Solar Thermal collectors, Photovoltaic modules, PV-T Hybrid Collectors. Organics Recycling Lands At Major Airports - BioCycle BioCycle. Where local infrastructure exists, systems are being put in place to make composting an easy addition to waste diversion programs.
Katrina Mendrey BioCycle June 2017, Vol. 58, No. 5, p. 23 SEA-TAC International Airport, servicing Seattle, accepts pre and postconsumer food waste from concessionaires and at public kiosks (above) in concourse food courts. Many airports, including Seattle, Portland (Oregon), San Diego, San Francisco and Chicago, are realizing what benefits composting can have on their bottom lines. Regionally, systems are in place to make composting an easy addition to waste diversion programs. But for airlines traveling around the country and world it’s not that easy to plug into local organics diversion programs.
“Airports operate locally, and airlines operate nationally so it’s an ongoing challenge,” observes Jeremy Webb, Aviation Environmental Program Manager for the Port of Seattle. Airlines Participation. The Compost King of New York. Lugging scraps to my farmers market was enormously satisfying.
I liked returning my potato peels to the woman who grew my potatoes; I knew she’d make good use of them. The act also felt more immediately important than many other things I did to lessen my planetary impact, like driving less and line-drying more. When the Department of Sanitation’s curbside organics-collection program expanded to my Brooklyn neighborhood in 2015, I was grateful, but also a little wary. Placing my scraps on the curb in a securely latched, hard-sided bin was certainly convenient, but my compost cycle was starting to spiral, from small-batch to medium to — well, I wasn’t sure what. I had no idea where this centralized system deposited my scraps, or how — or if — they were transformed into something of value. Waterstudio's floating sea wall harvests blue energy from crashing water. Certain world leaders might be dragging their feet on addressing climate change, but in the meantime, Koen Olthuis and the rest of the Waterstudio crew are working on solutions that we can use today.
The Blue energy floating sea wall is a floating breakwater that doubles as an energy generator. Called The Parthenon, the floating breakwater not only stems the crash of water pushing into a harbor, but harvests the tremendous energy a wall of water like that can generate. Waterstudio used the Hudson River to illustrate their new design’s function. “In a harbour on the Hudson river in New York the wave conditions are so strong that a sea wall must protect its boats. The strong current in the river is constantly attacking it and water is pushing itself against and through the fixed wall, which results in more corrosion of the sea wall every year.” Related: Aquatect Koen Olthuis tells Inhabitat how to embrace rising sea levels. Contact Us - Ameco Solar Inc. NRG+ Tourniket - Human Powered Energy Door.
Piezioelectric. Solar Water Heating Built In The Glass. The solar collector in insulated glass units Use your facades to get your warm water and cover your heating or cooling needs!
The Robin Sun Solar Thermal Glass is a reinforced Insulated Glass Unit (I.G.U.) used to integrate a semi-transparent solar thermal collector for the production mainly of heating and sanitary hot water and the protection of summer comfort (fixe shaded). Solar water heating build in the glass scheme Solar energy : The pros and cons of tower, rack, and blade servers. Takeaway: Scott Lowe goes back to basics with this overview of tower, rack, and blade servers to help you make an educated decision about the best option for your data center.
There are three main choices when it comes to buying a new server: tower, rack, or blade. Here are some of the pros and cons about each kind of server, as well as some of my experiences with each one. Tower servers Tower servers seem dated and look more like desktops than servers, but these servers can pack a punch. In general, if you have a lot of servers, you’re probably not using a bunch of tower servers, because they can take up a lot of space and are tough to physically manage since you can’t easily stack them on one another. RPI & SOM Center for Architecture Science & Ecology (CASE) We thought we’d showcase another one of the programs that we think is a pretty great idea; involving one of the world’s largest architecture firms doesn’t hurt either.
The Center for Architecture Science and Ecology (CASE), a partnership between Rensselaer Polytechnic Institute and Skidmore Owings and Merrill, focuses on creating ecological solutions to problems posed by our built environment. Through research, green technologies are integrated into different phases of the building process, from preliminary design strategies, new material creation, or smart wall systems.
The co-op has won multiple awards for innovations in ecological thinking and design. Check out a few of their best projects. Integrated Concentrating Dynamic Solar Facade The Integrated Concentrating Solar Facade (ICSF) is a building-integrated photovoltaic system that takes a dramatically different approach to providing interior space with electrical power, thermal energy, enhanced daylighting, and reduced solar gain.
BIPV. PV.