QIJING WU M. Arch, Delft University of Technology 2009 - 2015
QIJING WU PHONE: 031637275568 E-MAIL: ginwo@hotmail.com
Education 08/2013 - 06/2015
M. Arch, Faculty of Architecture and the Built Environment, Delft University of Technology, Delft, the Netherlands
08/2007 - 05/2012
B. Arch, School of Architecture, Hunan University (HNU), Changsha, Hunan, China
Experience
Honors
01/2016 – present
Trainee, Mecanoo, Delft, Netherlands
11.2015 – 12.2015
Freelance Architect, Rotterdam, Netherlands paticipated in a Shanghai Primary School and Kindergarden project, 2 months
03/2013 – 06/2013
08/2008 - 09/2008
and the work was published in Selected Works of the 2008 Revit Cup National Design Competition of Architecture Students
08/2009 - 09/2009
went through whole project, redrew details, updated renderings, made 1:1 mockups
Excellence Award of Revit Cup National Design Competition of Architecture Students and the work was published in <Selected Works of the 2009 Revit Cup National Design Competition of Architecture
Internship, Kengo Kuma and Associates, Beijing, China focused on Novartis Shanghai Campus Phase I (Cafeteria) project , China, 3 months
Excellence Award of Revit Cup National Design Competition of Architecture Students
Students>
Skills CAD & BIM: AutoCAD, Revit (basic)
06/2012 – 07/2012
Participant, FUTURE (student competition)
04/2011 – 05/2011
Participant, UIA2011 TOKYO (student competition)
Rendering: Vray for Rhino, Vray for Sketchup
07/2010 – 08/2010
Participant, D[a]L+ZHA CODE Komorebi Summer Workshop Changsha
Publications
10/2009 – 11/2009
Participant, Liu Yudong Workshop Changsha, Hunan, China
Modeling: Rhino, Sketchup
Urban and Architecture Magazine (UA)
and the work was published in Urban and Architecture Magazine
08/2009 – 09/2009
08/2008 – 09/2008
Participant, the 2009 Revit Cup National Design Competition of Architecture Students Participant, the 2008 Revit Cup National Design Competition of Architecture Students
URBAN AND ARCHITECTURE PRESS ISSN 1673-0232 2010.06
Presentation: Microsoft PowerPoint, InDesign Graphics: Adobe Photoshop, Illustrator
Selected Works of the 2008 Revit Cup National Design Comprtition of Architecture Students
Selected Works of the 2009 Revit Cup National Design Comprtition of Architecture Students
CHINA ACHITECTURE & BUILDING PRESS
CHINA ACHITECTURE & BUILDING PRESS
ISBN 978-7-112-10423-9
ISBN 978-7-112-12222-6
Contents
Architectural Design | Main
VROM Building Transformation Novartis Shanghai Campus Phase I (Cafeteria)
Architectural Design | Other Works
Bridge River Office Skyscrapper Changsha Theater
VROM Building Transformation, Office, The Hauge, The Netherlands Student Work (Master Graduation Project), Individual Work, 2014.9 - 2015.6 Tutors: Mark Pimlott, Laura Alvarez, Mauro Parravicini
Den Haag CS
Malieveld
RI JN AT RA ST E
AG
SS PA Ministry District Ministry of OCW
Den Haag CS
Den Haag CS
Rijnstraat 8 Ministry of VWS
KT
Ministry of Security and Justice
AR
M RF
TU
JN
RI AT
RA
ST
City hall of the Hague
SITE - THE HAGUE CENTER
SITE - AROUND BUILDING
GE
SA
S PA
CE AN TR EN EN ARD G
KT
AR
M RF
TU
ORIGINAL SITUATION
CURRENT SITUATION
12-18F
Office
11F
Green
10F
Restaurant
UPPER PART
8-9F Meeting & office
MIDDLE PART
4-6F Conference Center 2-6F Exihibition Center
2-7F
VIP Center
G-1F
Entrance hall
LOWER PART
01
02
06
05
03
04
This project designed and will be present by “route to work”. In this way, movement of civil servants will be combined with sequences of spaces in new VROM building. Within transformation from public to small working space, atmosphere of spaces are transform from cold to warm, noisy to calm. Through “route to work” in ground floor, civil servants walk through “New Passage”, “Entrance Garden”, “Entrance Hall” than get to core. This sequence of spaces shows transformation from boring outdoor public (Railway station), interior public with shining light (New Passage with stores and exhibitions), natural public garden with bright light to indoor entrance with serious and elegant image of government.
GROUND FLOOR PLAN
ROUTE TO WORK
Entrance of New Passage
01
New Passage
02
Entrance Garden
03
04
05
06
1
2 5400
3 5400
5
4 6300
4500
6 4500
7 6300
8 5400
9 5400
D-D
10 6300
11 4500
12 4500
13 6300
C-C
14 5400
15 5400
16 6300
18
17 4500
4500
19 6300
B-B
20 5400
21 5400
22 6300
23 4500
24 4500
25 6300
26 5400
27 5400
28 2600
A-A
7200
A
7200
B
BAR +26.4m L08
5400
C
5400
D
LOBBY
LOBBY
Z-Z
5400
E
F 5400
07
7200
G
09
08
BAR
H STORAGE
STORAGE
7200
BAR BACKOFFICE SERVICE BACKOFFICE
7200
I
TECHNICAL AREA
FRAGMENT I
8th floor to 10th floor are designed as a package of “connection layer”, in order to connect all cores to upper offices. Carrying group offices, meeting rooms, informal meeting rooms and restaurant (10th floor), package of floors plays as a central hub and connects to other programs in New VROM building (office, conference center, VIP office, entrance) tightly.
J
10800
In 8th floor, the bottom floor of “connection layer”, civil servants need to pass atriumns to get to work, these four halls, presenting light and silence, have different spaces but similar atmosphere to calm people down.
4800
K
L
8TH FLOOR PLAN
ROUTE TO WORK 8TH FLOOR
Atriumn I of 8th Floor
07
Atriumn II of 8th Floor
08
Atriumn of Conference Center
09
Platform of Restuarant at 10th FLoor
10
11
Typical Office Room
12th floor to 18th floor are office floors. Based on they are situated at highest level of new VROM building with 4 courtyards, they have best sunlight and nice view. After civil servants get out of cores, they moods would be become bright and shining with sufficient sunlight and courtyard view. They will pass informal meeting space and open office before they reach to they office room. Materials here are cold but smooth, hard but natural, in order to offer a hint for a cozy office room.
13TH FLOOR PLAN
ROUTE TO WORK
Informal Meeting Space
10
Open Office Space
11
TYPICAL OFFICE ELE 1
TYPICAL OFFICE ELE 2
TYPICAL OFFICE ROOM 12-18TH FLOOR
TYPICAL OFFICE DETAIL
INFORMAL MEETING SPACE & GROUP OFFICE ROOM 8-10TH FLOOR
WINDOW FRAM DETAIL
WOOD DOOR DETAIL
GROUP OFFICE ELE 1
GROUP OFFICE PLAN
GROUP OFFICE ELE 2
3
2
2
1 Floor construction:
3 1
2
Hardwood floorboards, 22mm
1
Pine battens, 45mm Height-adjustable plastic pedestals
4
Filter fleece 6
D3
9
7
Waterproofing
8
4
Extruded polystyrene (XPS) board, 75 mm x2 Reinforced concrete
5
Hollow Core Slab - 5 core, 220 mm depth
23
5 16
2 Steel angle, 150 x 150 mm
12
3 Balustrade: 2 No.10mm lam. Safety glass
21
22
with stainless steel handrail
28
18
20
19
19
18
8
17
6
D1
D4
10
11
6
4 Sheet aluminum, coated with bronze, 4mm 6
5 Aluminum ventilation louvers, with insect
14
screen 24
Group Office
27
6
12
13
6 Sheet aluminum, coated with bronze, 4mm
6
Waterproofing layer
15 25
Sheet aluminum, 4mm
26
Waterproofing layer
16 7
7 Aluminum glazing bar, coated with bronze 15
13
15
8
14
1
14
12
9
10
11
8 Glazing: toughed safety glass, 8mm
1
Informal Meeting Space 29
12
28
Group Office 12
9 Stiffening glass mullion, 124 x 50mm
DETAIL 1
13
10 Insulation glazing:
22
Toughed safety glass, 6mm 21
ELEVATION
2
FRAGMENT SECTION
Cavity, 12mm
DETAIL 2
D2
SGG PLANICLEAR clear glass combined with SGG COOL-LITE SKN 165, 6mm
1
1 Grass roof construction: Artificial grass Crushed sand leveling layer filter fleece on drainage element 100mm Filter fleece Drainage layer 100mm Filter fleece Protective membrane Bitumen waterproofing, 2-ply Extruded polystyrene (XPS) board Vapor barrier, separating membrane Reinforced concrete Hollow Core Slab - 5 core, 220 mm depth 2 Sheet meal skirting, 2mm 3 Sheet aluminum capping, 4mm, beat to suit Sheet aluminum clip, 4 mm Bitumen waterproofing, 2-ply
21 Aluminum ventilation louvers, with insect screen
6 Steel beam, HEB 260, 260 x 260mm
23 Balustrade: 2 No.10mm lam. Safety glass with stainless steel handrail
10 Square LED, 1160 x 18 (width) x 21 (height) mm 11 Acoustic absorber, 1200 x 150 x 30 mm, 800 x 100 x 30 mm 12 Floor construction: Concrete finish floor with heating screed separating layer, 80mm Insulation 80mm Reinforced concrete Hollow Core Slab - 5 core, 220 mm depth 13 Floor construction: American walnut floor boards, 20 mm Heating screed separating layer, 60mm Reinforced concrete Hollow Core Slab - 5 core, 220 mm depth 14 Indoor single glazing with wood frame
12 Sunshade: 8
9
10
11
18
6mm wide stainless steel strips with stainless louvers
16
18 Steel beam, HEB 550, 550 x 300mm
5 Insulation glazing: Toughed safety glass, 6mm Cavity, 12mm SGG PLANICLEAR clear glass combined with SGG COOL-LITE SKN 165, 6mm
9 Suspended natural wood ceiling system, 1800 x 80mm
50mm 9
17 Duct of fresh air
19 Return air duct
8 Steel angel, 200 x 100mm
and rail framing, with thermal break, 115 x 27
16 Floor construction: Hardwood floorboards, 22mm Pine battens, 45mm Height-adjustable plastic pedestals Filter fleece Waterproofing Extruded polystyrene (XPS) board, 75 mm x 2 Reinforced concrete Hollow Core Slab - 5 core, 220 mm depth
4 Faรงade construction: Vertical timber boards, 20x 230 mm Battens, 20 x 40mm Vapor-permeable paper Thermal insulation panel, 75mm
7 Steel beam, HEB 400, 400 x 300mm
11 Stiffening glass mullion, aluminum post-
15 Steel truss section, 400 x 300 x 9mm
13 Steel beam, HEB 550, 550 x 300mm
7 17
14 Steel angle, 200 x 100mm
30
20 Sunshade: 6mm wide stainless steel strips with stainless louvers
15 Steel beam, HEB 260, 260 x 260 mm
15 24
27
22 Sheet aluminum, coated with bronze, 4mm
24 Stiffening glass mullion, 124 x 50mm
11 13 22
25
31
25 Glazing: toughed safety glass, 8mm 26 Insulation glazing: Toughed safety glass, 6mm Cavity, 12mm SGG PLANICLEAR clear glass combined with SGG COOL-LITE SKN 165, 6mm
16 Aluminum ventilation grill
6
26
17 Ventilation flap
15
18 Floor construction:
11
Concrete finish floor with heating screed
15
separating layer, 80mm
27 Stiffening glass mullion, aluminum post-and rail framing, with thermal break, 115 x 50mm
Insulation 80mm
28 Ventilation flap
Reinforced concrete
29 Decoration screen: fixed to floor and ceiling with steel sticks, 40 x 60 mm
Hollow Core Slab - 5 core, 220 mm depth
30 Aluminum ventilation grill
Thermal insulation 150 mm
13
31 Main column of Steel truss, 300 x 400 x 9 mm
1-1
Waterproofing layer
2-2 5
13
14
Novartis Shanghai Campus Phase I (Cafeteria), Shanghai, China Professional Work, 2013 Architect: Kengo Kuma and Associates
Understanding whole project (including program, space, all materials of floor, wall, ceiling and details etc.) Updated renderings in that period Redrew Auto CAD Drawings: Door Details
Basement Floor Plan
VIP Dining Room Details
Basement Reflected Ceiling Plan
First Floor Open Servey Area Details
Restroom Typical Details
First Floor Corridors Details
Male Changingroom Details
First Floor Barrier Free Restroom Details
Basement Mezzanine female Restroom Details
Mezzanine Floor Finishes Plans
Roof Floor Grille Vestibiile Detail
Mezzanine Floor Servery Area Details
Open Staircase Details
Glulam Beam Layout
Cold Bevarage Storage Details
Participated in correcting whole drawings in ending of that period Made 1:1 mockups of ceiling and a wash basin
GROUND FLOOR PLAN
EXPERIENCE
4 “LUNCH MEETING”
5 “SOFA”
6 “THE PAIRS”
7 VIP DINING ROOM
DOOR DETAILS PART I
VIP DINING ROOM DETAILS I
VIP DINING ROOM DETAILS III
Bridge River, Chongqing, China Competition Work, 2012 Collaborarion: Mengfan Fu, Yang Sun, Sheng Li
Office Skyscrapper, Changsha, China Student Work, Individual Work, 2010 Tutor: Feng Xu
96.400 92.800 89.200 85.600 82.000 78.400 74.800 71.200 67.600 64.000 60.400 56.800 53.200 49.600 46.000 42.400 38.800 35.200 31.600 28.000 24.400 20.800 17.200 13.600 10.000
Âą0.000
-4.800 -8.700
Changsha Theater, Changsha, China Student Work, Individual Work, 2012 Tutor: Mingxing Song
Circular Passage
Artists's Residence
Theatre
Offices
Media Exhibition
Musical School
FUNCTIONAL DIAGRAM
2009 Revit Cup National Design Competition of Architecture Students Competition Work, Team Work, 2009 Collaborarion: Mu Yan, Peng Yike, Zhang Wenzheng
A section is used to inspect the inner configuration of the prototype. The postlintel timber frame is as clear as we can see.
The timber frame can be extracted and simplified like this. Then the triangle of roof truss is transformed into a square by adding two tilted bars, which can be suggestive of a stair.
The frame is doubled and shifted in order to embed a continuous route.Then we extrude the dobled frame in 3D and get the skeleton of a new pavlion.
CONFIGURATION
CIRCULATION