AGUACYCLE
Utah

Sandy Hills

Extreme (D3)Developing reusePop. ~89,575

Sandy Hills, UT water profile — supply sources, drought status, wastewater reuse, and the key water issues facing the city.

Sandy Hills, UT is a small but growing city, with a population near 89,575 and the 6th-largest community in Utah. Like much of Utah, Sandy Hills draws its water primarily from Colorado River, Great Salt Lake basin, and snowpack.

Sandy Hills's water outlook is shaped most by colorado river — the issue that dominates planning across Utah. One of the highest per-capita users in the country and home to the shrinking Great Salt Lake; St. George is building an advanced purification demonstration facility as the Lake Powell Pipeline stalls.

Sandy Hills sits in a state that reuses roughly 13% of treated wastewater (developing programs) and currently experiences severe to extreme drought.

For the bigger picture, see the Utah state water profile and the related issues below.

At a glance

  • Population ~89,575 (6th-largest in Utah)
  • Primary sources: Colorado River, Great Salt Lake basin, and snowpack
  • Drought: severe to extreme conditions
  • State reuse rate: ~13% of wastewater

Statewide drought history

% of Utah in severe+ drought (Extreme (D3) now).

Source: U.S. Drought Monitor

Common questions

Is tap water safe in Sandy Hills?

Sandy Hills is served by community water systems regulated under the Safe Drinking Water Act. Statewide, 39.4% of Utah's systems have a recent health-based violation. Check your provider's annual Consumer Confidence Report for local results.

Where does Sandy Hills get its water?

Sandy Hills draws from the same regional sources that serve Utah: Colorado River, Great Salt Lake basin, snowpack.

Related water issues

💧

Colorado River

The river that supplies 40 million people has lost roughly a fifth of its flow since 2000, forcing a renegotiation of how seven states share the water.

Explore
💧

Drought

Much of the American West is in a multi-decade dry period that researchers describe as the most severe in over a millennium, reshaping how communities plan for water.

Explore
💧

Potable Reuse

Advanced purification turns treated wastewater into water that meets or exceeds drinking-water standards — increasingly essential in water-stressed regions.

Explore
💧

Groundwater Depletion

Aquifers from the Central Valley to the Ogallala are being pumped faster than they recharge, causing land subsidence and threatening long-term supply.

Explore
Utah water profileU.S. water quality →