF

W/DW/D

BASEMENT 0001 638.21 SF 6

PLUMBING PATH 1/4" PER FT MINIMAL SOUTH CRAWL SPACE 0003 115.76 SF

3

LEVEL 01 0' - 0" LEVEL 01 SUN RM -0' - 3 1/2"

2

6

BATHROOM A AXON SCALE:

7

The renovation of a Tudor-style house located in the University Park, conveniently close to amenities and major transportation. The home features a cozy living room with a fireplace, a master suite, and a contemporary kitchen leading to a glass-ceiling garden room on the ground floor. Upstairs, two bedrooms exude 1930s elegance with original woodwork. Modern updates include a dual-vanity bathroom, new laundry appliances, and an HVAC system with fresh-air intake.

7

BATHROOM A CORE ELEVATION SE SCALE: 1" = 1'-0"

5

LEVEL 00 BATHROOM A PLUMBING SCALE: 1/8" = 1'-0"

7

6

5

3

SCALE:

Date

C

Description

C

3

3

42"

7' - 6 5/16"

FULL HEIGHT WINDOW 2.6

42" GFCI

4' - 4 11/16"

RECESSED DOWN LIGHT

EL. -1 1/2"

B

VENTILATION FAN

A301 4

A301

WALL DRAIN TOILET WINDOW

5

EL. 0"

2

HEAT BULD WITH VENT

I

A305

2' - 9 7/8"

3

EL. 5 1/4"

HEAT BULD WITH VENT

EL. 11 1/4"

2022/5/3 2:13:30

C:\Users\Joshua\OneDrive\House M\ProjectM - 220502.rvt

RECESSED DOWN LIGHT

3

Project Name

MARYLAND RESIDENCE

Description

DETAILS BATHROOM A

A305

CURTAIN ROD

FULL HEIGHT WINDOW

Scale

As indicated

1

3

BATHROOM A DETAIL PLAN SCALE: 1" = 1'-0"

A301

BATHROOM A RCP

NOT FOR CONSTRUCTION

Project Name

MARYLAND RESIDENCE

SCALE: 1" = 1'-0"

C:\Users\Joshua\OneDrive\House M\ProjectM - 220502.rvt

A301

2022/5/3 2:13:34

EL. 9 1/4"

1' - 10 1/2"

00' 00"

5' - 6"

NOT FOR CONSTRUCTION

6

45°

A

A

Description

DETAILS BATHROOM C

Scale

1" = 1'-0"

2

3

BATHROOM C DETAIL PLAN SCALE: 1" = 1'-0"

A303

BATHROOM C RCP SCALE: 1" = 1'-0"

© 2020 JIAHUA XU

© 2020 JIAHUA XU

MARYLAND RESIDENCE

4409 BEECHWOOD ROAD, UNIVERSITY PARK, MD 20782

4409 BEECHWOOD ROAD, UNIVERSITY PARK, MD 20782

BATHROOM C AXON

Description

1

MARYLAND RESIDENCE

MARYLAND RESIDENCE

1 Date

CURTAIN ROD

A305

GFC42"

Program: Single Family Residence Area:1,513 SF Location: University Park, MD Built: 1930s Status: Completed 2023

6

7

4409 BEECHWOOD ROAD, UNIVERSITY PARK, MD 20782

65

4

3

2

3 ________ ________ A210

7

10

65

43.9

3

3 ________ ________ A210

2.6

2.1 2

MARYLAND RESIDENCE

10

4409 BEECHWOOD ROAD, UNIVERSITY PARK, MD 20782

NOTES: 1. DOUBLE HUNG VINYL WINDOW, USING CRYSTAL WINDOWS SERIES 200, MATCH EXISTING COLOR AND SIZE, MATCH EXISTING NUMBERS OF MUNTIN AND GRILLES. INTERGRATE SCREEN WINDOW 2. SLIDING ALUMINUM WINDOW, USING CRYSTAL WINDOWS SERIES 2300, BRONZE COLOR AAMA 2605, MATCH EXISTING SIZE, MATCH EXISTING NUMBERS OF MUNTIN AND GRILLES. INTERGRATE SCREEN WINDOW

1

4

W8

2

1

3

1

0101-A W2

7' - 3"

1' - 4 1/2"

FOYER CLOSET 0110 9.39 SF

W1

8 1/2" 8"

CLOSET C 0205 75.12 SF

EQ

CLOSET B 0111 10.11 SF

EQ

EQ

A305

LEVEL 00 -7' - 7 1/2"

1

LEVEL 00 -7' - 7 1/2"

2

SECTION EW 1 SCALE: 1/4" = 1'-0"

G

F

E

D

2

C

1 ________ ________ A210

B

2 ________ ________ A210

V.I.F

SCALE: 1/4" = 1'-0"

5

5

2

SECTION EW 2

A ROOF 25' - 0"

7' - 3"

CLOSET D 0006 23.45 SF

3

3

01 LEVEL 01LEVEL SUN RM 0' - 0" CURRENT SOIL BASEMENT -0'CEILING -LEVEL 3 1/2" 10 1/2" -0' - 11

BASEMENT CEILING -0' - 11 1/2"

3

0105-A

LEVEL 01 WINDOW SILL 3' - 3"

3 2

A300

W13

2

0202-A

1

2

NORTH ELEVATION SCALE: 1/4" = 1'-0"

LEVEL 02 CEILING 17' - 3 3/4"

EAST ELEVATION SCALE: 1/4" = 1'-0"

ROOF WINDOW 15' - 5 3/4"

3

STAIR A 0299 Redundant Room

INSTALL ARYLIC BACK BOARD TO STAIR

0203-A

BEDROOM C 0203 145.96 SF

LEVEL 02

- 5 1/2" LEVEL 01 9'CEILING 8' - 6" PORCH ROOF 7' - 6"

3

6

A200

W10

3 3

1' - 6" 2

STUDY 0202 172.13 SF

42" GFCI

KITCHEN 0104 103.47 SF

VESTIBULE 0102 7.02 SF

42" GFCI

0102-A

2

0101-B 3

STAIR A 0199 Redundant Room

5' - 4"

A200

3

BEDROOM A 0105 219.22 SF

4 1/2"

18' - 10 13/16"

8" 8 1/2"

2' - 2 3/8"

9' - 9"

3

Date

Description

Date

Date

Description

Description

________ ________ 4 A300

4' - 8 5/8"

3

W2

Date

Description

LEVEL 01 WINDOW SILL 3' - 3" 3

W4

3' - 2"

BASEMENT CEILING -0' - 11 1/2"

W3

BEDROOM B 0107 168.23 SF

7' - 11 11/16"

9' - 6 3/4"

9' - 4 1/16"

7' - 6 5/16"

CURRENT SOIL LEVEL -0' - 10 1/2"

42" GFCI

42" GFCI

0105-C

LEVEL 01 LEVEL 01 SUN RM -0' - 3 1/2" 0' - 0"

42"

42" GFCI 42" GFCI

2' - 2 5/16"

1' - 0"

2

LEVEL 00 -7' - 7 1/2"

BATHROOM B 0108 35.58 SF

________ ________ 2 A303

W3 SUNROOM 0109 Not Enclosed

3

1

SECTION NS 1 SCALE: 1/4" = 1'-0"

1

1

1/2" = 1'-0"

1

LEVEL 01

A101

SCALE: 1/2" = 1'-0"

© 2020 JIAHUA XU

24

Description

CONSTRUCTION PLAN LEVEL 02

Scale

1/2" = 1'-0"

1

LEVEL 02

A102

SCALE: 1/2" = 1'-0"

© 2020 JIAHUA XU

________ ________ 3 A305

5

EQ

EQ

EQ

NOT FOR CONSTRUCTION

Project Name

MARYLAND RESIDENCE

Description

ELEVATIONS 18' - 11 9/16"

5

7' - 3 1/2" V.I.F

1 1

4

SOUTH ELEVATION SCALE: 1/4" = 1'-0"

3

WEST ELEVATION

5

NOT FOR CONSTRUCTION

Project Name

MARYLAND RESIDENCE

Scale

1/4" = 1'-0"

A200

SCALE: 1/4" = 1'-0"

© 2020 JIAHUA XU

C:\Users\Joshua\OneDrive\House M\ProjectM - 220502.rvt

Scale

1

4 C:\Users\Joshua\OneDrive\House M\ProjectM - 220502.rvt

Description

3

1

2022/5/3 2:13:18

Project Name

MARYLAND RESIDENCE

C:\Users\Joshua\OneDrive\House M\ProjectM - 220502.rvt

Project Name

MARYLAND RESIDENCE

CONSTRUCTION PLAN LEVEL 01

1

NOT FOR CONSTRUCTION

2022/5/3 2:13:21

NOT FOR CONSTRUCTION

2022/5/3 2:13:08

C:\Users\Joshua\OneDrive\House M\ProjectM - 220502.rvt

18' - 9 9/16"

2022/5/3 2:13:07

A200

LEVEL 01 SUNLEVEL RM 01 0' - 0" -0' - 3 1/2" CURRENT SOIL LEVEL -0' - 10 1/2"

V.I.F

6' - 11"

2 42" GFCI

0107-C

FOYER 0101 117.39 SF

I

0105-B

7' - 6"

LEVEL 01 WINDOW SILL 3' - 3"

1

6' - 8"

- 2" 1' 4"

BATHROOM A 0106 88.73 SF

LEVEL 02

- 5 1/2" LEVEL 01 9'CEILING 8' - 6" PORCH ROOF

W4

0101-C

3

GFC42"

7' - 3 1/2"

8' - 8 1/2"

LIVING ROOM 0103 158.23 SF

ROOF WINDOW 15' - 5 3/4"

LEVEL 02 9' - 5 1/2"

5. AWNING VINYL WINDOW, USING CRYSTAL WINDOWS SERIES 245, OPEN INWARD, MATCH EXISTING COLOR AND ROUGH IN SIZE.

2

3

8" 8 1/2" ________ ________ 4561 A301 A304 A305

LEVEL 02 CEILING 17' - 3 3/4"

ROOF WINDOW 15' - 5 3/4"

4. PICTURE VINYL WINDOW, USING CRYSTAL WINDOWS SERIES 211/215, MATCH EXISTING COLOR AND ROUGH IN SIZE

4' - 9 7/8"

LEVEL 02 CEILING 17' - 3 3/4"

LEVEL 01 CEILING 8' - 6" PORCH ROOF 7' - 6"

3. PICTURE ALUMINUM WINDOW, USING CRYSTAL WINDOWS SERIES 2100, BRONZE COLOR AAMA 2605, MATCH EXISTING ROUGH IN SIZE, REFER TO DRAWING A200 AND A305 FOR WINDOW DIVISION

1

ROOF 25' - 0"

V.I.F.

5

W1

ROOF 25' - 0"

Description

SECTION EW 1

Scale

1/4" = 1'-0"

A210 © 2020 JIAHUA XU


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