Floating roof tank for a volatile liquid have an outer roof and an internal floating roof with a primary seal with a support such that when the tank is empty, the floating roof will rest on the support whether the tank is in a vertical or horizontal position. The support enables the tank to be transported in a horizontal position without damage to the seal. The floating roof tank with support can be configured as a conical tank, flat bottom tank or slant bottom tank. The floating roof tank can also include a cleaning system and a flush mounted manway cover.

A defect perimeter sealing system that includes a plurality of perimeter base components that are arranged around a defect of a tank, where all of a top of the perimeter base components are encompassed or spanned by compression panels, the plurality of perimeter base components and the compression panels defining a fill zone between the plurality of perimeter base components and the compression panels, and an injected material in the fill zone.

A defect perimeter sealing system that includes a plurality of perimeter base components that are arranged around a defect of a tank, where all of a top of the perimeter base components are encompassed or spanned by compression panels, the plurality of perimeter base components and the compression panels defining a fill zone between the plurality of perimeter base components and the compression panels, and an injected material in the fill zone.

An automatic aeration device includes a first floating roof, a second floating roof and a movable valve. The first floating roof has a through hole and a first enclosure. The second floating roof is disposed in the through hole and has a second enclosure. The movable valve is disposed above the first floating roof and the second floating roof and has a plate which has an outer wall and an inner wall. The outer wall is mounted in the first enclosure and has a plurality of first vent holes. The inner wall is mounted in the second enclosure and has a plurality of second vent holes. The automatic aeration device further includes a plurality of balls mounted between the first enclosure and the outer wall, and mounted between the second enclosure and the inner wall.

An automatic aeration device includes a first floating roof, a second floating roof and a movable valve. The first floating roof has a through hole and a first enclosure. The second floating roof is disposed in the through hole and has a second enclosure. The movable valve is disposed above the first floating roof and the second floating roof and has a plate which has an outer wall and an inner wall. The outer wall is mounted in the first enclosure and has a plurality of first vent holes. The inner wall is mounted in the second enclosure and has a plurality of second vent holes. The automatic aeration device further includes a plurality of balls mounted between the first enclosure and the outer wall, and mounted between the second enclosure and the inner wall.

An insulating disc can be easily installed and removed from inside a riser of a septic tank. The insulating disc is seated atop an opening of the tank lid and seals around the riser inner surface. The disc can include a core formed of R-10 extruded polystyrene sandwiched between two layers of high-density polyethylene. A flexible gasket can extend outward from the disc to seal against the inner surface of the riser. Retention tabs can also be provided to center and hold the disc in place. The disc can be divided into two semicircular halves that are hinged together. A hook, eyebolt and/or rope can be used to aid in removing the disc from the riser.

An insulating disc can be easily installed and removed from inside a riser of a septic tank. The insulating disc is seated atop an opening of the tank lid and seals around the riser inner surface. The disc can include a core formed of R-10 extruded polystyrene sandwiched between two layers of high-density polyethylene. A flexible gasket can extend outward from the disc to seal against the inner surface of the riser. Retention tabs can also be provided to center and hold the disc in place. The disc can be divided into two semicircular halves that are hinged together. A hook, eyebolt and/or rope can be used to aid in removing the disc from the riser.

A storage system for a petroleum product and related methods includes a floating roof seal having a vapor barrier and a coupling assembly. The coupling assembly includes a barrier securement and a shoe mount bracket for securing to a shoe plate. The barrier securement has a securement body and a resilient portion biased toward a clamp position and configured to selectively deflect relative to the securement body from the clamp position to an installation position. The barrier securement with the resilient portion in the installation position is configured to be received on the shoe mount bracket such that the barrier portion is positioned between the barrier securement and the shoe mount bracket. The barrier securement with the resilient portion in the clamp position is configured to compress the barrier portion against the shoe mount bracket thereby fluidly sealing the barrier portion between the shoe mount bracket and the barrier securement.

A storage system for a petroleum product and related methods includes a floating roof seal having a vapor barrier and a coupling assembly. The coupling assembly includes a barrier securement and a shoe mount bracket for securing to a shoe plate. The barrier securement has a securement body and a resilient portion biased toward a clamp position and configured to selectively deflect relative to the securement body from the clamp position to an installation position. The barrier securement with the resilient portion in the installation position is configured to be received on the shoe mount bracket such that the barrier portion is positioned between the barrier securement and the shoe mount bracket. The barrier securement with the resilient portion in the clamp position is configured to compress the barrier portion against the shoe mount bracket thereby fluidly sealing the barrier portion between the shoe mount bracket and the barrier securement.

A dome-based cyclic inert sealing system for an external floating roof tank includes the external floating roof tank, a dome structure, an inert sealing pipeline, and a gas source servo device; wherein the dome structure is formed by a top portion of a tank wall of the external floating roof tank for sealing; the dome structure together with an internal wall of the external floating roof tank, a floating plate and a sealing device form a gas phase space which is isolated from atmosphere, so as to fill the gas phase space with an inert sealing medium; the inert sealing medium is a gas fire-fighting medium used in a suffocation fire-fighting method; the gas source servo device is connected to the gas phase space through the inert sealing pipeline and communicates through a valve for feedback-controlling states of the inert sealing medium in the gas phase space.