Twin booster pumps, buffer vessel and manifold pipework in a tiled plant room
SERVICES

The complete residential water system.

Each service addresses one part of the home. We coordinate them around the same source information, demand calculations, drawings, and testing requirements.

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Engineer drawing a residential water schematic by hand over brass fittings and a ruler

Hydraulic design

Calculate the network before selecting equipment or pipework.

We assess the water source, expected demand, building levels, storage, pipe routes, and fixture requirements. The design sets the pressure zones, pipe sizes, pump duty, storage requirements, and control approach.

Design outputs
Demand and source assessment
Pressure, flow, and pipe-sizing calculations
Equipment schedules and control requirements
Coordinated schematics for approval

Multi-zone PEX distribution

Clear routes, controlled isolation, fewer concealed joints.

PEX is cross-linked polyethylene pipe used for flexible water distribution. We design manifold and zoned layouts so individual lines follow known routes and parts of the home can be isolated without shutting down the whole system.

Design outputs
Manifold and zoned layout design
Pipe routes coordinated with walls, ceilings, floors, and joinery
Isolation points set for each zone
Installed-route records for future servicing
White PEX distribution pipes running in parallel along a wall
Variable-speed booster pump set with pressure vessel installed in a home plant room

Variable-speed booster systems

Pressure selected from measured demand.

A booster system should reflect the available inlet pressure, storage arrangement, building height, and expected peak use. Variable-speed control adjusts pump output as demand changes instead of running constantly at full output.

Design outputs
Source pressure and peak-demand calculation
Storage and building-height review
Pump duty and variable-speed control selection
Plant-room and control requirements specified

Whole-home water treatment

Treatment selected from the source and intended use.

County water, boreholes, and harvested rainwater can require different treatment. Equipment should follow the water test and the intended use, rather than a standard package.

Design outputs
Laboratory results reviewed against intended use
Filtration, softening, disinfection, and conditioning stages specified
Bypasses, isolation, and sampling points planned
Maintenance schedule documented
Whole-home filter train, softener and conditioning cylinders in a concealed cabinet
Red radiant heating loops and brass manifold laid out across a floor before screeding

Hydronic radiant heating

Heating planned before the floor is closed.

Hydronic heating circulates warm water through pipe loops below the floor. We review room heat loads, divide the system into zones, coordinate manifold positions, and set the required flow and operating temperatures before screeding.

Design outputs
Room heat-loss calculations and zoning
Manifold positions and loop layouts
Flow and operating temperatures set
Pressure-tested before screeding

Irrigation design

Watering zones matched to the landscape and available supply.

Irrigation design begins with the planting plan, available flow, water source, storage, terrain, and soil conditions. The system is divided into zones that the available supply can support.

Design outputs
Zones sized to available flow and pressure
Valve locations and controller requirements
Isolation and maintenance access points
Initial watering schedule, with sensors or weather-based control specified only where required
Irrigation system watering a green field
One coordinated design

Where the services meet matters most.

Storage affects pump selection. Pump pressure affects pipe sizing. Treatment changes flow and plant-space requirements. Heating and irrigation add demand of their own. We coordinate these decisions before installation so that one part of the system does not create a problem for another.

Not sure which services the project needs?

Send us the location, construction stage, source information, and available drawings. We will identify the first engineering decision the project needs.

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