View allAll Photos Tagged WaterRecycling
Leitung spülen in der
Urbanstraße
Was Du an der Toilette an Wasser sparst wird hier teuer nachgespült
.
In der Ferne
LKW
B27 Richtung Bad Cannstatt
und Vaihingen
Staatstheater Stuttgart in weiß
POV
Ulrichstrasse 10
Poslední revizní šachta na kanalizačním sběrači D, vzdálená cca 100 metrů od vypínací komory čistírny odpadních vod v Ostravě - Přívoze, profil potrubí v šachtě je DN 3000.
The last inspection shaft on the sewer interceptor D, approx. 100 meters from the switch-off chamber of the wastewater treatment plant in Ostrava - Přívoz, the pipe profile in the shaft is DN 3000.
Odpadní voda od více než 100.000 obyvatel západní části města Ostravy (Poruba, Pustkovec, Třebovice, Martinov, Plesná)
Wastewater from more than 100.000 residents of the westside of Ostrava city
Pohled do kanalizačního sběrače (DIV), odvádějícího odpadní vodu z téměř celé západní části města. Vyfoceno v revizní šachtě na poli pod vesnicí Hošťálkovice. Kanalizační sběrač zde leží mezi dvěma shybkami, voda přichází z třebovické strany shybkou pod řekou Opavou (po průchodu areálem bývalé čistírny odpadních vod Třebovice) a míří do další shybky pod řekou Odrou, na jejímž druhém břehu se porubský sběrač vlévá do kmenové ostravské stoky, kanalizačního sběrače D, ústícího do ústřední čistírny odpadních vod v Ostravě - Přívoze.
View to a sewer collector (DIV), taking sewage from almost the entire western part of the Ostrava city. Photo was taken in an inspection shaft on the field beneath the village of Hošťálkovice. The sewer collector here lies between two huge inverted syphons, the water comes from the side from Třebovice, where it comes through inverted syphon under the river Opava (after passing through the area of the former waste water treatment plant Třebovice) and flows to another inverted syphon, under the river Odra. On the other bank of Odra river the collector leads into the sewer interceptor "D", leading to the central wastewater treatment plant in Ostrava - Přívoz.
We recycle water from perspiration, exhaled air and condensation. And using this equipment, from urine.
Credit: ESA/NASA
Kanalizační sběrače, odvádějící odpadní vodu z téměř celé Poruby (západní část města Ostravy), vedoucí k areálu bývalé čistírny odpadních vod v Třebovicích. Foto z prosince 2018.
Sewer interceptors, draining wastewater from almost all of Poruba (western part of Ostrava city) leading to the former wastewater treatment plant in Třebovice. Photo is from December 2018.
Odstraňování písku z odpadní vody v areálu čistírny
Removing sand from wastewater at the wastewater treatment plant
BPA Bladder used to recover additional water from urine brine. Matthias posted these images to his social media on 21 March 2022 with the caption:
Welcome to the less-glamourous side of spaceflight 😉 The farther we explore, the more important it becomes to preserve resources and recycle them efficiently. This includes water 💧 Using the BPA (Brine Processor Assembly) double membrane bubble, water can be recovered and filtered from urine brine. Such water treatment systems are important for closing the water cycle on the International Space Station, but also for future #Artemis missions towards the #Moon and exploration beyond, and for hard-to-reach regions on Earth where water is scarce.
Credit: NASA/ESA-M.Maurer
ID: iss066e132452
Matthias holding a BPA Bladder used to recover additional water from urine brine. He posted these images to his social media on 21 March 2022 with the caption:
Welcome to the less-glamourous side of spaceflight 😉 The farther we explore, the more important it becomes to preserve resources and recycle them efficiently. This includes water 💧 Using the BPA (Brine Processor Assembly) double membrane bubble, water can be recovered and filtered from urine brine. Such water treatment systems are important for closing the water cycle on the International Space Station, but also for future #Artemis missions towards the #Moon and exploration beyond, and for hard-to-reach regions on Earth where water is scarce.
Credit: NASA/ESA-M.Maurer
ID: iss066e091123
The Hydro-Center establishes an urban prototype that makes the collection, storage, use, and perception of water essential to it's form and performance.
BPA Bladder used to recover additional water from urine brine. Matthias posted these images to his social media on 21 March 2022 with the caption:
Welcome to the less-glamourous side of spaceflight 😉 The farther we explore, the more important it becomes to preserve resources and recycle them efficiently. This includes water 💧 Using the BPA (Brine Processor Assembly) double membrane bubble, water can be recovered and filtered from urine brine. Such water treatment systems are important for closing the water cycle on the International Space Station, but also for future #Artemis missions towards the #Moon and exploration beyond, and for hard-to-reach regions on Earth where water is scarce.
Credit: NASA/ESA-M.Maurer
ID: iss066e132450
Matthias holding a BPA Bladder used to recover additional water from urine brine. He posted these images to his social media on 21 March 2022 with the caption:
Welcome to the less-glamourous side of spaceflight 😉 The farther we explore, the more important it becomes to preserve resources and recycle them efficiently. This includes water 💧 Using the BPA (Brine Processor Assembly) double membrane bubble, water can be recovered and filtered from urine brine. Such water treatment systems are important for closing the water cycle on the International Space Station, but also for future #Artemis missions towards the #Moon and exploration beyond, and for hard-to-reach regions on Earth where water is scarce.
Credit: NASA/ESA-M.Maurer
ID: iss066e091124
BPA Bladder used to recover additional water from urine brine. Matthias posted these images to his social media on 21 March 2022 with the caption:
Welcome to the less-glamourous side of spaceflight 😉 The farther we explore, the more important it becomes to preserve resources and recycle them efficiently. This includes water 💧 Using the BPA (Brine Processor Assembly) double membrane bubble, water can be recovered and filtered from urine brine. Such water treatment systems are important for closing the water cycle on the International Space Station, but also for future #Artemis missions towards the #Moon and exploration beyond, and for hard-to-reach regions on Earth where water is scarce.
Credit: NASA/ESA-M.Maurer
ID: iss066e077742
The Hydro-Center establishes an urban prototype that makes the collection, storage, use, and perception of water essential to it's form and performance.
The house recycles second-hand maritime containers used as the structural base and includes up to 85% of recycled, reused and eco-friendly materials: recycled cellulose and cork for insulation, recycled aluminum, iron and wood, noble wood coming from sustainable forests, ecological painting, eco-label ceramics…
Eco-pod is economical, socially responsible and environmentally sound design typology and prototype solution for the new century. It promises to be carbon free, low cost and environmentally sound solution as it is personally gratifying. Because of its transportability and size, it allows instantaneous gratification for communities which require immediate solutions to their plight to save their natural environment.
BPA Bladder used to recover additional water from urine brine. Matthias posted these images to his social media on 21 March 2022 with the caption:
Welcome to the less-glamourous side of spaceflight 😉 The farther we explore, the more important it becomes to preserve resources and recycle them efficiently. This includes water 💧 Using the BPA (Brine Processor Assembly) double membrane bubble, water can be recovered and filtered from urine brine. Such water treatment systems are important for closing the water cycle on the International Space Station, but also for future #Artemis missions towards the #Moon and exploration beyond, and for hard-to-reach regions on Earth where water is scarce.
Credit: NASA/ESA-M.Maurer
ID: iss066e077741
BPA Bladder used to recover additional water from urine brine. Matthias posted these images to his social media on 21 March 2022 with the caption:
Welcome to the less-glamourous side of spaceflight 😉 The farther we explore, the more important it becomes to preserve resources and recycle them efficiently. This includes water 💧 Using the BPA (Brine Processor Assembly) double membrane bubble, water can be recovered and filtered from urine brine. Such water treatment systems are important for closing the water cycle on the International Space Station, but also for future #Artemis missions towards the #Moon and exploration beyond, and for hard-to-reach regions on Earth where water is scarce.
Credit: NASA/ESA-M.Maurer
ID: iss066e077740
Infiniski was created to design and build eco-friendly and affordable housing solutions based on a modular and eco-friendly architecture and construction process.
The Haiti Softhouse is a flexible & sustainable approach to shelter providing an immediate transitional solution for interim housing, community development & reconstruction.
The shelter is designed to withstand tropical storms and hurricanes with up to 130mph winds, resist earthquakes, and provide a healthy, well ventilated environment. The flexibility of the structure allows for multiple unit combinations, addressing domestic space needs, institutional needs and community needs.
Diagram of the water recycling process with household items substituted for the real tech, like a coffee plunger for a membrane filter. These icons are then also stuck to the real machinery which can be viewed through the window.
Comploo processes organic waste; derives energy from decomposition; and provides organic fertilizer. Our system mitigates three causes of global warming: methane from landfills; CO2 from burning fossil fuels; and chemical fertilizers.
Composting is tried and tested method of recycling waste, but it can also keep us warm. Comploo provides recreational shelter in developed nations, whilst answering a need for warm housing and sustainable farming in poorer developing nations.
The dynamic multi-layer shell is one of the key elements of the Air Tree, being responsible for changing the image of the urban interface, support for most of the content and responsible for defining the boundary between interior and exterior.
Acqua viva is a rainwater collection system. At every floor level there is a water storage vessel so that rainwater may be used at a later time for irrigation of household plants, reducing the amount of water taken from drinking water purposes. Rainwater collection systems are a must in a world where water scarcity is menace closing in.
An 8m thickener tank from the AquaCycle range by CDE. This tank has a maximum capacity of 400m3 per hour and is used as the primary water treatment phase on CDE washing plants throughout the world.
The Air Tree can be configured as a stand outside opaque, translucent, transparent, light, etc. There is a mixed system of energy production (solar and micro wind power) that makes the urban interface self-sufficient or, depending on the context, close to it.
The Air Tree offers different projection textile products, allowing an unlimited combination of scenarios. At the same time, it will be connected with real time sensors with the climatic conditions of the city, adopting at all times the physical configuration and optimal energy to generate the necessary conditions for thermal comfort.
Tucson, Arizona USA
Milagro Cohousing
photo by Cathy Mullan
DSC00113_2
All of the waste liquid from the 28 homes in the community is emptied into the constructed wetlands where it is cleaned and then pumped back up into the community to be used to water trees from an underground system. This is a photo of one of the cells in the treatment beds of constructed wetlands system.
A description from our website:
In operating this system waste is first received by septic tanks which settle the solids. Septic outflow is fed to one of two treatment beds. These treatment beds are 18 inches of gravel with a plastic 20-millimeter liner to avoid losing the liquid in to the ground. The gravel is topped with four inches of mulch, mostly woodchips, which is planted with Bullrushes and Sedges. The wastewater flows in one end of the treatment bed and overflows out the other end. During its time in the gravel bed it is further decomposed by bacteria living on the roots of the plants and on the surface of the gravel. The outflow from the treatment beds is gathered in a one thousand-gallon collection tank. A pump moves the reclaimed wastewater from that tank up through the center of the community where it is delivered from below ground to our landscaping.
McCrometer introduces the FPI MagTM (Full Profile Insertion) Electromagnetic Flow Meter for industrial process water and effluent wastewater. The FPI Mag is the successor to McCrometer’s popular Multi-Mag Insertion Flow Meter, which is the industry’s only multi-electrode hot tap full profile insertion flow meter delivering a continuous total flow profile similar to a full-bore mag meter. Ideal for industrial process intake water, feed water, chilled water, cooling water, fire water, water recycling and effluent discharge.
Read more: www.rbmarketing.com/mccrometer/releases/McCrometer-FPI_In...
FPI Mag product page: mccrometer.com/products/product-fpi.asp