Friday, December 18, 2009

Underground data center to help heat Helsinki

In the chill of a massive cave beneath an orthodox Christian cathedral in Helsinki, Finland, a city power firm is preparing what it thinks will be the greenest data center on the planet.

Excess heat from hundreds of computer servers to be located in the bedrock beneath Uspenski Cathedral, one of Helsinki's most popular tourist sites, will be captured and channeled into the district heating network, a system of water-heated pipes used to warm homes in the Finnish capital.

"It is perfectly feasible that a quite considerable proportion of the heating in the capital city could be produced from thermal energy generated by computer halls," said Juha Sipila, project manager at Helsingin Energia.

Uspenski Cathedral

Beneath Helsinki's Uspenski Cathedral a new data center is being built whose heat will help warm homes in the Finnish capital.


Finland and other north European countries are using their water-powered networks as a conduit for renewable energy sources: capturing waste to heat the water that is pumped through the system.

Due online in January, the new data center for local information technology services firm Academica is one way of addressing environmental concerns around the rise of the Internet as a central repository for the world's data and processing--known as "cloud computing."

Companies seeking large-scale, long-term cuts in information technology spending are concentrating on data centers, which account for up to 30 percent of many corporations' energy bills.

Data centers such as those run by Google already use around 1 percent of the world's energy, and their demand for power is rising fast with the trend to outsource computing.

One major problem is that in a typical data center only 40-45 percent of energy use is for the actual computing--the rest is used mostly for cooling down the servers.

"It is a pressing issue for IT vendors since the rise in energy costs to power and cool servers is estimated to be outpacing the demand for servers," said Steven Nathasingh, chief executive of research firm Vaxa.

"But IT companies cannot solve the challenge by themselves and must create new partnerships with experts in energy management like the utility companies and others," he said.

Data centers' emissions of carbon dioxide have been running at around one-third of those of airlines, but are growing 10 percent a year and now approach levels of entire countries such as Argentina or the Netherlands.

Energy savings
Besides providing heat to homes in the Finnish capital, the new Uspenski computer hall will use half the energy of a typical data center, Sipila said.

Its input into the district heating network will be comparable to one large wind turbine, or enough to heat 500 large private houses.

"Green is a great sales point, but equally important are cost savings," said Pietari Paivanen, sales head at Academica: the center, when expanded as planned, will trim 375,000 euros ($561,000) a year from the company's annual power bill. Academica's revenue in 2008 was 15 million euros.

"It's a win-win thing. We are offering the client cheap cooling as we can use the excess heat," Sipila said.

The center's location in the bowels of the cathedral has an added bonus: security. It is taking over a former bomb shelter carved into the rock by the fire brigade in World War II as a refuge for city officials from Russian air raids.

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Underground Secure Data Center Operations

Technology based companies are building new data centers in old mines, caves, and bunkers to host computer equipment below the Earth's surface.

Underground Secure Data Center Operations have a upward trend.

Operations launched in inactive gypsum mines, caves, old abandoned coal mines, abandoned solid limestone mines, positioned deep below the bedrock mines, abandoned hydrogen bomb nuclear bunkers, bunkers deep underground and secure from disasters, both natural and man-made.

The facility have advantages over traditional data centers, such as increased security, lower cost, scalability and ideal environmental conditions. There economic model works, despite the proliferation of data center providers, thanks largely to the natural qualities inherent in the Underground Data Centers.

With 10,000, to to over a 1,000,000 square feet available, there is lots of space to be subdivided to accommodate the growth needs of clients. In addition, the Underground Data Centers has an unlimited supply of naturally cool, 50-degree air, providing the ideal temperature and humidity for computer equipment with minimal HVAC cost.

They are the most secure data centers in the world and unparalleled in terms of square footage, scalability and environmental control.

Yet, while the physical and cost benefits of being underground make them attractive, they have to also invested heavily in high-speed connectivity and redundant power and fiber systems to ensure there operations are not just secure, but also state-of-the-art.

There initially focused on providing disaster recovery solutions, and backup co-location services.

Clients lease space for their own servers, while other provides secure facilities, power and bandwidth. They offers redundant power sources and multiple high-speed Internet connections through OC connected to SONET ring linked to outside connectivity providers through redundant fiber cables.

Underground Data Centers company augments there core services to include disaster recovery solutions, call centers, NOC, wireless connectivity and more.

Strategic partnering with international, and national information technology company, enable them to offer technology solutions ranging from system design and implementation to the sale of software and equipment.

The natural qualities of the Underground Data Centers allow them to offer the best of both worlds premier services and security at highly competitive rates.

Underground Data Centers were established starting in 1990's but really came into there own after September 11 attacks in 2001 when there founders realized the former mines, and bunker offered optimal conditions for a data center. The mines, and bunkers offered superior environmental conditions for electronic equipment, almost invulnerable security and they located near power grids.

Adam Couture, a Mass.-based analyst for Gartner Inc. said Underground Data Centers could find a niche serving businesses that want to reduce vulnerability to any future attacks. Some Underground Data Centers fact sheet said that the Underground Data Center would protect the data center from a cruise missile explosion or plane crash.

Every company after September 11 attacks in 2001 are all going back and re-evaluating their business-continuity plans, This doesn't say everybody's changing them, but everybody's going back and revisiting them in the wake of what happened and the Underground Data Center may be just that.

Comparison chart: Underground data centers

Five facilities compared
Name InfoBunker, LLC The Bunker Montgomery Westland Cavern Technologies Iron Mountain The Underground
Location Des Moines, Iowa* Dover, UK Montgomery, Tex. Lenexa, Kan. Butler County, Penn.*
In business since 2006 1999 2007 2007 Opened by National Storage in 1954. Acquired by Iron Mountain 1998.
Security /access control Biometric; keypad; pan, tilt and zoom cameras; door event and camera logging CCTV, dogs, guards, fence Gated, with access control card, biometrics and a 24x7 security guard Security guard, biometric scan, smart card access and motion detection alarms 24-hour armed guards, visitor escorts, magnetometer, x-ray scanner, closed-circuit television, badge access and other physical and electronic measures for securing the mine's perimeter and vaults
Distance underground (feet) 50 100 60 125 220
Ceiling height in data center space (feet) 16 12 to 50 10 16 to 18 15 (10 feet from raised floor to dropped ceiling)
Original use Military communications bunker Royal Air Force military bunker Private bunker designed to survive a nuclear attack. Complex built in 1982 by Louis Kung (Nephew of Madam Chang Kai Shek) as a residence and headquarters for his oil company, including a secret, 40,000 square foot nuclear fallout shelter. The office building uses bulletproof glass on the first floor and reception area and 3-inch concrete walls with fold-down steel gun ports to protect the bunker 60 feet below. Limestone mine originally developed by an asphalt company that used the materials in road pavement Limestone mine
Total data center space (square feet) 34,000 50,000 28,000 plus 90,000 of office space in a hardened, above-ground building. 40,000 60,000
Total space in facility 65,000 60,000 28,000 3 million 145 acres developed; 1,000 acres total
Data center clients include Insurance company, telephone company, teaching hospital, financial services, e-commerce, security
monitoring/surveillance, veterinary, county government
Banking, mission critical Web applications, online trading NASA/T-Systems, Aker Solutions, Continental Airlines, Houston Chronicle, Express Jet Healthcare, insurance, universities, technology, manufacturing, professional services Marriott International Inc., Iron Mountain, three U.S. government agencies
Number of hosted primary or backup data centers 2 50+ 13 26 5
Services offered Leased data center space, disaster recovery space, wholesale bandwidth Fully managed platforms, partly managed platforms, co-location Disaster recovery/business continuity, co-location and managed services Data center space leasing, design, construction and management Data center leasing, design, construction and maintenance services
Distance from nearest large city Des Moines, about 45 miles* Canterbury, 10 miles; London, 60 miles Houston, 40 miles Kansas City, 15 miles Pittsburgh, 55 miles
Location of cooling system, includng cooling towers Underground Underground Above and below ground. All cooling towers above ground in secure facility. Air cooled systems located underground. Cooling towers located outside
Chillers located above ground to take advantage of "free cooling." Pumps located underground.
Location of generators and fuel tanks Underground Above ground and below ground Two below ground, four above ground. All fuel tanks buried topside. Underground Underground
*Declined to cite exact location/disatance for security reasons.