Steinway & Sons Installs World’s Largest Industrial Solar Heating & Cooling System
This comes across my electronic desk courtesy of chloregy. I’m excited about this because I’m a fan of both Steinway pianos and renewable energy, and here’s a story that combines both.
ERS, Inc., a progressive energy engineering consulting firm based in Massachusetts, is currently working with Steinway & Sons to install the largest solar-sourced industrial heating/cooling system in the world at the renown piano maker’s 11-acre manufacturing complex in Long Island City, NY.
Solar power – in the form of photovoltaic (electrical) generation – will have to improve quite a bit in its efficiency before it is feasible for this climate (the Northeast US). But using concentrated solar power (CSP) for heating applications is another animal altogether. I remember reading an article some years ago about a demonstration project that successfully used solar-hot water for 100% of its water and living space heating. In Maine. (Memory is a funny thing, and not to be trusted altogether, but I want to say it was conducted by or with the University of Maine.)
Year-round, even on cloudy days, even in the depths of winter. In Maine. I believe they kept a natural gas option open as a backup plan, but it was never needed.
I took another look at solar hot water systems recently, as they are eligible for the new renewable energy home improvement tax credit. The solar water heating systems are fairly simple, really: A solar “collector” transfers heat energy to a heating coil containing water or a water-ethylene glycol mix (antifreeze). Tubing with that heated fluid is coiled inside a water storage tank, allowing the heat to transfer to the water. It’s very similar to a conventional hot water heater and tank setup, except the energy to heat the water is coming from the coil, instead of a natural gas burner or electric heating element. (Here’s a nice writeup from Popular Mechanics a few years ago, subtitled Help your country and your wallet – install a solar hot water heater.)
The environmental system installed at Steinway & Sons takes these principles a step farther, using CSP to heat the transfer fluid to over 300ºF. The system heats not only the hot water at the plant, but also the work space. In the summer months, the solar collector uses a separate mechanism to provide air conditioning. The system is expected to pay for itself in five years. (According the the article on PM, typical savings for home hot-water heating systems is 20-40%.)
Climate control in the Steinway plant is critical. The assembly of these instruments require high degree of precision with regard to temperature and humidity control. The company’s deployment of this system speaks volumes about the capacity and reliability of CSP heating and cooling.
As a Steinway fan, I am thrilled that the company has taken this step. As a renewable energy booster, I am through the roof.