Chunqi Zhang's Portfolio Selected Woks from 2012 - 2015
张
春
CHUNQI
祺 ZHANG
zhangchunqi0219@163.com +86 18621659329
EDUCATION | 教 育 经 历 UNIVERSITY OF SHEFFIELD, SHEFFIELD 谢菲尔德大学,谢菲尔德 Msc in Digital Design and Interactive Built Environment | 2014-2015
EAST CHINA JIAOTONG UNIVERSITY, NANCHANG 华东交通大学,南昌 Bachelor of Civil Engineering | 2007-2012
SOFTWARE |
软
件
AutoCAD, Revit, Vasari, Ecotect, Sketchup, Rhinoceros,Grasshopper, Adobe Creative Suite
PROFESSIONAL EXPERIENCE | 工 作 经 验 VARCH ARCHITECTURAL DESIGN & CONSULTING CO. 万千建筑设计咨询有限公司 Shanghai | Assistant Architect | August 2012 - Februrary 2013 上海 | 助理建筑师 | 2012 年 8 月 - 2013 年 2 月 Projects: Greenland Nanchang Headquarter, Qingdao Joy Coastal City Commercial Project, Vanke Cloud City Building Complex 项目:绿地南昌总部办公项目,青岛欢乐海滨城商业项目,万科云之城综合体设计
PUDONG NEW AREA PLANNING & ARCHITECTURAL DESIGN CO. 浦东新区规划建筑设计有限公司 Shanghai | Architect | March 2013 - July 2014 上海 | 建筑师 | 2013 年 3 月 - 2014 年 7 月 Projects: Liuzao Middle School Design, Gangzheng Building Bidding Project, Fuzhou Yacht Dock Project, Zhoupu Industrial Park Project, Guanglan Road Metro Station Building Complex, Zhangjiabang wedge-shaped green belts partial adjustment plan, Haitong Primary School Exterior Renovation 项目:六灶中学设计,临港大厦投标项目,福州游艇码头项目,周浦工业园项目, 广兰路地铁站综合体概念设计,张家浜楔形绿带局部调整图则 , 海桐小学外立面改造
i
2012 2015
CHUNQI ZHANG
In my portfolio, 8 projects are included and arranged in a sequence of time, from a device design to the design of an office building. These six works represent my thiinking process and my attempts to deal with defferent issues in my one-year study in the UK and two-years working experiences. They were also major experiences that brought me greater maturity. 我的作品集一共呈现了八个不同的项目,从装 置设计到办公大楼的概念设计,以时间顺序编排好。 这些作品代表着在过去一年的国外学习生活和两年 的工作经历中,我个人的一些设计想法与对于不同 问题的解决方法。而这些项目也使我的设计思路日 趋成熟。
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Projects in the University of Sheffield 01
Campus Context Resarch 校
园
肌
理
研
究
02
A Campus Heliostat 校
园
定
日
镜
03
Parametric Modelling of Dougong 参
数
化
斗
拱
04
Data Visualisation 数
据
可
视
化
Architectural Practices 05
Liuzao Middle School 六
灶
中
学
设
计
06
Gangzheng Building 港 政 大 厦 投 标 项 目 07
Joy Coast City Commer Street 青 岛 欢 乐 海 滨 城 商 业 项 目 08
Cloud CIty 南通万科云之城项目
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01 Campus Context Resarch 校 园 肌 理 研 究 Studio IBE project | Semester 1 02/2015 | 12 WEEKS Location: Sheffield, UK Group Project This project consists two parts. The first part is aimed to evaluate the current master plan of the University of Sheffield from various perspectives, such as climate change, social connection, energy consuming and so on. The second part is trying to provide a group based resolution for the future master plan development. 本项目包含两个部分。第一个部分旨在对谢菲尔德大学现有校园规 划进行评估。主要从以下几个方面:气候变化、社交活动、能源消耗等等。 第二个部分则为小组成员们基于第一部分的研究,为校园的未来规划提出 建议。
01
Urban Context | Six Layers
N
02
03
Solar Study / 日照分析
The sun path has been simulated around the site at various times of the year. This is to determine if there are any existing issues with regards to over shadowing in the site. The autumn has not been analysed as it has almost exactly the same sun path as the spring. 基地在一年中的几个时间的太阳路径已被模拟。这样是为了确定基地的阴影问题上是否还有其他存在的问题。秋天 之所以没有被分析,因为其太阳路径和春天的几乎完全一样。
9:00
SPRING
19 MAR
SUMMER
WINTER
22 JUN
21 DEC
In the spring, student union, Hicks building cast shadow along the southeast edge of the student union concourse and the area between su and hicks building. The declination angle of the sun is low in the winter, which causes the most area of the site covered by a long shadow, except the plaza in front of IC.
12:00 At 12:00, the majority of shading area occurs in the area between SU and Hicks building, and Hounsfield Road.
19 MAR
22 JUN
21 DEC
15:00 The effect of the shading from Hicks building becomes more prominent as the day progresses and by 3pm the Hounsfield Road is shaded. Most of the area between SU and Hicks building is shaded as well.
19 MAR
22 JUN
21 DEC
18:00 At 6pm, most of the site is covered in shade throughout the year. In the summer some area to the west and south of IC is still not shaded.
19 MAR
22 JUN
21 DEC
From the initial analysis of the site with regards to shading and sunlight penetration, it can be learnt that: the plaza in front of IC has a good receiving of sunlight in most of the daylight.
The area between SU and Hicks building would almost constantly be covered by shade which would not be a very nice experience, considering its enclosed space.
Due to the slope and t h e re l a t i v e l y high building to the west, Hounsfield Rd also has a shade issue.
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This could be a possible site that would be partly covered by shade, since the 6m high bridge to the north is not taken into account in the simulation.
Wind Simulation / 风模拟
2014
11:00 / 24.07.2014
2020
x/y cut at z=2
11:00 / 24.07.2020
2050
x/y cut at z=2
Wind Speed Label
Wind Speed Label
0 - 0.2
0.3 - 1.5
1.6 - 3.3
Calm
Light Air
Light Breeze
3.4 - 5.4
5.5 - 7.9
8.0 - 10.7
10.8 - 13.8
Wind Speed
Gentle Breeze Moderate Breeze Fresh Breeze Strong Breeze
11:00 / 24.07.2050
0 - 0.2
0.3 - 1.5
1.6 - 3.3
Calm
Light Air
Light Breeze
0.55
0.85
1.15
Light Air
3.4 - 5.4
x/y cut at z=2
5.5 - 7.9
8.0 - 10.7
Wind Speed
10.8 - 13.8
Gentle Breeze Moderate Breeze Fresh Breeze Strong Breeze
1.45
1.75
1.5
2.05
2.35
2.65
2.95
Light Breeze
The Wind Speed in 10m above the ground was set as 2.59m/s, and the wind direction is WSW. (0:N 90:E 180:S 270:W/ 240.58) The major wind speed in 1.2m above the ground in the site on the day is from under 0.55 to 1.15m/s, which can be labeled as light air. Wind Speed 0.85pattern 1.15 are 1.45 2.35 The 2.65 2.95and part of Westernbank to the north of Hicks building have more As can be seen, the 0.55 wind flow similar 1.75 in 20142.05 and 2020. IC plaza wind flows than other area. But in 2050 scheme, the placement of the proposed high rise building(60m) besides IC and the 9m building to the 1.5 southhase a large effect on Light the wind E and Breeze WSW directions. The wind is clearly funneled in front of IC and Westernbank. The Airflow patterns from theLight highest wind speed in the areas is over 2.95m/s.
The Envi-met model is based on a plain ground, which does not match the site's sloping topography, thus a repeated simulation was carried out in Vasari. It can generate wind tunnel outcome in real time and specify the horizontal plane you want to research. In this simulation, we choose 100m and 115m as two base plane.
2014 / 100m
2020 / 100m
2050 / 100m
2014 / 115m
2020 / 115m
2050 / 115m
As shown in the above figures, the main difference between Envi-met is: 1. the highest windspeed range, the Varsari results show a higher wind speed in part of the site. 2. Hounsfield Rd has a wind tunnel in 2014 and 2020, but the condition gets improved in 2050 due to the proposed buildings to the east.
05
Senario / 愿景
Interactive Facade
Campus Bubble 06
Campus Bubble
Interior of the bubble 07
08
02 A Campus Heliostat 校
园
定
日
镜
Studio IBE project | Semester 2 06/2015 | 12 WEEKS Location: Sheffield, UK Personal Project This project mainly focuses on how to increase illuminance by installing a heliostat, which can redirect sunlight to dark areas. By simulating current daylight condition on the site, a basic metric was built. It is also the input data for the project. Then the algorithm of identifying target area and distributing mirrors to look after is generated based on the metric. The project is simulation based. The grasshopper code and simulation tool DIVA are vital parts in the workflow. 本项目主要研究如何通过安装定日镜增加阴暗区域的照度。通过 模拟当前的日光条件,我先建立了一个基本的度量网格,用于对应项目 的原始数据。在此基础上,确定照度低的目标区域和反射镜的分布后。 这个项目是以模拟为主,Grasshopper 代码和模拟工具 DIVA 是工作流 程中的重要组成部分。
09
Solar Study / 日照分析 9:00
spring
summer
winter
22nd June 2014 0
36964
19 MAR
22 JUN
21 DEC
73927
12:00
23rd September 2014 0
19 MAR
22 JUN
21 DEC 24254
15:00
48509
19 MAR
22 JUN
21 DEC
21st December 2014
0
18:00 4028
8055
19 MAR
22 JUN
21 DEC
The sun path has been simulated around the site at various times of the year. This is to determine if there are any existing issues with regards to over shadowing in the site. 一年中的三个季节六个时间点被用于基地的太阳阴影模拟的时 间,以此确定基地中存在的日照问题。
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To build a 3d cad model on which daylight analyses can be performed I use Rhinoc e ros for ma k ing c ad models and DIVA for providing daylight analyses. To simulate heliostatic mirrors DIVA daylight analyses are made via Grasshopper. 在建立三维模型用于日照分析时,我用 了 Rhino 与 DIVA。而 之 后 定 日 镜 的 生成是则通过 grasshopper。
Physical Model / 模型
Principle of the Device / 装置原理 Sensing/ 感应
Processing/ 处理
Actuation/ 执行
(Sensor/ 感应器 )
(Processors/ 处理器 )
(Actuator/ 执行元件 )
1m 1m Torque tube Torque tube
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GRASSHOPPER ALGORITHMS / GH 算法
Set a Base Plan 选定基准面
Identify Target Areas 寻找目标区域 (最暗点)
Find Closest M 寻找最近的镜
Sun Setting
Grid of the Mirrors
22nd June 2014
Find Target Points
Dark Area Base Plan
Pre-Setting 初始设定 ( 时间与最暗点 )
Find Closest Mirrors 寻找最近的镜子
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Mirrors 镜子
Form Mirror Clusters 形成镜子群
Find Neighbouring Mirrors 寻找临近镜子
Identify Active and Static Mirrors 确定活动与静止的镜子
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03 Parametric Modelling of Dougong 参
数
化
斗
拱
BIM management and analysis project | Semester 2 04/2015 | 2 WEEKS Personal Project This project is an attempt to integrate BIM with parametric Dougong modelling. It is based on the drawings of published book, Dougong, written by Dehua Pan. The construction style used in the project is one of the most classic style, which includes different kinds of sub-components. The modelling process is not simply a 3d documentation, but a transmission of information. 本项目试图整合将 BIM 与参数化斗拱模型制作相结合。基于潘德华先生著 的《斗拱》一书中的图纸,本项目中选定斗拱样式为“六铺作重拱出单抄双下昂”, 其中包括不同种类的子组件。该建模过程不仅仅是简单的三维文档,文件与文件 间数据的传递。
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In the component level, much more detailed information for each construction member was considered. Actually, making each single component was the most time consuming process. A lot of tests have been carried out to test the feasibility of the components. A lot of parameters like length, width, height, and thickness needed be defined. Shape characteristic for each component is defined according to the book Dougong. 在 这 个 组 件 级 别, 每 一 件 小 构 件 的 细节的信息都需要被考虑。实际上,制作 每个组件的过程是最耗时的,并且需要进 行大量的测试,以测试组件们的可行性。 许 多 参 数, 诸 如 长 度, 宽 度, 高 度 和 厚 度 需 要 被 定 义。 而每个构件的形状特征则是根据《斗拱》 一书。
zhuan 木專
fang 坊
ang 昂
gong 拱
dou 斗
doukou = 100
doukou = 120
doukou = 180
Variations of hua gong with different doukou values / 华拱斗口值不同产生的变化 16
Work Flow / 工作流程 1. Set up parameters and batabase. 建立参数。
fen 分 °
( 分 °, the unit in Song Dynasty ) the structure is a Song style
doukou 斗口 * 0.1
ke 科
{
height = 2*doukou er 耳 = 0.8*doukou ping 平 = 0.4*doukou qi 欹 = 0.8*doukou
2. Create base models and establishing modulus. 创建基础模型并建立模数。
3. Adapting base models to create the rest. 基于基本模型创建剩余组件。
Components in this level are the families in the button layer. They are much simpler in form and are integrated in other components a lot. 这个层次的组件是处于底层 的族。他们在形式上更为简 单,并可以集成在其他构件 上。
Object Models
4. Assemble all the components and associate parameters./ 组装所有组件和相关参数。
Associating parameters
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04 D a t a Visualisation 数
据
可
视
化
Computational Design Project | Semester 1 & 2 02/2015 | 4 WEEKS Personal Project The two projects focus on building data visualisation from selected dataset. The first project collects open data from twitter which records geo-location information when we tweet. The dataset for the second project is more complex and large. It contains many datapoints (thousands) and multiple variables for each datapoint and multiple types of relationships between these variables. By visualising dataset, both projects bring greater understanding and present non-interactive or interactive animation of change over time. 这两个项目着眼于将选定的数据进行可视化。第一个项目收集的 是 twitter 的公开数据,这些数据来自我们发推时记录的地理位置信息。 第二个项目采用的数据更为复杂与庞大。它包含许多数据点(上千个) 以及每个数据点的多种变量和点与点之间多种关系。通过数据可视化, 这两个项目使数据更便于理解,并生成了非交互式或交互式的基于时 间变化的动画。
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Open Data Collection / 公开数据收集
My Tracks Data > KML > Google Earth
Processing Code for the Earthquake Visualisation In this project, geo-location data is collected by tweetting. The raw data can be downloaded from twitter.com and then transffered to KML file, which can be visualised in google earth. 在这个项目中,地理位置信息可以通过发 tweets 来收集。 通过在 twitter 网站下载原始数据,可以将其转换为 KML 文件, 并在 google earth 中进行可视化。
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In this project, a line chart added in the visualization in response to each earthquake in timeline. A series of void circles are drawn, and the higher magnitude, the bigger the radius. 在这个项目中,在拆线图上的每一个点都与一 年内按时间线的地震相对应。对应地图上相应地震发 生位置,一系列的圆圈被绘制出来,震幅越高,圆的 半径就越大。
An Interactive Visualisation Of Earthquakes in 2014 /2014 年地震发生地点与震级的交互可视化
for gif visit http://code.group.shef.ac.uk/CD1-14/?p=1289 for processing code visit here for data file visit here
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05 Liuzao Middle S c h o o l 六
灶
中
学
设
计
Project at Shanghai Pudong New Area Planning & Archtecture Design CO. 09/2013-06/2014 Location: Shanghai, China Solo Project This project is my first solo project in Shanghai Pudong New Area Planning & Architecutre Design CO. The site is located in Area 06-03 of Liuzhao Town in New Pudong District. Some elements from lanes of shanghai are applied in the design, such as red walls and black roof, wood windows painted with red, slope roof, optimising traditional adornment, and put them into modern buildings. 这是我在浦东新区规划建筑设计有限公司第一个独立完成的项目。该项目位 于浦东新区六灶镇 06-03 地块。在此次设计中,我想采用具有上海里弄特色的 一些元素,红墙黛瓦,红漆木窗,错落有致的坡屋顶,将传统的装饰细节予以简化, 结合现代的建筑语言来表达。
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Enclosing 围合布局
Axis Series 轴线序列布局
Linear 线性布局 最终方案
24
25
06 Gangzheng Building 港 政 大 厦 投 标 项 目 Project at Shanghai Pudong New Area Planning & Archtecture Design CO. 04/2013-12/2013 Location: Dishui Lake, Shanghai, China This is the first bidding project I participated in Shanghai Pudong New Area Planning & Architecutre Design CO. This is a commercial and office building. The site is located in Lingang, Shanghai and alongside the Dishui Lake. It has rich landscape recsources and convenient transportation facilities. The biggest challenge is, how to realise the commercial potential alongside the lake and fully utilise the landscape resources under the master plan of government. The shape of cube is adopted in the design, with the higher part of the building twisting for several degree. The function is also distributed according to the form. As a group member, I participated in the conceptual design and was responsible for the ducumentation. 本案是我在浦东新区规划建筑设计有限公司参加的第一个投标项目。该项目 为商办综合楼,基地位置位于上海临港新城,滴水湖环湖第一线,景观资源丰富 交通便利。该项目的一大挑战是如何在遵循上位规划条件同时将沿湖一侧商业潜 能最大化,如何充分利用景观资源。该设计在形体上采用魔方的形态,将高层部 分进行扭转,功能业态按此分布。作为一名项目组成员,我参与了前期概念设计, 并负责后期文件编制。
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Current Situation / 周边现状 临港新城“港政大厦”(暂用名)项目设计
SCHEMATIC DESIGN FOR GANGZHENG MANSION IN LINGANG NEW TOWN 区域分析 /REGIONAL ANALYSIS
周边现状 PERIPHERAL RESOURCES
海关大楼
海关大楼
SITE 港城大楼
皇冠假日酒店
中国 航海 博物馆
临港新城“港政大厦”(暂用名)项目设计 SCHEMATIC DESIGN FOR GANGZHENG MANSION IN LINGANG NEW TOWN 规划导则 /PLANNING GUIDELINES 港城大楼
上位规划导则
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1. 根据规划条件,本项目沿环湖西一路和 LG-3 路的建筑底层设计柱廊,柱廊外包后净高为 6.0 米, 进深外包净尺寸为 4.2 米。
2. 建筑风格应与临港新城中心区一起控详规划、城市风貌设计及地块周边环境相符合,保证环湖西一路一侧建筑的贴线率不 低于 80%。
Government Planning Guide / 上位规划导则 滴水湖
沿湖景观带
城市道路
人行道
6m
骑廊
4.2m
贴线率
4.2m
81.5%
5.5m
本案柱廊设计
滴水湖
沿湖景观带
城市道路
R=1383m
人行道 4.2m
R=1380m
临港新城“港政大厦”(暂用名)项目设计 临港新城“港政大厦”(暂用名)项目设计 临港新城“港政大厦”(暂用名)项目设计
6m
骑廊
6m
SCHEMATIC SCHEMATIC SCHEMATICDESIGN DESIGN DESIGNFOR FOR FORGANGZHENG GANGZHENG GANGZHENGMANSION MANSION MANSIONINININLINGANG LINGANG LINGANGNEW NEW NEWTOWN TOWN TOWN 项目策略 项目策略 项目策略 /PROJECT /PROJECT /PROJECTMETHOD METHOD METHOD 相邻项目柱廊现状
项目策略 项目策略 项目策略3.3.3.由点及线渐近扩展,创造多样性空间 由点及线渐近扩展,创造多样性空间 由点及线渐近扩展,创造多样性空间 PROJECT PROJECT PROJECTMETHOD——VARIOUS METHOD——VARIOUS METHOD——VARIOUSSPACES SPACES SPACES
R=1333m
城市空间的“意象”由路径、边沿、区域、节点和标志五种元素构成,项目的整体由每一个局部的空间共同组成, 城市空间的“意象”由路径、边沿、区域、节点和标志五种元素构成,项目的整体由每一个局部的空间共同组成, 城市空间的“意象”由路径、边沿、区域、节点和标志五种元素构成,项目的整体由每一个局部的空间共同组成, 采取各种合理的手段,以充满趣味的节点、仪式性的空间轴线序列、有节奏美妙变化的天际线共同构建丰富的空间 采取各种合理的手段,以充满趣味的节点、仪式性的空间轴线序列、有节奏美妙变化的天际线共同构建丰富的空间 采取各种合理的手段,以充满趣味的节点、仪式性的空间轴线序列、有节奏美妙变化的天际线共同构建丰富的空间 感觉。 感觉。 感觉。
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Strategy / 项目策略
景观广场 景观广场 景观广场 人行广场 人行广场 人行广场 景观广场 景观广场 景观广场
中央庭院 中央庭院 中央庭院
中央庭院 中央庭院 中央庭院 人行广场 人行广场 人行广场 入口广场 入口广场 入口广场
人行广场 人行广场 人行广场
节点 节点 节点Hinge Hinge Hinge
轴线 轴线 轴线 Axis Axis Axis 28
Skyline Skyline 天际线 天际线 天际线Skyline
临港新城“港政大厦”(暂用名)项目设计 SCHEMATIC DESIGN FOR GANGZHENG MANSION IN LINGANG NEW TOWN 项目策略 /PROJECT METHOD
项目策略 6. 充分运用高科低碳技术、展现绿色发展观 PROJECT METHOD——LIVABLE RESIDENTIAL COMUNITY 本项目充分响应当今低碳环保的理念,从规划、地形、微地形、微气候、材料、中水利用、太阳 能利用等多个方面入手,处处体现绿色低碳技术的实际运用。为项目的可持续发展奠定了坚实的 技术基础。
1 冷却塔系统 2 薄膜太阳能屋顶
1 冷却塔系统 2 薄膜太阳能屋顶 4 屋顶绿化
4 屋顶绿化
3 雨水收集
3 雨水收集
1 冷却塔系统 2 薄膜太阳能屋顶
2
3 雨水收集
1 冷却塔系统 2 薄膜太阳能屋顶 3 雨水收集
2
2 2
2
4
4
2
3
2
3
2
2
3
2
1
1
2
1 1
5
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1. 商业 2. 办公 3. 会议室 4. 设备
SCHEMATIC DESIGN FOR GANGZHENG MANSION IN LINGANG NEW TOWN 总体 /OVERALL DESIGN
Concept Generation / 概念演变
概念演变 CONCEPT EVOLUTION 临港 新地标
LOFT 屋顶绿化
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办公
入口雕塑
景观广场
水景
会所
入口台阶
商业
沿湖骑廊
04 36 31
07 Joy Coast City Commercial S t r e e t 青岛欢乐海滨城商业项目 Project at VARCH Archtectural Design & Consulting CO. 11/2012-12/2012 Location: Qingdao, Shandong, China The project is located in the north of the Joy Coast CIty, North District of Qingdao. The site area is 3.52ha, and the floor area is 45760m2. As supporting service facilities of the QIngdao digital culture experience centre, this project contains clubs, bars and restaurants. With single buildings and detached buildings forming an enclosing layout, it is suitable for business and living. 本项目位于位于青岛市北区欢乐滨海城北端,用地 3.52 公顷,建筑面积 45760 平米。作为青岛数字文化体验中心项目中的配套商业,本项目包含了会所、 酒吧、餐饮等功能,以独栋和联排小商业形式围合布局,商住皆宜。
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界面分析
Analysis Situation of Surfaces / 周边现状 Current
数字文化 体验中心 住宅 1. 北侧数字文化体验中心
道路 城市 主要
将带来大量商业人流,并占 据城市主要道路交汇口重要 位置, 此界面商业价值最高;
2. 东侧享有城市绿化景观, 但不能通过城市道路进入, 交通便捷性存在不确定因 素,商业价值次之;
3. 南侧紧邻高架路,受外 部影响较大,并与下匝道出 口过于接近,不利于人车流 的引入。
住宅 高架
Planning Analysis / 规划研究 划分研究
Study of Division
A 商铺形式丰富,空间灵活,利用二层平 台打造双首层,提升上层商铺价值
3 层商铺
2 层商铺
2 复 3 层商铺
1 层商铺
1 复 2 层商铺
B 全一复二商铺,利用一层空间最大程度 带动上层面积,行程统一单纯的街区商 业模式 3 层商铺
1 复 2 层商铺
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方案一 单体层数:全三层 商铺类型:1 层、2 层、3 层、1 复 2 层、2 复 3 层
方案二 单体层数:三层,局部二层,局部四层 商铺类型:1 复 2 层、3 层、4 层
打造双首层,有效带动上部面 积去化;空间划分灵活,产品 类型丰富。 Strategy / 规划策略
局部四层,释放场地空间,空 间创造品质;产品面积梯段丰 富,可应对广泛客群。
To create a distinctive commercial street 打造有特色的商业风情街 德式建筑、海鲜与啤酒处处 蔓延青岛本土文化,因而整个 项目的外立面融入了德式建筑 风格,创新地赋予其商业经营 功能。 通过打造有风情的商业街, 从而提高住宅价格,带动整个地 块的价格,同时商业街同基地 另一侧的五星级酒店互相呼应, 服务于整个项目。
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08 Cloud City 南通万科云之城项目 Project at VARCH Archtectural Design & Consulting CO. 11/2012-12/2012 Location: Nantong, Sichuan, China The project is located in the Chongchuan District of Nantong in Sichuan Province. The site area is 8.72ha, and the floor area is 364773m2. The district is the between the new district and the old distirct of Nantong city, and is the political , economic, and cultural centre. The South Street District adjacent the project is the most prosperous traditional business circle. The project constists of office, business, entertainment, recreation, living and many other functions. By importing the concept of cloud, we bring these functions share with each other, creating a vibrant and interesting, rich variety of urban context. 本项目位于四川省南通市崇川区,用地 8.72 公顷,建筑面积 364773 平米。 该区位于南通市新城区与老城区之间,是南通市政治、经济、文化核心区,而项 目紧邻的南大街商圈,也是南通市中心最繁华的传统核心商圈。 本次方案由办公、商业、娱乐、休闲、居住等不同功能组成,通过导入云的 概念底层,让这些功能之间形成共享,聚合为相辅相成、不可分割的整体,打造 出一个充满活力的城市综合体。
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Location Analysis / 区位分析 南通市各区中心
南通市各区中心
港闸区
港 闸老 区城 区
港闸区 崇川区
崇川区
崇川区
新东区
南通 NANTONG
新东区
SITE
SITE
SITE
长 常州
长 M 90K
无锡
长 长
江
新城区 苏州
江
经济开发区
上海
南大街 核心商业区
龙
工 农
路
通
南
外环北路
路
5K 3.
大
京
M
街
虹
工农路
钟秀路
大
中 路 青 年
道
路
桥
经济开发区
行政中心圈
商业发展圈
跃
经济开发区
江 江
SHANGHAI
南大街 核心商业区
通 启 公 路
SITE
1.
濠北路 青年路
长
M
8K
路
江
洪
园林路
世
纪
大
南通市 行政中心
通京大道
长
道
虹桥路
B1
洪江路
SITE
江
世纪大道
SITE 城山路
南通市 行政中心
江
主城区人流主要来向
B2
C1
A1
C2 A2 南通大学附属医院
崇川区政府
B9
D1
B3 A4 B8
A
A3 B5
建筑规模:300918 平米 商办规模:139200 平米 住宅规模:68100 平米 建筑高度:高层
B7
第三人民医院
高架路来向
商业广场 清源广场
文峰商业广场:
B4 B6
A5 C3
B10
文峰城市广场
C6
B
商业广场
C7
恒盛尚海湾
B
C8 南通市政府
B15 南通第一初中 南通师范第一附小
妇幼保健院 瑞慈朗德医院
恒盛尚海湾: 建筑规模:694439 平米 商办、住宅综合体规模:
D2
C9
B14
本地块包括 创智类办公、休闲 时尚商业、开放的市民地标 广场,避免本区商业过量。
SITE C5
C4
A 城市重要节点:
城市绿化带
B11
城市重要展示面: 以 时 尚 商 业、 高 端 公 寓 为 主。 形 态 尺 度上与恒盛尚海湾 协调。
552200 平米 建筑高度: 小高层、高层
C
城市景观沿线住区: 以生态宜居的 高级住宅 为 主,立面为现代都市风格, 体现时代气息。
新城区人流主要来向
B12 B13
新区高中
B16
本区域已经有非常多元以及完善的业态配置,但是各自较为独立,在功能,空间,场所等部分缺乏交流, 互动,与共享,因此本案导入云的概念,希望本设计为本区域提供一个包含商务、商业、娱乐、休闲、宜 居之间的资源整合与共享。建筑功能的复合性也进一步延展了场所体验上的多种可能。 而在建筑的设计上,将底层局部架空,数个小结构屹立于场地,分别满足特定功能,将基地最大程度 地还原给自然,将绿色空间最大限度地敞向公众。
ONE BUILDING
ONE CITY
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Master Plan / 总平面图
伴随着南通城市的快速发展,南大街单一核心商业圈已无法满足日益高涨的市民物质文化生 活需求,以南大街为中心向外辐射,多个崭新的商业圈正迅速崛起。而本案正处在这样一个充满 活力的商业发展带上。
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Tower Design / 塔楼设计
A
办公楼 A 栋标准层平面
A
CA C
C B
办公楼 B 栋标准层平面
C
B
办公楼 C 栋标准层平面
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A
A C B
B
办公
办公
空中会所
办公
街铺
商业内街 街铺
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CHUNQI ZHANG zhangchunqi0219@163.com +86 18621659329