Friday, January 25, 2013

Okanagan Centre of Excellence


Last Monday I had a chance to visit Jim Pattison Centre of Excellence on Sustainable Building Technologies and Renewable Energy Conservation at Okanagan College - Penticton. Long name indeed - they really need to come up with a nice abbreviation :)


Although different in appearance, this buildings has a lot in common with the Centre for Interactive Research on Sustainability at UBC-Vancouver (see my previous posts).  Both were conceived with the goal to become one of the greenest building in North America if not the world. Both aim at "net-zero" energy target (CIRS actually aims at becoming "net-positive"). The size and the budget are comparable.



They share many of the same technologies - solar thermal, solar photovoltaic, geothermal, passive ventilation, rainwater collection, green roof and use many of eco-friendly materials, for example BC-famous pine-beetle wood. Interestingly too, structural engineering for both (as for number of other distinguished buildings) was performed by the famous Vancouver-based firm Fast+Epp.


There are also some differences, apart from the obvious difference in architectural style. While UBC CIRS incorporated PV elements in the awnings and skylights in a very aesthetic way, the Penticton  Centre chose traditional PV modules, but covered as much roof space as they could (1100 Conergy modules), thus making it the largest PV installation in Western Canada. 



The designers of the Penticton Centre also incorporated some of the newer technologies like tubular skylights and SunCentral light concentrators.  



I had a privilege and a pleasure to meet and to talk to Peter Haubrich, a well-known innovator and promoter of new, particularly clean technologies, who is now responsible for the Business Development and Industry Partnership at the Centre of Excellence.        






Friday, January 4, 2013

Free Cooling or more on Green Technologies

Canadian winters are challenging for some, but they have their advantages. In addition to producing the world’s best hockey players, Canada has become host to a growing number of data centres that take advantage of the cold climate to mitigate the extensive costs of cooling their server infrastructure.


As server farms continue to pack more computing power, they have become significant consumers of energy. The proportion of the cost consumed by cooling is significant, and estimated to be as high as one half of the total.

Managing the significant heat that semi-conductors generate is consuming a growing portion of the cost of operating a data centre. Facilities in many parts of Canada are able to employ a technology called “free cooling” to reduce this by as much as 50 per cent. Essentially, these systems employ an additional cooling circuit that uses outdoor air to supplement the work done by the more energy-intensive components of the cooling system.

Information technology services company Fujitsu Canada opened a facility in November to take advantage of what Canada has to offer. Free cooling, however, is only part of the picture. Access to cheap, clean, reliable energy is also a magnet for investors looking to build these power-hungry facilities, some of which consume roughly as much energy as a small city.

The combination of cheap power and cold weather puts Canada in a similar league with Sweden and Finland, which have recently become the hosts of huge data centres built by Facebook and Google, respectively.
Many believe these facilities are only the tip of the iceberg. In the increasingly common cloud computing scenario where companies outsource their computing to remote providers, Canadian data centres can serve markets anywhere in the world. Market intelligence firm IDC estimates the sheer volume of data managed by businesses will grow 50 times over the next 10 years, and the number of servers needed to keep up with this growth will increase by 49 per cent in the next two years.
One of the biggest challenges for data centre operators is to convince customers that their facility is a safe place to entrust data that is often the lifeblood of their business. Infrastructure has to be operating almost 100 per cent of the time, and customers need the confidence that their data won’t be lost or compromised.
According to IBM, data custody is a whole other dimension as to why Canada is attractiveIn this respect, Canada holds an advantage over the United States because many companies, particularly Canadian ones, are concerned about the U.S. Patriot Act, which allows the U.S. government to intercept and examine data stored in the United States without a search warrant.

Free Cooling
Free cooling systems use a device called an economizer, a specialized heat exchanger that uses cool outdoor air to help chill water or glycol that, in turn, circulates to the server racks. This reduces the load on compressors and pumps, which are the most significant consumers of energy within the cooling system. According to data from computer room cooling manufacturer Liebert Corp., a business of Emerson Electric Co., this arrangement can slash the cooling bill by as much as 50 per cent.


From:
The Globe & Mail, December 20, 2012

Thursday, January 3, 2013

Technology Connecting Places


In 1990 the Taiwan's government completed a feasibility study for a high-speed rail line in the western corridor of the island. The study found that in a comparison of potential solutions to traffic problems in the corridor, a high-speed rail line would offer the highest transit volume, lowest land use, highest energy savings, and lowest pollution. Today 345 km line connects national capital Taipei in the North with the Kaohsiung in the South in 96 minutes, with the top speed of 300 km/h.


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 .... The distance between Vancouver and Kamloops in British Columbia Canada is almost exactly the same - the train takes it in "swift" 9 hours (if not stuck in the middle of nowhere).

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