A membrane system isolates environment volume, contains hazards, enables detoxification, hazard removal, infrastructure restoration, and substance recovery. The flexible membrane system adjusts to advantageously shape its isolated volume and integrate existing infrastructure. Pollution and hazardous energy, including crude oil, toxic-gas, radioactive fallout, fire, and other hazards are isolated, while concurrently enabling access within the isolated volume. Pod encapsulated and readily deployed, the membrane system operates semi-autonomously, uses selective-filtering, specific gravity and substance differences to channel matter, mitigate hazards, protect the biosphere, preserve infrastructure and capture substances.

A Nonfloating Oil Fence Boom is disclosed for containing heavy or sinking oils which migrate on an underwater floor. The Non-Floating Oil (NFO) Fence Boom is comprised of a vertical section, a horizontal section that abuts an underwater floor, a buoyant section and a ballast section. The ballast causes the horizontal section to sink and form a seal with the underwater floor, the buoyant section in engineered to provide only enough buoyant force to maintain the vertical section in an upright perpendicular position while not breaking the horizontal sections seal with the underwater floor thus preventing heavy oils from passing below or beyond the fence.

The present invention relates to floating lakes and to the treatment of the water in such lakes. The present invention further relates to large floating lakes that can be installed within a natural or artificial water body to improve water conditions that are unsuitable for recreational uses. The floating lake can be provided with a chemical application system; a filtration system including a mobile suctioning device and filters; a skimmer system, and optionally a coordination system.

An oil-collecting apparatus includes: a body including an inlet through which a liquid is introduced, a first outlet through which purified water generated from the liquid introduced through the inlet is discharged, and a second outlet through which materials collected from the liquid are discharged; and a filter arranged at the first outlet of the body and generating the purified water by collecting the materials included in the liquid by allowing the liquid introduced through the inlet to pass therethrough.

A system for aeration and separation of contaminant from flowing water (10) is disclose wherein a contaminated water travel through up and down flooring (6) and diverted its path frequently by the means of baffle (5) to aerate and increase travel distance in particular channel (1). The sink (2) between last baffle and partition wall (3) collect contaminant and sliding mesh(4) above wall(3) collect the plastic, metallic, paper and weed. Water plants (8) in H block baffle (5) groove with pebbles & soil(9) removes toxic gases in flowing water(7)

A method of containing a spill in an aqueous environment, comprises the steps of: placing a polymeric pipe under the surface level of the aqueous environment in the vicinity of a site of potential spillage; and raising the pipe from under the surface level to a containment level; wherein the pipe forms, when raised, at least a partial boundary around the spill for containing the spill.

A floating oil containment boom is comprised of boom sections connected end to end. Each boom section is of a tubular member or pipe section. The pipe or tubular member is buoyant, either closed at its ends and/or filled with foam or other buoyant material. Plates extend above and below the tubular member or pipe section for each section of boom. A specially configured connecter joins each boom section to the other, the connecter extending above and below the pipe or tubular member. An elastomeric block forms an interface between connectors on each boom section while simultaneously sealing the area between boom sections to flow of oil.

Embodiments disclosed here include a containment system and methods of containment which may include a segmented buoyant rim. Certain embodiments also include an inflatable rim with at least one inflation/deflation valve in the rim segments and ballast in the rim segments. Additionally, certain embodiments include material connected to the rim segments, to enclose a void created in the rim and to hang below the buoyant rim.

The present invention relates to floating lakes and to the treatment of the water in such lakes. The present invention further relates to large floating lakes that can be installed within a natural or artificial water body to improve water conditions that are unsuitable for recreational uses. The floating lake can be provided with a chemical application system; a filtration system including a mobile suctioning device and filters; a skimmer system, and optionally a coordination system.

Aquatic curtain devices and methods for forming waterway channels and reducing waterway maintenance are disclosed. Each curtain device comprises an elongated float and an elongated flexible curtain depending from a first side of the elongated float. The curtain has a bottom end with a weight extending along the entire length of the elongated float. The float is configured to be sufficiently buoyant to support the curtain in an upward direction. Each curtain device is configured for the curtain to remain in a substantially taut state when in use and accommodate fluctuations in water levels, such that the elongated weight remains on the bottom of the waterway while the elongated float remains on the surface. Artificial channels are constructed by selecting the length of the elongated float to achieve the desired channel dimensions using two or more curtain devices positioned along a desired path in a waterway.