Toxic shock: California allows up to one thousand times more glyphosate in drinking water than needed to cause breast cancer in women. (NaturalNews) Late last week, a story broke that revealed glyphosate -- the chemical name of Roundup herbicide -- multiplies the proliferation of breast cancer cells by 500% to 1300%... even at exposures of just a few parts per trillion (ppt). The study, published in Food and Chemical Toxicology, is entitled, "Glyphosate induces human breast cancer cells growth via estrogen receptors.
" You can read the abstract here. There's a whole lot more to this story, however, but to follow it, you need to understand these terms: ppm = parts per million = 10 (-6) = number of parts out of a million ppb = parts per billion = 10 (-9), which is 1,000 times smaller than ppm ppt = parts per trillion = 10 (-12), which is 1,000 times smaller than ppb and 1,000,000 times smaller than ppm The study found that breast cancer cell proliferation is accelerated by glyphosate in extremely low concentrations: ppt to ppb. This news, all by itself, sent shockwaves across the 'net all weekend. The document openly admits: Desalination. Desalination, desalinization, and desalinisation refer to any of several processes that remove some amount of salt and other minerals from saline water.
More generally, desalination may also refer to the removal of salts and minerals,[1] as in soil desalination, which also happens to be a major issue for agricultural production.[2] Salt water is desalinated to produce fresh water suitable for human consumption or irrigation. One potential byproduct of desalination is salt. Desalination is used on many seagoing ships and submarines. Most of the modern interest in desalination is focused on developing cost-effective ways of providing fresh water for human use. Along with recycled wastewater, this is one of the few rainfall-independent water sources.[3] Desalination is particularly relevant to dry countries such as Australia, which traditionally have relied on collecting rainfall behind dams to provide their drinking water supplies. Methods[edit] Considerations and criticism[edit]
Engineers develop revolutionary nanotech water desalination membrane. Researchers at the UCLA Henry Samueli School of Engineering and Applied Science today announced they have developed a new reverse osmosis (RO) membrane that promises to reduce the cost of seawater desalination and wastewater reclamation. Reverse osmosis desalination uses extremely high pressure to force saline or polluted waters through the pores of a semi-permeable membrane. Water molecules under pressure pass through these pores, but salt ions and other impurities cannot, resulting in highly purified water.
The new membrane, developed by civil and environmental engineering assistant professor Eric Hoek and his research team, uses a uniquely cross-linked matrix of polymers and engineered nanoparticles designed to draw in water ions but repel nearly all contaminants. These new membranes are structured at the nanoscale to create molecular tunnels through which water flows more easily than contaminants. With these improvements, less energy is needed to pump water through the membranes.
Water Programme. Desalination - Upgrading and retrofitting of municipal wastewater treatment plants by means of membrane bioreactor (MBR) technology. Volume 231, Issues 1–3, 31 October 2008, Pages 20–26 Selected Papers Presented at the 4th International IWA Conference on Membranes for Water and Wastewater Treatment, 15-17 May 2007, Harrogate, UK. Guest Edited by Simon Judd; and Papers Presented at the International Workshop on Membranes and Solid-Liquid Separation Processes, 11 July 2007, INSA, Toulouse, France.
Guest edited by Saravanamuthu Vigneswaran and Jaya Kandasamy Presented at The 4th IWA Conference on Membranes for Water and Wastewater Treatment May 15–17, 2007, Harrogate, UK Received 17 May 2007, Accepted 20 November 2007, Available online 20 August 2008 Choose an option to locate/access this article: Check if you have access through your login credentials or your institution Check access Show more Show less Get rights and content Abstract Keywords Municipal wastewater treatment; Upgrading; MBR technology Copyright © 2008 Elsevier B.V.
Desalination Technology. Multiple-effect distillation. Multiple-effect distillation (MED) is a distillation process often used for sea water desalination. It consists of multiple stages or "effects". In each stage the feed water is heated by steam in tubes. Some of the water evaporates, and this steam flows into the tubes of the next stage, heating and evaporating more water. Each stage essentially reuses the energy from the previous stage. The tubes can be submerged in the feed water, but more typically the feed water is sprayed on the top of a bank of horizontal tubes, and then drips from tube to tube until it is collected at the bottom of the stage. Operating principles[edit] Schematic of a multiple effect desalination plant. The plant can be seen as a sequence of closed spaces separated by tube walls, with a heat source in one end and a heat sink in the other end. Trade-offs[edit] The first and last stages need external heating and cooling respectively.
External feed water must be supplied to the first stage. Advantages[edit] See also[edit] Water. Fresh Water Scarcity And Cost-Effective Desalination. By Greg Borzo The scarcity of fresh water is an increasingly serious problem around the world due to growing populations and diminishing supplies of fresh water. Desalination could help alleviate these shortages, but it has traditionally been an extremely expensive process. The demand for water is so great that the worldwide desalination market is expected to reach an astonishing $87.8 billion by 2016, even though only about 1 percent of the world’s drinking water is produced by desalination. There is a huge need for technologies that could reduce this cost. To help meet this need, the Innovation Fund, the University of Chicago’s venture philanthropic proof-of-concept fund, awarded Heinrich Jaeger, the William J.
“In order for desalination to become a real solution to the growing water scarcity problem, new technologies will be required to reduce the major cost components of the process,” says Sean Sheridan, an assistant director at UChicagoTech, which administers the Innovation Fund. Water Scarcity. Visualizing The Cost of Urban Water. Learning package on Hydrology by the National Institute of Hydrology | India Water Portal. A "Learning Package on Hydrology" by the National Institute of Hydrology deals with elements of the hydrologic cycle and explains the processes of rainfall, runoff and evapotranspiration and their interaction. This “Learning Package on Hydrology” by the National Institute of Hydrology deals with the basic scientific concepts underlying hydrology.
In a general sense the package deals with elements of the hydrologic cycle and explains the processes of rainfall, runoff and evapotranspiration and their interaction. The topics covered include precipitation, abstraction from precipitation, streamflow measurement, hydrographs, flood routing, flood control, groundwater, runoff and floods. The package deals with the occurrence, circulation and distribution of water of the earth and earth's atmosphere. Various phases of the hydrological cycle, such as rainfall, runoff, evaporation and transpiration are all non-uniformly distributed both in time and space. Download the learning package here:
Water supply, sanitation and hygiene development. Water Shortage, Drinking Water Crisis Solutions. Sept 2011 Water scarcity overtakes global warming as top environmental concern. Water Scarcity. Projected world water scarcity 2025 - Full size. Water and Conflict in Asia? Water security is emerging as an increasingly important and vital issue for the Asia-Pacific region.
Perhaps no other resource—other than oxygen—is so intricately linked to human health and survival. However, as the region’s population growth continues to surge, the demand for water is increasing substantially, without a concomitant increase in water resources. Many Asian countries are beginning to experience moderate to severe water shortages, brought on by the simultaneous effects of agricultural growth, industrialization, and urbanization. In recent years, moreover, evidence indicates that water security is becoming increasingly affected by erratic weather patterns, most notably the El Nino and La Nina weather phenomena. To explore this complex issue, the Asia-Pacific Center for Security Studies (APCSS) held a one-day seminar on September 17, 1999 entitled “Water and Conflict in Asia.”
The world’s freshwater supply is finite. India is experiencing similar shortages. Agriculture. IRC International Water and Sanitation Centre. Water. Water Consciousness.