Saltworks Technology describes their ionic desalination technology.
Saltworks Technologies reported that they can produce 1 cubic meter of fresh water using just 1kWh compared to 3.7kWh per cubic meter achievable using reverse osmosis.
Saltworks' patent pending technology employs an innovative Thermo-Ionic™ energy conversion system that uses up to 80 per cent less electrical/mechanical energy relative to leading desalination technologies. The energy reduction is achieved by harnessing low temperature heat and atmospheric dryness to overcome the desalination energy barrier. Saltwater is evaporated to produce a concentrated solution. This solution, which has concentration gradient energy, is fed into Saltworks' proprietary desalting device to desalinate either seawater or brackish water. Some electrical energy is used to circulate fluids at a low pressure, yet the bulk of the energy input is obtained through the evaporation of saltwater.
Saltworks lists some different desalination technologies.
The minimum energy barrier is often characterized as 0.75 kWh of energy to produce 1,000 litres of fresh water from seawater.
Reverse Osmosis (RO)
Electrodialysis (ED) and Electrodionization (EDI) involve forcing ions from saltwater through ion exchange membranes under an electrical field.
Multi Stage Flash (MSF) involves introducing heated saltwater into a lower pressure container.
Multiple Effect Distillation (MED) consists of several consecutive cells (effects) at decreasing pressure and temperature.
Vapour Compression (VC) is another thermal process that uses the same principles of reduced boiling points with lower pressure.
Chemical Processes - This category includes processes such liquid-liquid extraction, gas hydrate, and other precipitation schemes. While not commercially widespread, these technologies are used in speciality applications such as specific feed water contamination.
Next Generation Water Companies
Cleanbeta lists several next generation water companies.
Desalination technology costs have fallen by as much as 80% over the past few years. Meanwhile, the total global desalination capacity growth of more than 47% over the past five years, according to a recent Credit Suisse investment report, and all of a sudden, desalination looks a bit more attractive..
The reverse osmosis process, which separates out salt with a membrane, costs about 50 cents per cubic meter of water. Reverse osmosis systems also have to be monitored so that the membrane doesn’t get fouled or clogged
Dais Analytic’s “new generation of desalination technology” concentrates on desalination by molecular diffusion. This low-cost, pressure desalination process uses commercialized nanotechnology, and employs a solid polymer membrane to reject dissolved solids by size, polarity and diffusion concentration, leaving fewer than 100 PPM TDS. The Dais “MD” membrane does not foul or need regeneration, nor does it scale or support marine growth, making it a viable option where environmental concerns are uppermost. It can be used in applications with capacities of up to 10,000m3/d.
NanoH20 has developed a membrane that attracts water molecules and repels other types of molecules, thus speeding up the desalination process. A membrane that uses nanotechnology to separate pure water from seawater at a lower energy cost than existing reverse osmosis membranes. NanoH2O’s next generation reverse osmosis membranes are thin-film composite membranes that contain nano-structured material. Their enhanced permeability should enable dramatic improvements to be made in the process economics of seawater reverse osmosis. NanoH2O claims that their thin-film nanocomposite membranes will allow 10-15% to be shaved off the cost of producing potable grade water. The company aims to have its first commercial product available within 18-24 months. Research into the application of the technology in brackish water and fresh water scenarios is planned to follow from 2009, making the product suitable for a variety of desalination and water reuse applications.
Clathrate Desalination (Mouchel and Water Science)
A joint venture between Mouchel and Water Science has come up with a new approach to separating fresh water from seawater based on trapping water molecules in carbon dioxide molecules as clathrates. Carbon dioxide forms a clathrate with water spontaneously at more than 30 bar pressure and less than 80 degrees Celcius temperature. The new multipass solution developed by the team for separating and cleaning the clathrate crystals holds the key to the concept’s main attraction – ultra-low energy use. The breakthrough system is predicted to reduce energy consumption to below 1.3 kWh/m3, with the thermodynamics of salt solutions providing the simple explanation behind the baseline economics. The goal is to apply the technology in large-scale industrial desalination plants, remote desalination facilities using renewable energy, and in the oil & gas sector, for the treatment of waste well water.
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