The brief
A high-end residential tower requiring precise MEP coordination for gravity-based systems. Stormwater drainage, soil-line slopes, and plumbing inverts had to coordinate with the architectural slab geometry — and any miss would have to be re-cut into completed work.
Why it was risky
Gravity systems are unforgiving. A 1:100 slope error means standing water; a misaligned invert means re-routing soil lines through finished ceilings.
- Incorrect PHE levelling would have failed gravity flow at the soil-line discharge points.
- Gradient misalignment between the layout and the plumbing lines would have produced standing water in stormwater channels.
- Critical rework: stormwater flow and slopes would have had to be re-cut into the slab.
- Risk of stagnation: standing water in luxury units becomes a defect-liability issue.
What Kaël did
- Digital gradient control combined design controls with mandatory digital inspections at execution, preventing gradient mismatches.
- Slope verification drove design queries and RFIs to resolve layout conflicts and clarify invert levels before construction began.
- Mandatory checklists verified pipe slopes against published acceptance criteria during execution — every line, every floor.
- Automated NCRs triggered immediate rejection and a formal corrective-action item the moment a deviation was recorded.
- Real-time correction kept the issue at the slab — not at finished ceiling level.
Outcome
Reliable gravity flow was achieved first-time. No critical-level rework, no standing water, and no liability claims downstream.
