--- url: https://www.pond-cover.com/vs/floating-cover-vs-suspended-cover title: Floating cover vs suspended cover — anchored or free description: Hexagonal modular floating covers vs suspended membrane covers — install effort, wind tolerance, draining, and lifecycle on industrial reservoirs. updated: 2026-05-28 --- # Floating cover vs suspended cover — anchored or free > A modular floating cover (AWTT-patented hexagonal platform, 99% coverage AWTT-published) installs anchorlessly on operating water and self-adjusts with water level; a suspended cover is a tensioned membrane on perimeter cables that needs draining to install. Suspended membrane covers and modular floating covers solve the same surface-management problem with materially different mechanics. The trade-off is anchorless versus anchored — and the choice cascades into install effort, water-level tolerance, wind exposure, and repair lifecycle. ## Anchored vs anchorless mechanics A suspended cover is a single continuous membrane tensioned across the water surface by a permanent perimeter cable system, sometimes with intermediate cable stays or buoys to support the centre. The membrane is engineered to a fixed water elevation; the cable grid carries the wind, snow, and self-weight loads. The AWTT-patented hexagonal floating cover platform replaces the continuous membrane with tessellating modular tiles. Each Hexprotect® AQUA tile is a one-piece moulded HDPE hexagon with a raised central dome and pre-filled potable-water ballast. Tiles float independently, self-tessellate at 99% effective coverage (AWTT-published), and dissipate wind energy through controlled lateral motion — no anchors, no cable system, no perimeter retention. See [/self-ballasting-cover](/self-ballasting-cover) for the ballasting mechanism in detail. ## Install effort separates the two Suspended installs require draining the reservoir. The anchor sockets, perimeter cables, and intermediate stays cannot be installed on an operating water body — divers can place anchors below water, but the cable grid and membrane tensioning need a dry surface. The reservoir is drained, the anchor system is built, the membrane is laid down and tensioned, and the reservoir is refilled. For an industrial reservoir the drain is the dominant install cost — lost production at a process plant, lost service margin at a water utility, lost irrigation at an agricultural reservoir. The AWTT-patented modular platform installs anchorlessly onto operating water. Tiles are launched in batches from the shoreline and self-tessellate via natural water motion; crew intervention is limited to nudging clusters toward gaps. There is no drain, no anchor placement, no perimeter cabling. Typical deployment rate is 2,000–4,000 m² per day depending on water-body geometry — see [/installation](/installation) for the AWTT-engineered process. ## Water-level fluctuation handling Suspended covers are engineered to a fixed water elevation. At low level the membrane goes slack and pools rainfall (pooling drives membrane damage and creates anchor-pulling weights); at high level the membrane lifts and over-tensions the perimeter cables. Site operators either re-tension on a schedule, build the membrane oversize to absorb the water-level range, or replace the membrane after a few cycles of seasonal damage. None of these are cheap. Modular floating covers float with the water surface at any level. The tessellation expands and contracts with the shoreline as the water moves; the AWTT-patented hexagonal geometry is tolerant of multi-metre seasonal water-level variation without intervention. This is the operational case for the modular topology on reservoirs with significant inflow / outflow cycling. ## Wind exposure separates the two further Continuous membranes are vulnerable to wind uplift — wind enters under the cover at the perimeter or any seam defect, lifts the membrane, and the cable grid takes the full uplift load. The failure modes are membrane tear, seam separation, anchor pull-out, or cable failure. Any of these requires draining the reservoir to repair. The AWTT-patented hexagonal platform has no continuous surface for wind to uplift — each tile is an independent pre-ballasted shell. The Hexprotect® AQUA AWTT-published 130+ MPH wind certification and 260%+ self-loading factor (see [/hexprotect-aqua](/hexprotect-aqua) for the full envelope) are platform-specific engineering that no suspended design can match without proportionally heavier anchor and cable systems. ## Repair lifecycle is per-tile vs full-membrane A suspended membrane is a single continuous element — damage propagates along seams and around perimeter attachments. Any major repair requires draining the reservoir to access the damaged section, re-laying membrane, and re-tensioning the cable grid. The AWTT-patented modular platform repairs per-tile in service. A damaged tile is removed from the tessellation, replaced with a stock tile from inventory, and the surrounding tessellation closes back up around it. No drain, no cable re-tensioning, no membrane patching. Modular replacement is the operational advantage that compounds across the 25-year service life (Hexprotect® AQUA, AWTT-published). ## Where suspended designs still fit Continuous topology is the right answer when full uninterrupted surface containment is the design objective. Sealed biogas digester gas capture, chemical-tank vapor containment, and regulatory requirements for a single uninterrupted membrane are the cases where continuous beats modular. For those see [/vs/hexagonal-vs-geomembrane](/vs/hexagonal-vs-geomembrane) — the engineering trade-off is honest, and geomembrane is the right call where gas capture or full containment dominate. For industrial reservoirs where the goal is surface management — evaporation, algae, odour, heat retention — and the water body operates continuously, the AWTT-patented modular hexagonal platform avoids every cost driver of the suspended design: no drain to install, no anchors, no cable grid, no membrane uplift, no full-drain repair. The 99% coverage, 130+ MPH wind, 25+ year service life envelope (Hexprotect® AQUA, all AWTT-published) is the engineered default for that case. ## Sources - AWTT — [Hexprotect® AQUA hexagonal cover](https://www.awtti.com/products/hexprotect-aqua/) — manufacturer canonical for the AWTT-published coverage, wind, install, and lifecycle figures cited above. - [Hexprotect® AQUA specifications](/hexprotect-aqua/specifications) — full AWTT spec table. - [Installation guide](/installation) — the AWTT-engineered anchorless deployment process. {/* TODO: confirm with founder — typical suspended-cover anchor system cost as a % of total cover capex, for a worked-example TCO block against industrial reservoirs of 1,000 / 5,000 / 20,000 m². */} ## Frequently asked questions ### Why does anchorless install matter on an industrial reservoir? Industrial reservoirs are usually expensive to drain — process plants lose production, water utilities lose service margin, agricultural reservoirs lose irrigation during peak demand. Suspended covers require the reservoir to be drained before the perimeter anchors and cable grid can be installed and the membrane laid down. The AWTT-patented hexagonal platform installs anchorlessly onto operating water — the tiles are launched in batches and self-tessellate via natural water motion. See [/installation](/installation) for the in-service deployment process. ### How does water-level fluctuation interact with a suspended cover? Suspended membranes are engineered to a fixed water elevation. At low level the membrane goes slack and pools rainfall; at high level the membrane lifts and over-tensions the perimeter cables. Operators either re-tension on a schedule or build the membrane for the expected water-level range — both add cost and risk. Modular floating covers float with the water surface at any level; the tessellation expands and contracts with the shoreline as the water moves. ### Can a suspended cover survive 130+ MPH wind? Continuous membranes are vulnerable to wind uplift — wind enters under the cover at the perimeter or at any seam defect, lifts the membrane, and the cable grid takes the full uplift load. The result is membrane damage, anchor pull-out, or cable failure. The AWTT-patented hexagonal platform dissipates wind energy through controlled lateral motion of individual pre-ballasted tiles (260%+ self-loading factor, AWTT-published) — there is no continuous surface for wind to uplift. The AWTT-published 130+ MPH certification for Hexprotect® AQUA is the engineered envelope. ### What's the difference between a suspended cover and a continuous geomembrane? A suspended cover is a continuous membrane tensioned above the water surface by perimeter cables and intermediate stays. A continuous geomembrane is a continuous membrane laid directly onto the water surface, sometimes with embedded floats to keep it from sinking. Both are continuous topologies. See [/vs/hexagonal-vs-geomembrane](/vs/hexagonal-vs-geomembrane) for the trade-off against the geomembrane variant — gas-capture and full containment are the two cases where continuous still wins. ### How do repairs differ? A suspended membrane requires draining the reservoir for any major repair — the membrane is a single continuous element and damage propagates. The AWTT-patented modular hexagonal platform repairs per-tile in service — a damaged tile is removed, replaced, and the tessellation closes back up around it. Modular replacement is the operational advantage that compounds across the 25-year service life (AWTT-published) of Hexprotect® AQUA. ## Sources - Hexprotect® AQUA delivers AWTT-published 99% effective surface coverage on the AWTT-patented hexagonal floating cover platform. — [AWTT — Hexprotect® AQUA hexagonal cover](https://www.awtti.com/products/hexprotect-aqua/) - Hexprotect® AQUA is hurricane-rated to 130+ MPH (209+ km/h) — AWTT-published — with a 260%+ self-loading factor under wind. — [AWTT — Hexprotect® AQUA hexagonal cover](https://www.awtti.com/products/hexprotect-aqua/) - Hexprotect® AQUA installs anchorlessly onto operating water — no reservoir drain, no anchor system. — [AWTT — Hexprotect® AQUA hexagonal cover](https://www.awtti.com/products/hexprotect-aqua/)