作品集
作品目录
Selec ted Work 刘思文 Liu Siwen
01
02
渝中半岛慢行系统规划
摩苏尔 努里清真寺 战后重建计划
03
04
城市生态圈
地铁中的雨洪管理 以郑州五号线为例
产生慢性系统的基本分析
渝中半岛 慢行系统规划 Duration: 12 Weeks Academic: Year 4 (2021) Location: Chongqing, China Tutor: Li Chunmei, 0571-88982529 2655976503@qq.com Type: Individual
渝中半岛具有较强的立体交通体系。铁路、缆车、电梯的多样化应用为居民的日常生活 提供了便利。然而,由于地形多变的不便,步行和骑自行车在这个多山的城市被忽视了。 考虑到依赖汽车造成的健康问题,慢行应该是每个城市的最佳交通方式。
TOPOGRAPHIC CONTOUR Follow the contour line for line planning.
SCENIC SPOTS DISTRIBUTION MAP Locate the scenic spots and connect them to tour routes.
SETTLEMENTS MAP The settlements are mainly on the west side of the peninsula.
GREEN SPACE MAP The green space is unevenly distributed, mainly in the west. The green ground on the east side is smaller but much more used.
HEAT MAPCONTOUR T h e ove r a l l t r e n d o f h u m a n a c t i v i t i e s gathered in the center of the peninsula, and fangbi business circle as the heat center.
BUILDING PLAN The base image shows the general distribution of buildings, the buildings in the red box are extremely dense areas or have special functions.
LAND USE MAP The settlements are mainly on the west side of the peninsula.
此外,交通系统是城市体验的重要组成部分。因此,在多变的山地环境中,应该出现一 种慢速交通系统,提供多样化的出行选择,既方便又环保。
m
ula
SITE ANALYIS 场地分析
SLOW SYSTEM ROADMAP The slow system combines the terrain, hot spots, tourists' preference and local residents' daily habits, and creates new channels on necessary occasions under the premise of following the original road.
E
VERTICAL LOOP LINE VERTICAL LOOP LINE
立体的环线
LOOP LINE
LOOP LINE
Diverse Reuse
Streets For Local
Riverside 山城步道
In The Corner Of The Street 街边一角
hh
在地面上,街道被美化和随意化,通过在中间设置车站 和骑行道来优化交通 ; 在 2-3 层的高度设置人行天桥,分 散人群,缓解道路拥堵 ; 在住宅楼 7-8 层的高度,每个屋 顶都通过道路连接起来,原来的私人屋顶变成了共享花 园。此外,利用建筑内部的楼梯、电梯等设施,实现地 面与屋顶的连接。
EFFECT PICTURE
Diverse Reuse
Vertical Traffic
Streets For Local
EFFECT PICTURE
Streets For Local
EFFECT PICTURE
Vertical Traffic
Riverside 山城步道
hh
Diverse Reuse
Vertical Traffic hh
Riverside 山城步道
Walking systerm Connection
Walking Slope protection systerm 10 meters
Walking Slope protection systerm Low-rise High-rise
Mountain cable car 40 meters
Terrain
Walking systerm
Mountain cable car Connection types Residential building rise
Walking Slope protection systerm Station Low-rise Through the obstacles
Mountain cable Interactive facilities Connection typescar Street landscaping
Slope protection
Spcae under the bridge Walking Slope protection systerm Station Low-rise Neighboorhood park
Spcaeprotection under the bridge Walking Slope systerm Station Low-rise Connection
Low-rise
Station
洪崖洞效果图
Spcaeprotection under the bridge Slope Station Low-rise 10 meters
Walking systerm
Interactive Place for a facilities shor t stay Connection types Residential building rise
Slope protection
Low-rise
Interactive facilities
Place for a shor t stay
The Yuzhong Peninsula
Connection
Riverside Mountain cable car
10 meters
Vertical Traffic
VERTICAL TRAFFIC
Connection types
HIGH DIFFERENCE
SLOW SYSTEM
Spcae under the bridge Station Low-rise High-rise
Street landscaping Relationships Residential building rise Vertical Traffic
Mountain Interactive Place forcable facilities a shorcar t stay Connection types 40 meters
Spcae under the bridge
Mountain Interactive Place forcable facilities a shorcar t stay Connection types Terrain
Mountain car Interactive Place forcable facilities a shor t stay Connection types Relationships
Street landscaping Relationships 40 meters Residential building rise Riverside
在着手重庆渝中半岛的山地慢行系统,采用垂直方向的方式,我为不同的人设计了不同的路段。游客有一个 简单、快捷、方便的方式到达景观区。居民可以选择以骑自行车和步行为基础的交通系统来欣赏城市风景。 对于当地的搬运工,我在建筑内部插入电梯,以避免翻山,这也使私人空间变成了公共空间。在进行这些项 更有弹性的环境, 目的过程中, 我从未忘记我的初衷——为生者提供一个更安全、 同时与历史和文化和平相处。
Mountain cable car
Street landscaping Terrain Relationships 40 meters Residential building rise The Yuzhong Peninsula
VERTICAL TRAFFIC
Street landscaping Terrain Relationships 40 meters Residential building rise Overpass For Bikes
FFIC LOCAL SE
HIGH DIFFERENCE
Street landscaping Terrain 40 meters Residential building Punch rise Internet Celebrities In
SLOW SYSTEM VISUALIZATION
DIVERSE REUSE
STREETS FOR LOCAL
Terrain 40 meters Residential building rise Vertical Traffic
VERTICAL TRAFFIC
Terrain 40 meters Riverside
HIGH DIFFERENCE
SLOW SYSTEM
Terrain The Yuzhong Peninsula
FFIC NCE SE LOCAL
FFIC LOCAL SE NCE
FFIC LOCAL SE NCE
FFIC LOCAL NCE
FFIC NCE
NCE
Connection types
High-rise
水循环系统 引导水流 : 过滤、净化、再利用或排放 以水为中心的策略旨在解决暴雨对地铁空间的影响。管道系统的策略包括两个功能,排放大雨和日常生活污水净 化。地铁分为三个层次 : 地表 ( 包括入口 )、地铁内部和轨道深层的不可见区域。 内部战略侧重于每天使用植物净化污水 ; 当暴风雨来临时,把水引到水箱里。最深的部分在轨道下面有一系列的 水箱来储存雨水。把它释放到地下通道。地面策略位于入口周围,以防止其被淹没,促进渗透并将水引入湖中 ; 在大雨中,排水管被打开,地下水可以被移除。
地铁中的雨洪管理 以郑州五号线为例 Duration: 10 Weeks Academic: Year 3 (2020) Location: Zhengzhou, China Tutor: Deng Yunlan, +86 13516828768, yldeng@zju.edu.cn Type: Individual
在城市化的爆发中,人们对自然的 向往进一步放大。另一方面,动物 的栖息地正在迅速缩小。有些动物 别无选择,只能适应城市环境。 由于城市的不断扩张,地球上的土 地变得越来越稀缺。城市生态圈的 概念是基于动物的适应性和人们与 动物互动的愿望。绿地中栖息地的 分布保证了动物的生存。人和动物 互动设施的建立为人们提供了与它 们互动的机会。
ground landscape
在地铁中
Daily Operation Input of Rain +Domestic Water
Inside the station
Inside the Station
the Station
Inside the Subway
. Ground Input of Rain the Exterior of the Subway
Entrance Waterproofing Entrance Landscape
infiltration
Reinfusion to the traditional ground stormwater management, the In addition design focuses on the treatment of the rainwater in the subway
and the nearby domestic sewage, and is committed to solving the flood disaster caused by the massive inflow of rainwater.
Subway layer 1
Skip the Filter
Sewage Purification 1
Spiral Pipe:Aesthetic + function
the Station
Outside the station
window
雨水 - 洪水 - 地下水 循环管理系统 从地表到地下
Occurrence of Extreme Weather Prevent Inflow In Time Drainage
Inside the station
Subway layer 2
Sewage Purification 2
Water Storage
From the moment the water falls, the stormwater management system operates, filtering, purifying, collecting, and eventually discharging to the ocean or returning to use through a series of pipes and installations.
Subway Layer 2: Further purification
.
、
Underground River:
摩苏尔之战结束后,努里清真寺遭到轰炸,整座城市被夷为平地,数千人无家可归。但是生活还是要继续。努里清真寺是伊斯兰教重 要的宗教建筑,在这样的现状下,该如何重建 ? 2050 WATER 2035 GROOVE 202520252 PLANE 2025 2050 2050 2025 2035 PLANE WALL 2035 WALL 2050 2035 2035 2025 WATER 2025 2025 2035 2035 GROOVE 2025 2035 2050 设计分为三个时间阶段,从功能、美学、可持续性和世俗化等不同角度满足当地居民在不同时期的需求。到 2025 年,该遗址将得到经 WATER 2025 2050 WATER 2025 2050 2050 PLANE 2025 PLANE 2025 2035 2035 WALL 2025 2035 WALL 2025 2050 2035 2050 GROOVE 2025 2035 PLANE 2025 2050 2025 2050 PLANE 2025 2035 2035 WALL 2025 2035 2050 WATER PLANE 2025 2050 2025 2035 WALL 2025 WATER 2025 2050 2050 PLANE 2025 2035 2035 WALL 2025 2035 WALL 2050 2050 PLANE 2025 2035 WALL 2025 2035 济和可持续的恢复,到 2035 年,它将成为宗教和功能的结合,到 2050 年,清真寺将变得更加包容和世俗。
摩苏尔 努里清真寺 战后重建计划
Duration: 12 Weeks Academic: Year 4 (2021) Location: Mosul, Iraq Tutor: Xie Yuting, +86 18368152652, xieyuting@zju.edu.cn Type: Individual
PLANE PLANE 2025 2025 PLANE 2025
2035 WATER 2025 2050 2035 WATER 2025 2035 2035 2050 WATER 2025 WATER 2025 2050 2050 PLANE 2035 2035 WALL 2025 2035 2035 2050 WATER 2025 2025 WATER 2025 2035 2035 2050 2050 PLANE 2025 2050 2035 WALL 20252050 WATER 2025 WATER 2025 2050 2035 2035 2035 WALL 2025 WATER 2025
GROOVE 2025 2035 GROOVE 20 2050 GROOVE 2025 2035 GROOVE 2025 2050 2050 2035 WALL 2035 GROOVE 2025 2035 GROOVE 2025 2025 2025 2050 2050 2025 2050 GROOVE 2035 2050 2050 2035 2050 GROOVE 2025 2035 2035 WALL 2025GROOVE 2050 2035
PLANE 2025
WATER 2025
2035 2035 2050 WATER 2025 WATER 2025 2035 2050 WALL 2035 2035 WATER 2025 2025 2050 WATER 2025 2050 WATER 2050 2025 2035 PLANE 2035 2025
?
2035 WATER 2025 2050 2035
GROOVE 2025 2050
GROOVE 2025 2035 GROOVE 2025 2050 2050 GROOVE 2025 2035 2050 2035 GROOVE 2025 2025 2035 2050 WALL 2050 2035 20252035 2050 GROOVE 2035 2050
2035 GROOVE 2025 2050 2035
2050
Streamline analysis analysis Streamline analysis Functional partition al partition Functional partition Vegetation analysis Vegetation analysis analysis Streamline analysis Streamline analysis Functional partition Vegetation Streamline Site plant preservation Site plant preservation SiteStreamline plant preservation FunctionalVegetation partition Functional partition Daily streamline streamline analysis Daily streamline analysis Functional partition Functional partitionanalysis analysis Vegetation Vegetation analysis analysis Daily Streamline analysis analysis Streamli on religio on religious holidays
analysis Streamline analysis Site plantFunctional preservation Site plant preservation StreamlineSite partition plant preservation
2025 R PLAN FLOOR 2025 PLAN 2025
2025 FLOOR PLAN 2025 Streamline analysis
ation
2025
sis
Vegetation analysis Vegetation Functional partitionanalysis
Streamline analysis Streamline Vegetation analysis analysis
DESIGN DESIGN CONCEPT DESIGN CONCEPT Vegetation analysis partition Functional partitionCONCEPT Streamline analysis Functional
DESIGN CONCEPT Vegetation analysis
Streamline analysis Functional partition
Vegetation analysis Functional partition Vegetation analysis Streamline analysis Streamline analysis Vegetation analysis Functional partition
DESIGN CONCEPT
FLOOR PLAN 2035
DESIGN CONCEPT
FLOOR PLAN 2035
DESIGN DESIGN CONC DE DailyCONCEPT streamline analysis Streamline analysis on religious holidays
Daily streamline Vegetation analysisanalysis
PLAN 2050 FLOOR PLAN FLOOR2050 PLAN 2050 FLOOR
DESIGN CONCEPT DESIGN Functional partitionCONCEPT Vegetation analysis DESIGN CONCEPT
Dailyanalysis streamline Daily analysis streamline analysis S Vegetation o
FLOOR PLAN FLOOR 2050 PLAN FLOOR 2050 PLAN 2050
FLOOR2035 PLAN 2035FLOOR PLAN 2035 FLOOR PLAN
Streamline analysis
DESIGN CONCEPT DESIGN CONCEPT DESIGN CONCEPT Functional partition Vegetation analysis Functional partition Streamline analysis
StreamlineVegetation analysis analysis
DESIGN CONCEPT DESIGN CONCEPT Functional partition
Functional partition Functional partition Vegetation analysis Vegetation analysispartition Streamline analysis Functional
FLOOR PLAN FLOOR 2035 PLAN FLOOR 2035 PLAN 2035
Streamline analysis Site plant preservation
Functional partition Functional partition Streamline analysis
Daily streamline analysis
holidays on religious
DESIGN C
Streamline analysis
Streamline analysis Functional partition Daily streamline analysis Vegetation analysis Streamline analysis Vegetation analysis holidays on religious Functional partition Daily streamline analysis Streamline analysis on religious holidays Functional partition Daily streamline analysis Vegetation analysis Streamline analysis holidays on religious
DESIGN CONCEPT
FLOOR PLAN 2050
DESIGN CONCEPT
FLOOR PLAN 2050
DESIGN CONCEPT
D
analysis Daily analysis Vegetation Streamline FunctionalStreamline partition analysis streamline Vegetation analysis Streamline analysis analysis nalysis Functional partition Vegetation analysis Functional partition Daily streamline analysis Functional partition Vegetation analysis Streamline analysis Vegetation analysis Streamline analysis Functional partition streamline analysis Vegetation analysis Daily analysis Streamline on religious holidays on religious holidays on religious holidays
DESIGN CONCEPT
FLOOR PLANDESIGN 2035CONCEPT
NCEPT DESIGN CONCEPT
FLOOR PLAN 2035
DESIGN CONCEPT
FLOOR PLAN 2035
DESIGN FLOOR PLAN 2050CONCEPT FLOOR PLAN 2050
DESIGN CONCEPT
FLOOR PLAN 2050 FLOOR PLAN 2050FLOOR PLAN 2050
DESIGN CONCEPT
DESIGN CONCEPT
DESIGN CONCEPT
FLOOR PLAN 2050
DESIGN CONCEPT DESIGN CONCEPT
FLOOR PLAN 2035
N 2035 FLOORCONCEPT PLAN 2035FLOOR PLAN 2035 DESIGN
FLOOR PLAN 2050
DESIGN CONCEPT DESIGN CONCEPT
DESIGN CONCEPT
DESIGN CONCEPT
DESIGN CONCEPT
DESIGN CONCEPT
REFUGEE CAMP AT ORDINARY TIMES Life Needs To Go On.
COMMUNITY PARK
COMMUNITY PARK AT ORDINARY TIMES
In 2050, the mosque will open as a community park during non- More Open And religious holidays, providing a place for residents to relax. The empty More Secular square ensures the needs of the festival gathering, and the seats scattered provide a space for residents to chat; Visitors can also stop here and enjoy the beautiful mosque.
OUTDOOR TEACHING
More And More Secular Open
A Blackboard Is A Classroom.
功能随时间变化 场地的功能和定位适应各个阶段的需要。2025 年,这里将成为难民营,以满足经济和可持续性的要求。到 2035 年,清真寺不仅将 恢复其宗教功能,还将作为没有教室的儿童露天教学区开放。到 2050 年,清真寺将是开放的,世俗的,美观的,欢迎穆斯林和游客。
城市生态圈
Animals Animals and Humans and Humans
Duration: 16 Weeks Academic: Year 3 (2020) Location: Hangzhou, China Tutor: Type:
Wu Jiayu, +86 13758188248, wujiayula@zju.edu.cn Individual
剖面显示了不同的生境类型。栖息地 特征决定了动物的分布以及人类与动 物的互动方式。
China, Hangzhou
Metasequoia glyptostroboides Hu & W. C. Cheng.
Close Interaction
Platanus acerifolia.
Perilla frutescens (L.) Britt.
Green Space Distribution Green Space Distribution
Distant Interaction
Metasequoia
Close Interaction
glyptostroboides Cortaderia selloana. Polygonum Platanus orientale L. Sp. acerifolia.
Hu & W. C. Cheng. Poa annua L. Cynodon.
Zelkova serrata (Thunb.) Makino
Mahonia fortunei Kalimeris indica (Lindl. )Fedde. Diospyros kaki Thunb. Britt. Metasequoia Osmanthus Perilla frutescens fragrans (L.) Britt.
Medium Interaction
Distant Interaction
Canna indica L.
Acorus calamus L.
Close Interaction
Pinus koraiensis Siebold et ZuccariniThunb. Britt.
Perilla frutescens (L.) Britt.
Jasminum sambac (L.) Aiton.
Salix chaenomeloides Cortaderia selloana. Krimura.
Kalimeris indica (L.) PolygonumLythrum orientale L.salicaria Sp. L.
Diospyros kaki Thunb. Britt.
Typha angustifolia L.
Salix babylonica Linn.
Poa annua L. Cynodon.
Zelkova serrata (Thunb.) Makino
Acer spp. fortunei Mahonia (Lindl. )Fedde.
Metasequoia
Osmanthus fragrans (Thunb.) Lou
Medium Interaction
Distant Interaction
Close Interaction
( ( ) )
Metasequoia glyptostroboides Hu & W. C. Cheng. Platanus acerifolia.
Cortaderia selloana. Pinus koraiensis Siebold et ZuccariniThunb. Britt.
Diospyros kaki Thunb. Britt.
Artificial Land
Kalimeris indica (L.)
Polygonum orientale L. Sp.
Poa annua L. Cynodon.
Zelkova serrata (Thunb.) Makino
Mahonia fortunei (Lindl. )Fedde. Metasequoia Osmanthus fragrans (Thunb.) Lour.
Perilla frutescens (L.) Britt.
Medium Interaction
LandLand TypeType Distribution Distribution
CHAIN CHAIN
Platanus acerifolia.
Commuting Range Analysis Commuting Range Analysis
Artificial Land
Metasequoia glyptostroboides Hu & W. C. Cheng.
Pinus koraiensis Siebold et ZuccariniThunb. Britt.
(Thunb.) Lour.
Kalimeris indica (L.)
Diospyros kaki Thunb. Britt.
Distribution LandLand TypeType Distribution
Pinus koraiensis Siebold et ZuccariniThunb. Britt.
External Traffic Analysis External Traffic Analysis
在城市化的爆发中,人们对自然的向往进一步放大。另 URBAN ECOSPHERE 一方面,动物的栖息地正在迅速缩小。有些动物别无选 URBAN ECOSPHERE 择,只能适应城市环境。由于城市的不断扩张,地球上 的土地变得越来越稀缺。城市生态圈的概念是基于动物 的适应性和人们与动物互动的愿望。绿地中栖息地的分 布保证了动物的生存。人和动物互动设施的建立为人们 提供了与它们互动的机会。
剖面图
Internal Traffic Analysis Internal Traffic Analysis
Distant Interaction
, ,
Polygonum
orientale L. Sp.
Acorus calamus L. Cortaderia selloana. Poa annua L. Cynodon.
Typha angustifolia L. Mahonia fortunei (Lindl. )Fedde.
Salix chaenomeloides Krimura.
Canna indica L.
Jasminum sambac (L.) Aiton. Salix babylonica Linn.
Acorus calamus L. Typha angustifolia L. Salix chaenomeloides Krimura. Lythrum salicaria L.
Canna indica L.
Jasminum sambac (L.) Aiton. Salix babylonica Linn. Acer spp.
Forest + Wetland: It can be only appreciated distantly
River Bend
Forest + Wetland: It can be only appreciated distantly
River Bend+Migration Bridege It can only appreciated distantly Forest + Wetland: be appreciated It can be only Forest + Wetland: distantly
River Bend River Bend
River Bend
River Bend+Migration Bridege
River Bend+Migration Bridege
Animal movements are designed to be observed and not disturbed to facilitate human-animal interaction.
River Bend+Migration Bridege
3
滨水活动空间
总平
Duration: 2 Weeks Academic: Year 3 (2020) Location: Hangzhou Type: Individual 二、前期分析+选址
校园景观更新设计
效果图和渲染图
Duration: 8 Weeks Academic: Year 4 (2021) Location: Hazngzhou Type: Group
场地位于浙江大学农学院中央庭院内。这个地方荒凉,无人照管。该场地旨在成为 中心花园,教师和学生可以在这里休息和交流。
总平
四季变换
3
前期分析:
10
我对江南古典园林的理解: 江南的古典园林以私家园林为主,以环形为主, 用曲折的廊连接,有闭合的意味,在曲折中营 造一个小世界,是内省的空间。 应用:在校园中,这种形式应当更加开放。
分析图 + 设计策略
二、前期分析+选址
前期分析 :
我对江南古典园林的理解:
古典园林分析 : 古典园林以私家园林为主,多为环形,由之字形廊道相连, 有一种封闭感,在之字形中创造一个小世界,一个自省的空间。 应用:在校园中,这种形式应当更加开放。 而我们的设计在校园的应用,建筑形式应该更加开放和包容。
江南的古典园林以私家园林为主,以环形为主, 用曲折的廊连接,有闭合的意味,在曲折中营 造一个小世界,是内省的空间。
东立面图
11
通过墙与柱的结合,实体墙的曲折往往产生戏剧性的效果, 而柱的并置则产生模糊的空间感。
设计概念 北立面图
通过对院落满意度的调查, 师生交流空间的建立是需要 考虑的重点。考虑到人群的 交流,它可以分为开放空间 和私人空间。此外,对于游 客从东南门进入,需要在入 口处有一个清晰通畅的结构 来引导游客深入场地。
东立面图
Original road streamline
Orient gazing direction
Modify road streamline
不同高度和方向的斜坡被用来创造一个开放和包容的空间。与古典园林的圆形结构不 同,面向水面的建筑曲线走廊突然打开,给人一种愉悦、轻松的氛围。
Proportion of green space
Determine road proportion
Total flat
作为一个改造项目,要求主要的流线和出入口保持不变,同时尽可能保留原有的肌理, 以降低施工难度。
作为景观更新项目,本项目不仅注重景观改造,也力求保留原有的场地设计内容。通过小路与主干道穿插, 强化和强化原有的田野肌理。并种植农学院特色植物,作为田间景观展示,表达本学科特色。
Traditional Chinese Painting Academic: Year 2(2019)
Measure Drawing
Academic: Year 3(2020)
Sleeper
Scenery 80cm×50cm
Trees 80cm×50cm
Trees 80cm×50cm
Sketch
Academic:
Year 1(2018) - Year 4(2021)
What is landscape to me ?
Tile and drip tile
During my college years, I kept observing classical Chinese landscape. I used painting to record my feelings of them, and tried two different expression methods of sketch and Chinese painting. Finally, I measured the parts of the building to feel the classical beauty exactly. Lily 30cm×40cm