From intake to discharge, watershed to wastewater, a structured assessment that turns water data into a multi-year management blueprint. Operators use it daily. Investors use it in due diligence.
Industrial estates in Indonesia face growing water stress, from seasonal scarcity, upstream competition, and declining water quality. Yet most estate operators have only a rough idea of their total water balance, let alone the watershed-level risks that could disrupt operations in the next decade.
MUSA's Water Assessment is a structured program that starts with a baseline study (water balance, quality mapping, regulatory review), layers in satellite and remote-sensing water risk data (WRI Aqueduct, WWF Water Risk Filter), and produces a multi-year water management blueprint. The result is both a compliance document and an operational tool, estate operators use it daily, and investors use it in due diligence.
The assessment integrates with the MUSA pipeline: sensor data from intake and discharge points feeds the water balance in real time, while satellite-derived risk layers provide the watershed context that site data alone can't capture. The blueprint isn't a PDF that gathers dust, it's a living dashboard with tracked KPIs, CAPEX milestones, and annual review cycles.
Whether you're an industrial estate operator managing 50 tenants, a palm oil mill facing seasonal water scarcity, or a mining company preparing for investor ESG due diligence, the assessment scales to your context.
Intake, use, recycle, discharge, losses, reconciled across the entire site or estate.
Surface water, groundwater, and effluent quality, spatial and temporal patterns.
WRI Aqueduct baseline water stress, seasonal variability, and climate projections.
Permit status, upcoming regulations, PROPER water scoring readiness.
Water intensity (m³ per unit output) vs industry peers and best practice.
Downstream users, community water access, and shared catchment dependencies.
See upstream diversions, climate projections, and competing users in your catchment, not just what's happening inside the fence line.
Satellite-derived water risk layers ground-truthed with your site data. Global datasets, local calibration.
Prioritized interventions with cost estimates, timelines, and expected water savings. A plan you can budget against.
Assessment outputs map directly to PROPER water criteria. Walk into the rating cycle with evidence, not estimates.
Standardized risk disclosure format that meets ESG investor expectations. Water risk, quantified and contextualized.
The baseline isn't a one-off report. Sensor data and satellite feeds keep the assessment current. KPIs update, trends emerge, and the blueprint evolves.
Comprehensive mapping of every water input, use, recycle stream, discharge point, and loss pathway. Metered and unmetered flows quantified. The baseline that every other assessment layer builds on.
Overlay your site data with WRI Aqueduct's global water risk layers, baseline water stress, seasonal variability, flood occurrence, drought severity, and upstream storage. Ground-truthed with local hydrological data.
Compare your water intensity (m³ per ton of product, m³ per employee, m³ per hectare) against industry peers, national benchmarks, and best-available-technology standards. Identify the processes with the highest improvement potential.
The deliverable that turns assessment into action. Prioritized water management interventions with cost estimates, implementation timelines, expected water savings, and KPI targets. Structured as a 3–5 year rolling plan.
Water permit review, meter inventory, intake/discharge mapping, stakeholder interviews. Site walk and data gap analysis.
Flow measurement campaign, quality sampling, recycling rate quantification. Build the site-level water balance model.
WRI Aqueduct overlay, efficiency benchmarking, intervention prioritization. Draft the multi-year management blueprint.
Final blueprint handoff, CAPEX/OPEX plan, KPI framework. Optional: sensor deployment for ongoing monitoring and annual review.
Kawasan · multi-tenant water management
POME, seasonal scarcity
High water intensity, dye effluent
Process water, CIP cycles
Dewatering, tailings, community impact
High volume, fiber recovery
Continuous Emission Monitoring System. SO₂, NOₓ, PM, flow, O₂.
ExploreContinuous wastewater quality monitoring at industrial discharge outfalls.
ExploreGRI-aligned sustainability reporting with PROPER integration.
Explore
