南校区制冷设备

寒江吹雪

所 在 地：美国 俄亥俄
这是由Ross Barney
Architects设计的美国OSU南校区制冷设备。南校区的中央制冷设备，将为俄亥俄州立大学，提供一个长期有效和可持续的冷冻水生产和分配的解决方案。额外组件的模块化设计和关键设备的有效维护将可以为客户医疗中心提供所需的12500吨冷却水。为了进一步提高可靠性，在制冷设备中安装了应急电源，这样就可以在停电的关键状况下，也可以及时提供所需的冷却水。
制冷设备的最大的容积是30000吨的冷冻水。第一阶段的制冷设备将最低提供15000吨的冷却水，满足新癌症，急救护理和现有医学建筑设备的更新的需求。新建筑的选址需要考虑Cannon
Drive的搬迁和Kinnear路的未来扩展，新制冷设备将作为这一个十字路口的标志性建筑。
新制冷设备的材料将是一个高抛光的混凝土预制面板。大型的釉面开口能够帮助识别建筑物内冷水机组设备。设计包含了一个可持续发展的主题和将被整合规划被LEED认证的其他设施。
大楼位于校园的边缘，非常的突出，这里正是行人通过Cannon进入校园的一个主要的通道。为了强调这一点，周围的特意设计了一个广场和地形座位区，以此来吸引行人和交通。同时作为大学走廊的一部分，一个池塘将会被建在建筑的西边，与绿地交相辉映。



译者：筑龙网 蝈蝈
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The South Campus Central Chiller Plant will provide the Medical District of
the Ohio State University a long term， efficient and sustainable solution for
chilled water production and distribution. Durability and redundancy will be
addressed with a modular design with additional components of all critical
equipment to maintain 12，500 tons of chilled water for the medical center
customers. To further increase reliability， emergency power will be installed
with the chiller plant to provide chilled water for critical operations during
power outages.
The ultimate capacity of the Chiller Plant will be 30，000 tons
of chilled water. Phase one of the chiller plant will be a minimum of 15，000
tons for the new Cancer and Critical Care Tower and the gradual replacement of
aging equipment located in existing buildings of the medical campus.
The
siting of the building took into consideration the relocation of Cannon Drive
and future extension of Kinnear Road. The new chiller plant will serve as an
iconic anchor for this future intersection.
The materials for the new chiller
plant will be concrete precast panels with a high sheen polish finish. Large
glazed openings are located to help identify the function of the building by
framing views of the chiller equipment. Since there are no visible moving parts，
dichoric glass fins located in the joints of the precast panels， will convey a
sense of motion as the colors change from the movement of the sun. The design
incorporates sustainable principals and will be integrated with the planning of
LEED certification of other District facilities.
Although the building is
located at the edge of campus， on a very prominent， visible site， pedestrian
movement along Cannon must be considered as an important pathway to the main
Campus. To reinforce this， the landscaping around the building will consist of a
plaza and landform seating area to engage the pedestrian traffic. Also， as a
part of the University’s Framework Plan for the Cannon Drive Corridor， a “pond”
of prairie grass will be provided on the west of the building to to respond to
the revitalization of the greenscape along the nearby Olentangy River.

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