The Markets We Serve Are Home to Millions
H2O Global has identified three separate global markets that will benefit from the use of its proprietary distillation system:
Municipal Water Authorities: The H2O Global distillation system provides a cost-effective technology that enables local water authorities to quickly meet ever-expanding state water quality mandates. At present, many municipalities are not meeting these state- mandated requirements. In some cases, municipalities are resorting to expensive dilution processes to meet state requirements. In the desalination industry, H2O technology can reduce cost by 50-75% when contrasted to existing methods that are presently used by oceanic-based operations. Additionally, our distillation system can reduce start-up costs for desalination facilities as well as enhance operational efficiency as we have eliminated the need for expensive cell membranes.
For water municipalities that are in compliance with current mandates, H2O Global delivers value by enabling these entities to reduced operational expenditures while simultaneously delivering better quality water.
Mobile Drinking Water Deployment: H2O Global mobile distillation systems eloquently solve major problems faced by entities such as: military, emergency management (natural disasters) and national security (bio-terrorism) agencies. Multiple units can be easily transported and deployed for operation in the field.
Natural Gas / Crude Oil Fracking Wastewater: The H2O Global distillation wasn't designed for waste-water processing. However, the H2O Global system can be used to process waste-water from natural gas and oil fracking operations. Fracking waste-water has high concentrations of bromides (salts). Treatment plants in areas of large-scale fracking aren't designed to process water with high levels of bromides. This has created major issues for fracking operations in areas such as the Marcellus Shale. One common method of fracking waste-water disposal is to store it deep underground. However, this disposal method isn't feasible within the Marcellus Shale due to geological factors in Pennsylvania, New York and West Virginia.
Municipal Water Authorities: The H2O Global distillation system provides a cost-effective technology that enables local water authorities to quickly meet ever-expanding state water quality mandates. At present, many municipalities are not meeting these state- mandated requirements. In some cases, municipalities are resorting to expensive dilution processes to meet state requirements. In the desalination industry, H2O technology can reduce cost by 50-75% when contrasted to existing methods that are presently used by oceanic-based operations. Additionally, our distillation system can reduce start-up costs for desalination facilities as well as enhance operational efficiency as we have eliminated the need for expensive cell membranes.
For water municipalities that are in compliance with current mandates, H2O Global delivers value by enabling these entities to reduced operational expenditures while simultaneously delivering better quality water.
Mobile Drinking Water Deployment: H2O Global mobile distillation systems eloquently solve major problems faced by entities such as: military, emergency management (natural disasters) and national security (bio-terrorism) agencies. Multiple units can be easily transported and deployed for operation in the field.
Natural Gas / Crude Oil Fracking Wastewater: The H2O Global distillation wasn't designed for waste-water processing. However, the H2O Global system can be used to process waste-water from natural gas and oil fracking operations. Fracking waste-water has high concentrations of bromides (salts). Treatment plants in areas of large-scale fracking aren't designed to process water with high levels of bromides. This has created major issues for fracking operations in areas such as the Marcellus Shale. One common method of fracking waste-water disposal is to store it deep underground. However, this disposal method isn't feasible within the Marcellus Shale due to geological factors in Pennsylvania, New York and West Virginia.