Name than 23,000 natural stone tiles that have

Name   :
Ratrika Rafhaella

NIM     :
175060507111009

We Will Write a Custom Essay Specifically
For You For Only $13.90/page!


order now

Major   : Architecture

 

 

The
Example of Sustainable Office Buildings

 

Global climates and running out of non-renewable
resources have been our issues in more recent time. In order to face those
issues, architects around the world are competing to design the most energy
efficient building or we can call it as sustainable architecture. As a result, sustainable offices are
becoming more prominent. There have been many sustainable offices, with the
techniques they have developed to not just reduce energy consumption but also
provide a healthy working environment. Here is three of office buildings that
offer sustainable techniques through architectural design.

 

Siemens
Headquarters located in Munich, Germany combines a unique architecture design
with high efficiency technologies. They apply sloped façade and completely
covered them by three layers of glass. The sloped façade increases the amount
of natural light from the sun and reduce the need for lighting that used
electricity. That is why all workspaces in this building are arranged close to
windows in order to maximize the use of sunlight. The exterior area used
materials from the surrounding region, the purpose is to save energy when the
materials being distributed. More than 23,000 natural stone tiles that have
been used for the front facade and the flooring. The building collected rain
water on the roof and used to flush toilets and irrigate the outdoor areas.
They also apply the photovoltaic system on the roof and the result is great: 90
percent less electricity, 75 percent less water, 90 percent reduction in
emissions.

 

The Edge
located and situated in Zuida’s Bussiness District in Amsterdam, Netherlands, by
PLP Architects. This office building stand out for its rooftop solar panels
which cover an area of 4.100 m2  provide
enough electricity to power all smartphones and laptops. The building also has
sensors which measure temperature and carbon dioxide levels. The building is
provided with a rainwater harvesting system which utilizes reserved water for
toilet flushing and plant watering in the interior or exterior garden. Each
façade is uniquely detailed according for its purpose: the north façade for
example are highly transparent and use thicker glass to reduce noise from the
motorway. The project achieved Building Research Establishment Environmental Assessment
Methodology (BREEAM) certification for new construction of Outstanding and a
score of 98.36 %.

 

Powerhouse
Kjørbo, Bærum, Norway were
planned to develop as powerhouse with office building that generate and produce
energy more than they consume over the course of their lifetime. The two renovated buildings were
originally built in 1980 and each cover approximately 2.600 m2. After
the renovation, the building used the local production of solar panels. The
solar panels can supply over 250.000 kWh, or 41kWh/m2 each year
which is already complete the need, even more than the energy consumption of
the building itself.  It means that the
renovation works properly, the energy used by both buildings was reduced by
90%. The interior area provide a good work spaces with healthy indoor
environment. Walls, ceilings, and windows are tight fitting and well insulated.
The building also combined the stairways design as displacement ventilation
system. In order to utilize the exterior area they used concrete decks, it
contributes to a reduced cooling needs in summer. Powerhouse
Kjørbo achieved a rating of Outstanding, the highest level in the BREEAM-NOR
environmental certification system.

 

We
can conclude that the list of three sustainable office buildings which is Siemens
Headquarters, The Edge, and Powerhouse Kjørbo have applied high efficiency technology in their system
of the building. They also offer many kind of sustainable methods through
architectural innovation. For the example, three of them have provided the
solar panels into their system to reduce the need of electricity.