The invention disclosed herein includes apparatus and a method for enhancing the evaporation rate of leachate from leachate evaporator ponds. The HIAP apparatus and method promotes enhances evaporation by providing heat from high powered industrial heat lamps that direct heated air and heat energy across the air/leachate liquid interface of the evaporator pond surface to increase the evaporation rate of leachate from the evaporator pond.

The present invention relates to a device and an apparatus and relative method for removing hydrocarbons from a water body, in particular for the remediation of hydrophobic contaminated hydrocarbons present as a demixed phase. The device of the invention is equipped with at least one sensor which determines its position with respect to the demixed phase in the body of water, allowing automated modification of the position of the device with respect to the demixed phase in optimising its separation and recovery.

Per- and polyfluoroalkyl substances (PFAS) are destroyed by oxidation in supercritical conditions. PFAS in water is concentrated in a reverse osmosis step and salt from the resulting solution is removed in supercritical conditions prior to destruction of PFAS in supercritical conditions.

An IoT-based system for measurement of contamination distribution of contaminated groundwater through real-time monitoring of a contamination degree of a contaminated groundwater well for control of a contaminated groundwater purification device and prediction of a purification period based on the measurement result. The IoT-based system for measurement of contamination distribution of contaminated groundwater through real-time monitoring of a contamination degree of a contaminated groundwater well for control of a contaminated groundwater purification device and prediction of a purification period based on the measurement result monitors a groundwater well in real time based on sensor data collected from the contaminated groundwater well in the process of purifying contaminated groundwater present under the ground, measures the contamination distribution of the contaminated groundwater based on the monitoring result, controls a contaminated groundwater purification device, and predicts a purification period based on the measurement result, thereby efficiently purifying the contaminated groundwater.

The invention regards a composite for environmental remediation, comprising: one or more green rust compound(s) or green rust precursor(s), andone or more biochar(s).

The invention relates to methods of production of a silica concentrate from geothermal fluids. More particularly, although not exclusively, the invention relates to the production of a colloidal silica concentrate, colloidal silica or precipitated silica from high temperature geothermal fluids by ultrafiltration to produce size-specific silica colloids and step-wise concentration of silica to avoid precipitation or gelling.

A water treatment system is disclosed. The water treatment system comprises a filtration module comprising one or more ultrafiltration membrane configured to remove one or more non-PFAS contaminant from a PFAS contaminated water stream to provide a partially purified water stream containing soluble PFAS contaminants. The water treatment system also comprises a sorption module comprising one or more sorption units comprising a sorbent material, the sorption module being in fluid communication with the filtration module and downstream therefrom and configured to remove substantially all PFAS contaminants from the partially purified water stream to provide purified water that is substantially free from PFAS contamination.

A method and system for removing non-aqueous phase liquids (NAPL) from geologic media below the surface of the ground, employing a flexible liner disposed down a borehole. A flexible carrier liner has an absorbent outer cover composed of a NAPL-absorbent outer layer and a NAPL-absorbent inner layer, both preferably hydrophobic. The liner with outer cover is placed down the borehole, preferably but not necessarily by eversion. Liner placement presses the absorbent outer layer against the borehole wall. NAPL in the groundwater adjacent the outer layer is absorbed into the outer layer and then wicked into the inner layer. The liner and outer cover can then be extracted from the borehole to remove from the subsurface the NAPL absorbed in the cover's absorbent layers. If portions of the liner are transparent, a down-hole camera may be deployed to monitor the degree of NAPL absorption in the absorbent inner layer.

Remediation geotextile device, including a geotextile mattress-like component, configured to contain an active granular material for filtering and treating contaminated groundwater and/or sediment porewater. The geotextile device including a six-sided, or substantially rectangular, mattress-like component, including an upper geotextile layer and a lower geotextile layer that are connected at intervals with sets of interior geotextile straps.

The disclosure relates to enhancing alkalinity of brine, e.g. seawater, using bipolar membrane electrodialysis (BPMED) without removing divalent cations that otherwise cause scaling. In one embodiment, a BPMED is employed wherein the brine volumetric flow rate through a basification compartment is greater at a given current density than that through a brine compartment which increases the pH of the brine output while keeping it below the precipitation pH. In one embodiment, the spacer located in the basification compartment is thicker than spacers elsewhere in the BPMED so as resist membrane distortion due to the increased hydrostatic pressure in the basification compartment given the greater volumetric flow. The brine output having increased alkalinity can be returned to the ocean to mitigate acidification and enable capture of atmospheric carbon dioxide.