© Daniela Friebel

c.Daniela Friebel

架构师提供的文本描述。位于柏林前坦佩霍夫机场旁边的一个混合用途的城市地区，2012年完工的车间和办公大楼为工业部门的可持续和节能设计设定了新的标准。

Text description provided by the architects. Situated in a mixed-use urban area next to the former Tempelhof Airport in Berlin, the 2012 completed workshop and office complex sets new standards in sustainable and energy efficient design for the industrial sector.

 © Daniela Friebel

c.Daniela Friebel

这座建筑是专门为较小的公司Artis的要求而设计的，它对规划和实现高质量的展览、交易会和零售场所的内部设备感兴趣。他们在现代生产技术领域处于领先地位，并利用这些技术将复杂的想法从纸面到精确的三维实现。他们的新总部的整体设计解决方案是与客户和所有参与的专家一起在一个合作和开放的过程中开发的。

The building was specially designed for the requirements of Artis, a relatively small firm, interested in the planning and realisation of high quality interior fittings for exhibitions, trade-fairs and retail premises. They lead in the field of modern production technologies and use these to take complex ideas from paper to accurate three-dimensional realisation. The holistic design solution for their new headquarters has been developed in a collaborative and open process together with the client and all involved specialists.

 © Daniela Friebel

c.Daniela Friebel

简要说明要求将一个工作厅和相关的办公空间合并成一个综合而紧凑的解决方案。由此产生的L形图围绕着一个院子，入口和交货需求都是从这个院子里得到满足的。大厅里铺着木瓦，而规划和行政大楼则是用白色灰泥合理地铺在木纤维板上。

The brief required a work hall and associated office spaces to be combined into an integrated and compact solution. The resulting L-shaped plan surrounds a yard from which the entrance and delivery needs are served. The hall is clad with wooden shingles while in contrast the planning and administration building is finished rationally in white plaster applied to wood fibre boards.

 © Daniela Friebel

c.Daniela Friebel

底层遵循生产流程；从办公大厅，通过手工作业区，油漆房，到预配送仓库。参观者通过爬上外面的楼梯进入大楼，然后直接出现在接待处，在那里，他们可以通过一个有玻璃的走廊，从车间大厅看到动态的景色。简单的内部饰面和原始的顶部表面允许高质量的材料所使用的表达，同时考虑使用透明和白土石膏创造温暖和轻盈的气氛。

The ground floor follows the production process; from work hall, through the handwork areas, paint room, to pre-distribution storage. Visitors enter the building by climbing an outside staircase and emerge directly into the reception from where they are afforded a dynamic view over the workshop hall through a glazed gallery. Simple interior finishes and raw top surfaces allow the high quality materials employed to be expressed, while considered use of transparence and white earth plaster create a warm and light atmosphere.

 © Daniela Friebel

c.Daniela Friebel

该建筑物的高度绝缘，密闭结构实现了使用可持续来源的木材和低碳体现原材料。建筑能源性能比Enev 2009要求高出86%。上面所有的地面元件都是预制的，可以在五周内组装外壳，天气也很紧张。外墙和屋顶构件是可渗透的木材结构，填充纤维素绝缘。底层上方的天花板是由大量的预制胶水层合木材组成的.大厅内有一个环形玻璃光带，提供最佳的自然采光。大厅的屋顶本身是由木材鱼腹板支撑(20米的跨度)，使材料的最佳使用。为了提高办公空间的保暖能力，在行政区域的屋顶上设置了一个绿色屋顶。室内气候的额外稳定是通过在天花板上使用白土灰泥提供的。

The building’s highly insulated, airtight structure was realised using sustainably sourced timber and low carbon embodying raw materials. The buildings energy performance exceeds the EnEV 2009 requirements by 86%. All of the above ground elements were pre-fabricated allowing the shell to be assembled and weather tight in just five weeks. The outer walls and roof elements are permeable timber structures filled with cellulose insulation. The ceiling above the ground floor is comprised of massive pre-fabricated glue-laminated timber elements. In the hall a circumferential glass light-band provides optimal, natural daylighting. The hall’s roof itself is supported by timber fish belly trusses (20m span) which allow for optimal use of material. In order to improve the office spaces heat retention, a green roof was deployed on the roof of the administration areas. Additional stabilisation of the room climate is provided through the use of white earth plaster on the ceilings.

 © Daniela Friebel

c.Daniela Friebel

可持续性概念旨在通过使用被动战略取代技术。建筑物的取暖要求完全由来自车间的木材废料供应的固体燃料锅炉覆盖。暖气过剩将供应给邻近的音乐厅。此外，屋顶上的光伏电池板产生的能量是建筑照明、通风和辅助电力需求的1.5倍。

The sustainability concept aimed to replace technology through the use of passive strategies. The buildings heating requirements are fully covered by a solid fuel boiler fed with timber waste from the workshop. The surplus of heating energy will be supplied to the neighbouring concert halls. Furthermore pV panels on the roof produce 1.5x more energy than the building needs for lighting, ventilation and auxiliary power.

 First Floor Plan

一层平面图