岘港高科技园区总部大楼/HUNI建筑

岘港高科技园区总部大楼/HUNI建筑
Da Nang Hi-Tech Park Headquarters Building / HUNI Architectes

创新的建筑形态：岘港高科技园区总部大楼以其独特的设计脱颖而出。建筑灵感来源于重叠齿轮的动态工程图像和IT云技术理念，平面布局为圆形功能区域的重叠，创造出共享空间和自然通风的空隙。这种设计不仅满足了功能需求，还赋予建筑极高的辨识度，展现了科技与美学的深度融合。

可持续的立面设计：建筑采用参数化翅片立面系统，通过能量模拟软件优化每个翅片的角度，以减少太阳热量的增加和眩光，同时保证自然光的引入。翅片的灵活设计使立面呈现出波纹般的视觉效果，搭配室内天然木镶板，营造出舒适且环保的工作环境。这种被动式节能措施体现了建筑对可持续发展的深刻理解。

功能与空间的融合：该建筑以行政办公室为主，同时配备大礼堂、服务器室和带室外露台的员工餐厅。开放的中央中庭将主要空间在视觉上相连，底部的植物种植为室内带来自然感和额外的凉爽。整个建筑通过自然光和气流的整合，实现了被动可持续性，展现了功能与空间的完美结合。

建筑师提供的文字描述HTP总部大楼是岘港市北部一个以IT为重点的工业园区的行政中心。建筑形式的灵感来自重叠齿轮的动态工程图像，以及IT云技术的理念——在平面图中形成功能的圆形重叠，允许共享空间之间以及自然通风的空隙。
Text description provided by the architects. The HTP Headquarters building serves as the administration center for an IT-focused industrial park to the north of Danang City. The building form takes inspiration from dynamic engineering imagery of overlapping gears, as well as the idea of IT Cloud technology – forming a circular overlapping of functions in the plan, allowing in-between shared spaces as well as voids for natural ventilation.

由于建筑物的动态形状，使用能量模拟软件开发了一个用于太阳能保护的参数化翅片立面系统。每个鳍片的角度都经过优化，以减少太阳热量的增加和眩光，同时仍然允许自然光和人员进入工作区域。通过对鳍轮廓的灵活操纵，整个立面都呈现出闪闪发光的波纹。这个想法在整个室内都采用了天然木镶板。
Because of the dynamic shape of the building, energy simulation software was used to develop a parametric fin façade system for solar protection. The angle of each fin is optimized to reduce solar heat gain and glare, while still allowing natural light and views into the working areas for personnel. A shimmering ripple is achieved across the façade through supple manipulation of the fin profiles. This idea is implemented across the interior with natural wood paneling.

Floor Plan

Function and Concept

该建筑的主要功能是行政办公室。它还包括一个大礼堂、一个服务器室以及一个带室外露台的员工餐厅。主要空间通过开放的中央中庭在视觉上相连。
The primary function of the building is for administrative offices. It also incorporates a large auditorium, a server room, as well as a staff canteen with outdoor terraces. The main spaces are connected visually through the open central atrium.

Natural Ventilation

整个建筑采用被动可持续性，自然光和气流通过大型中央中庭以及较小的中庭楼梯间进行整合。中庭底部的种植为居民提供了一种自然感，以及额外的凉爽。遮阳鳍片由耐用的低环境影响纤维混凝土制成，包裹着整个立面，作为另一层被动节能措施，用于控制阳光。
Passive sustainability is employed throughout the building, with natural light and airflow integrated through the large central atrium, as well as smaller atrium stairwells. Planting at the base of the atriums provides a sense of nature for the inhabitants, as well as extra cooling. The sun-shading fins, made from durable low environmental impact fiber-concrete, wrap the entire façade for solar control as another layer of passive energy reduction.