Project Roadmap
Initial Opportunity Scan & Assessment
Focus: Define goals and map reuse potential
What Happens: Identify compliance, reuse, and recovery goals
Key Tools: Design Support Form, Water/Wastewater Characterization
Deliverables: Project Feasibility Report
Specification & Vendor Readiness
Focus: Scope system performance and layout
What Happens: Evaluate design conditions and select treatment logic
Key Tools: Technology Fit Matrix, Compliance Check
Deliverables: Terms of Reference (ToR), Decision Support Note
Design & Integration
Focus: Align flows, functions, and form factors
What Happens: Connect technologies, flows, and site requirements
Key Tools: Layout Concepts, Integration Templates
Deliverables: Preliminary Flow Diagram, Integration Memo
Resource Recovery & Post-Treatment
Focus: Finalize reuse outputs and recovery potential
What Happens: Define reuse path (TSE, compost, biofertilizer, etc.)
Key Tools: Market Alignment Table, Reuse KPI Draft
Deliverables: Recovery Options Report
Implementation & System Build
Focus: Execute and integrate selected modules
What Happens: Coordinate with vendors, adapt layout, oversee construction
Key Tools: Vendor Integration Notes, Sequencing Plan
Deliverables: Installation & Integration Strategy
Post-Implementation Review
Focus: Validate outcomes and performance
What Happens: Review system performance and adjust where needed
Key Tools:Performance Monitoring Template, Operator Log
Deliverables: Optimization Plan
Milestones Timeline
Milestone 1
📘 Project Feasibility Report
Defines project intent, recovery goals, and constraints.
Milestone 2
📘 Design Basis & Terms of Reference
Captures functional needs and technology scope.
Milestone 3
📘Vendor Selection Report
Aligns quotes with system logic and compliance goals.
Milestone 4
📘 Integration & Installation Strategy
Establishes module layout and timeline.
Milestone 5
📘Commissioning Report
Ensures start-up, calibration, and handover.
Milestone 6
📘Optimization & Performance Review
Evaluates results and proposes refinements.
FlowPlan+™ Project Configurations
Each FlowPlan+™ configuration represents a complete, modular solution path aligned with specific treatment goals, recovery ambitions, and operational contexts.
🌊 FlowPlan(STP+)™
Purpose: New Sewage Treatment Plant planning
Applies To: Urban utilities, new township projects
Includes: FP(MBBR+), FP(Clari+), FP(Sludge+Compost)™, FP(Sludge+ReusePlan)™
Key Outputs: Feasibility Report, ToR, Technology Fit, System Integration
♻️ FlowPlan(ETP+)™
Purpose: Effluent Treatment for industrial facilities
Applies To: Food, pharma, textile, and chemical plants
Includes: FP(Batch+), FP(Oxiclear+), FP(Sludge+Dewater)™, FP(ROCore+)™
Key Outputs: Diagnostic Summary, Compliance Fit, Design Integration, Optimization Plan
♻️ FlowPlan(STP+Retrofit)™
Purpose: New Sewage Treatment Plant planning
Applies To: Urban utilities, new township projects
Includes: FP(MBBR+), FP(Clari+), FP(Sludge+Compost)™, FP(Sludge+ReusePlan)™
Key Outputs: Feasibility Report, ToR, Technology Fit, System Integration
♻️ FlowPlan(ETP+Retrofit)™
Purpose: Retrofit of industrial effluent systems
Applies To: Legacy ETPs in manufacturing and processing industries
Includes: FP(Batch+), FP(Sludge+Dewater)™, FP(ROCore+)™, FP(Oxiclear+)
Key Outputs: Retrofit Schematic, Flow Rebalance, Risk Review
♻️ FlowPlan(UFRO+)™
Purpose: Advanced reuse systems using ultrafiltration and RO
Applies To: High-end reuse projects, polishing stages
Includes: FP(Micra+), FP(ROCore+), FP(Oxiclear+)
Key Outputs: High-purity Reuse Water, Salinity Control, Membrane Configuration
Treated Water Reuse Projects
♻️ FlowPlan(TSE+)™
Purpose: Reuse of treated sewage effluent
Applies To: Industries, parks, agriculture, urban reuse
Includes: FP(Micra+), FP(Clari+), FP(Oxiclear+), reuse pipe routing
Key Outputs: Reuse Routing Plan, Sector-Specific Reuse Strategy, Quality Compliance Matrix
♻️ FlowPlan(Dual+Reuse)™
Purpose: Enable dual plumbing reuse systems
Applies To: Buildings and campuses with grey-black separation
Includes: FP(GWTP), FP(Batch+), dual line audit, reuse tracking logic
Key Outputs: Greywater Treatment Design, Dual Plumbing Map, Monitoring Setup
♻️ FlowPlan(ZLD+)™
Purpose: Achieve Zero Liquid Discharge
Applies To: Chemical, textile, and pharma industries
Includes: FP(ROCore+), FP(ZLD+Prep+), FP(Micra+), FP(Sludge+Dewater)™
Key Outputs: Recovery Design, Concentrate Management Plan, ZLD Viability Summary
Biosolids & Recovery Projects
🔥 FlowPlan(Incineration+)™
Purpose: Mono-incineration with energy recovery
Applies To: Regions with thermal disposal requirements
Includes: Thermal reactor, FP(Sludge+Dewater)™, FP(Sludge+Dry)™
Key Outputs: Incinerator Schematic, Energy Recovery Plan, Emission Fit Table
🔥 FlowPlan(Incineration+AshRec)™
Purpose: Recover phosphorus and metals from ash
Applies To: Post-incineration recovery facilities
Includes:Ash sampling, phosphorus recovery unit, FP(Sludge+ReusePlan)™
Key Outputs: Ash Recovery Pathway, Resource Value Chart, Risk Notes
🌿 FlowPlan(Compost+)™
Purpose: Compost facility design and implementation
Applies To: Composting operators and ULBs
Includes: ASP, windrow layouts, indoor compost pads, FP(Sludge+Compost)™
Key Outputs: Compost Layout Plan, Capacity Estimates, Output Handling Strategy
🌿 FlowPlan(Sludge+ReusePlan)™
Purpose: Regulatory and market alignment for biosolids
Applies To: Composters, utilities, sludge handlers
Includes: Class A benchmarking, policy diagnostics, land use match
Key Outputs:Reuse Permit Map, Class A Checklist, Market Fit Table
🌿 FlowPlan(Sludge+Bio)™
Purpose: Produce biofertilizers from stabilized sludge
Applies To: Utilities with anaerobic digestion or drying units
Includes: FP(Sludge+Dry)™, bio-additive strategy, pathogen control matrix
Key Outputs: Biofertilizer Formula, Application Guidelines, ESG Alignment
🌿 FlowPlan(Sludge+Fert)™
Purpose: Organo-mineral fertilizer from dried sludge
Applies To:High-solids sludge treatment setups
Includes: FP(Sludge+Dry)™, nutrient blending design, pelletization (optional)
Key Outputs: Fertilizer Specification, Product Fit Sheet, Output Testing Plan
Equipment & Utility-Based Projects
🚧 FlowPlan(Procure+)™
Purpose: Equipment selection and procurement alignment
Applies To: System integrators, utilities, project developers
Includes: Vendor analysis, procurement specs, bid comparison template
Key Outputs: Equipment Justification Note, Technical Spec Sheet, Vendor Fit Matrix
🚘 FlowPlan(VWRP+)™
Purpose: Vehicle washwater recycling systems
Applies To: Depots, garages, fleet management setups
Includes:FP(Clari+), FP(Batch+), reuse quality logic
Key Outputs: Effluent Recycling Loop, Solids Removal Plan
🧺 FlowPlan(LWRP+)™
Purpose: Laundry water recycling
Applies To: Hotels, hostels, hospitals, laundries
Includes: FP(Micra+), FP(Oxiclear+), FP(ROCore+)
Key Outputs: Water Recovery Ratio, Hygiene Assurance Sheet
🏠 FlowPlan(GWTP+)™
Purpose: Greywater treatment for reuse
Applies To: Homes, campuses, residential blocks
Includes: FP(GWTP), FP(Batch+), reuse filter stage
Key Outputs: Greywater Safety Plan, Footprint Estimate
Design & Consulting Support
FlowPlan+™ is more than project configurations — it’s supported by deep consulting inputs, intake tools, and design framing that ensure projects move smoothly from concept to execution.
🧠 Consulting & Advisory
Expert input when it matters most — from strategy to operations to implementation. We help bridge design, compliance, and resource recovery goals.
🛠️ Design Support Tools
Structured intake forms, diagnostics, and technical templates that ensure design is well-aligned and vendor-ready.
Navigate Through FlowPlan+™
FlowPlan+™ – Turning System Design into Real-World Action
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Shape a Cleaner Tomorrow.
Join hands with us to drive responsible waste management, protect our planet, and build a sustainable future for generations to come. Together, we can turn today’s waste into tomorrow’s opportunity.