Buy a water ionizer. Water ionizers attach to your faucet and are very user friendly. The water becomes electrically enhanced (ionized) because the ionizer runs it over positive and negative electrodes. Doing this separates the water into alkalized water and acidic water. The alkalized water makes up about 70% of the produced water and can be used for drinking. Don't just discard the acidic water. Acidic water can kill many types of bacteria. You can use it for washing your body, killing some of the bacteria living on your skin. Purchase an ionizing water filter. These filters are easily transportable and cheaper than buying an electric ionizer. They work in a similar fashion to a normal filter. Pour water into the filter and let it sit for three to five minutes. While you are waiting, the water is being sent through a series of filters. Once it passes through the filters, it sits in a pool of alkalizing minerals. These filters can often be found with the kitchen appliances in home stores.
Add pH drops. pH drops contain potent alkaline minerals and are highly concentrated. You can purchase pH drops at health food stores or online. Follow the directions on your specific pH bottle to determine how many drops you should put into your water. Keep in mind that while pH drops increase the alkalinity of your water, they do not filter out any of the things like chlorine or fluoride that can be found in your tap water. Cut up one lemon into eighths. Add the lemons to the water but do not squeeze them--simply place them in the water. You can add one tablespoon of pink Himalayan sea salt to your lemon water if desired. Adding the salt mineralizes your alkaline water. Use baking soda. Add 1/8 tbsp baking soda to an 8 oz. glass of water. Baking soda has a high alkaline content. When the baking soda mixes with the water, it increases the alkaline properties of the water. Shake (if you are using a water bottle) or stir (if using a glass) the mixture vigorously to make sure the baking soda mixes in thoroughly with the water. If you are on a low sodium diet, do not add baking soda to your water. Baking soda is high in sodium.
California continues to suffer through a fourth year of water shortages, bordered by the largest body of water on earth. The crisis has encouraged residents to once again wonder if the Pacific Ocean is the answer to the state's water woes. Some are pushing for additional desalination plants like those used in water-starved Israel and Australia to convert ocean water into unlimited fresh water. Coastal Santa Barbara turned to desalination during a devastating five-year drought in the late 1980s, but by the time a new plant was ready for operation in 1992, heavy rains had returned. The $35 million facility ran for a few weeks before being shuttered. That's because the desalination process is not only potentially harmful to marine life, but removing salt by pushing salt water through membranes takes far more energy than simply pulling fresh water from inland sources. All that energy use is not only counter to the state's push for lower emissions, but it only seems economical during the worst of a drought. As Santa Barbara reactivates the plant this summer, water bills in the area are expected to increase by 40 percent.
Since California will be using desalination, they will need an Alkaline Water Machine to return the minerals to their water
Compared to local freshwater sources, desalination is certainly energy expensive. But it's only slightly more costly than other options available during drought conditions. That's why Santa Barbara is spending another $40 million to reopen its plant, and why 17 others are in the works along the state's coast. In Carlsbad, California, Poseidon Water is opening a $1 billion plant that will be the largest in the U.S. when it is completed in the fall. In a recent Wall Street Journal article, CEO Carlos Riva defended desalination plants against those that worry that they represent a step backward in the state's efforts to reduce carbon emissions, pointing out that the plant will "use less energy than one of the data center that are being built, and nobody claims that they are somehow immoral." According to the Natural Resources Defense Council, data centers are expected to consume 140 billion kilowatt hours of electricity a year by 2020—the output of 34 large coal power plants. According to the Pacific Institute, the Carlsbad plant will take 750 megawatt hours per day, so more than 500 equivalent plants would have to be constructed to match the energy cost of our Facebook and Google habits... 324