Alarmingly, clean drinking water is becoming a severe global security issue. Competition for water is leading to instability and state failure, with Syria the most recent example. Between now and 2040, as the availability of fresh water evaporates due to population growth, agriculture, industry and urbanization, more people will fight just to survive on the lowest rungs of society.Among wealthier countries like Israel and Saudi Arabia, when fresh ground water isn’t available, water is diverted from nearby oceans or rivers into desalination plants where the salt is removed through a relatively new process called reverse osmosis, which produces clean drinking water. Before the adoption of reverse osmosis, the main process of desalination had been “multistage flash distillation,” which uses heat to evaporate water, leaving the salt behind. That accounted for 80% of all desalination installations until the 1990s. Currently, reverse osmosis is the most popular desalination technology, where water is pumped through membranes to purify it by trapping larger particles and letting the fresh, salt-free water through pores to the other side. Unfortunately, both methods are energy intensive, making them costly and preventing poorer countries from building the necessary desalination plants. But a new technology may have leap-frogged over problem. Reuters reports:
Engineers at US-based Lockheed Martin Corp say they have found a way to slash the amount of energy needed to remove salt from seawater, potentially making it much cheaper to produce clean water, and possibly eliminating water scarcity as a global issue.The process, which uses thin graphene sheets, would enable filter manufacturers to produce thin membranes with holes about a nanometer in size that are large enough to allow water to pass through but small enough to block the molecules of salt in seawater.