Council on Tall Buildings and Urban Habitat
Solaris, Singapore
Featured January 2013
Solaris was recognized as a "Best Tall Building Asia & Australasia Finalist" in the 2012 CTBUH Awards Program.
Other Featured Tall Buildings

“Ken Yeang’s work continues to explore notions of building that are far more natural and non-traditional in our hermetically sealed world.”
- Robert Pratt, 2012 Awards Juror, Tishman Speyer Properties

79 m (260 ft)
Primary Use

JTC Corporation
SB (Solaris) Investment P/L
Design Architect
TR Hamzah & Yeang

Associate Architect
CPG Corporation

Structural Engineer
CPG Corporation
Soil Build Pte Ltd

Though it is not particularly tall, the building is commended for its contributions to the exploration of the urban habitat. The linear vertical park allows for the building to connect with the green spaces of Singapore and for the occupants to further connect with nature. It is fantastic to see Ken Yeang finally realize in built form his green ramp concept.

Figure 1. Aerial view of exterior

The approach when designing the Solaris towers was to create a completely ecological site. Instead of replacing natural habitat with a built environment, the design sought to create a maximum amount of habitable green spaces in addition to a sustainable building. Two towers were designed to house research and development facilities, connected with a passively ventilated atrium.

The site is located at the edge of Singapore’s Central Business District in the Fusionopolis development, an area dedicated to research and development in a variety of fields. The site was originally a military base, which meant that most of the original ecological system had been destroyed. The response to this issue was to highlight the existing landscape while contributing to it.

The building boasts a 36% reduction in overall energy consumption compared to relevant precedents, as well as a 108% ratio of landscape to site area. This was accomplished by integrating fully landscaped areas directly into the façade of the building. A linear “green ramp” was designed to connect the ground level with all areas of the building, wrapping around and winding its way up the towers while accessing terraces and gardens along the way. This landscaped element allows for the connection of ecosystems and the movement of species between them to improve biodiversity on the site.

Figure 2. Upper roof garden

Figure 3. Green ramp pathway
Occupiable roof gardens and terraces offer spaces for the building users to enjoy during breaks, or to use for events. These areas not only contribute to the improvement of the user experience, but also create a distinct buffer between the building envelope and the elements, reducing solar gain and reflection. Along with this, planted areas and solar shades were incorporated with a double-glazed wall system to further decrease the effects of solar exposure. The ETTV (external thermal transfer value) of the full system is less than 39 watts per square meter.

An extensive rainwater harvesting system is employed throughout the building, using siphonic drainage to hold up to 700 cubic meters of water for irrigation of the green spaces. The system also ensures recycling of any water that goes through the full system.
Figure 4. Green ramp pathway
The design of the building also responds directly to its environment and occupant needs. The atrium allows for daylighting of the internal spaces in the building, and is fully passively cooled. A rain-check wall is employed at the perimeter to allow for ventilation during conditions of precipitation, and a vented roof takes advantage of the stack effect for cooling. Computational fluid dynamics was used to refine the design of the atrium to ensure optimal conditions. The louvers are controlled by climate-responsive sensors to adjust them when necessary. To cross between towers though the atrium, skybridges were added. Additionally, a light shaft was cut through the taller portion of the building to allow for greater daylight penetration. The internal spaces connected with the light shaft have automatic sensors to control lighting when daylight proves adequate.
Figure 5. View of lobby atrium
Solaris received a 97.5 rating from Singapore’s GreenMark program, denoting a Platinum certification. The building also came in at 6.3% below industry cost standards, while providing over 8,000 square meters of landscaped area.
Figure 6. Overall view from street

Related Links
CTBUH Skyscraper Center Profile:

Solaris was recognized as a Best Tall Building Asia and Australasia Finalist in the 2012 CTBUH Awards Program.
Download Solaris 2012 CTBUH Awards Book section

2012 CTBUH Awards Book

The CTBUH would like to thank T.R. Hamzah & Yeang SDN. BHD. for their assistance with this article.
Photography © T.R. Hamzah & Yeang SDN. BHD.