FlowPlan+™ Planning & Solution Framework
A structured path from diagnostics to delivery. FlowPlan+™ helps you map real-world problems to implementable solutions by blending early-stage clarity, modular design logic, and performance-focused execution.
The FlowPlan+™ Journey
FlowPlan+™ bridges diagnostics, design framing, and implementation by offering structured solution pathways tailored to your site needs. The journey unfolds across six deliberate steps:
1️⃣Intake & Problem Framing
Understand site flows, reuse goals, and constraints. This phase captures essential project context to ensure system framing aligns with real operational needs.
- Design Support Intake
- Technical Input Intake
2️⃣Diagnostic Mapping
Evaluate risks, reuse potential, and ESG alignment. Our diagnostic tools are structured to reveal site-specific challenges and opportunity paths for resource recovery and compliance alignment.
- TSE Use Feasibility
- Residuals & Biosolids Planning
- Source Control & Pretreatment
- Risk Industrial Effluent Diagnostic
- Plant Retrofit Readiness
- ESG Priority Screening
- Vendor/Technology Evaluation
- Thermal Process Ash Diagnostic
- Biofertilizer ESG Matchmaking
3️⃣ Feasibility & Option Framing
Assess technical and economic paths forward. We help clients compare options and chart out value-based pathways that align with constraints and reuse ambitions.
- Feasibility Report
- Value Engineering
4️⃣ FlowPlan+™ Configuration
Map system needs to FlowPlan+™ modules. This step connects your diagnostic findings and feasibility logic to the correct modular treatment systems.
Includes Water, Sludge, Odor, and Energy Modules.
5️⃣ Specification & Readiness
Prepare for vendor engagement and delivery handoff. We develop specifications and integration notes that define clear expectations for implementation.
- Terms of Reference
- Integration Notes
6️⃣ Implementation & Coordination
Support install, validation, and optimization. Our support includes performance validation and refinement to ensure the system delivers value post-implementation.
- Performance Review
- Optimization Guidance
🔬 Diagnostic Tools & FlowPlan+™ Linkages
Our diagnostic tools help identify key challenges, risks, and opportunities in your water, wastewater, and biosolids systems. Each tool assesses specific site or process conditions, and is linked to recommended FlowPlan+™ modules — modular building blocks that address these challenges effectively.
Matching Logic: Diagnostics reveal what needs treatment or optimization; matched modules are recommended technologies best suited to address those needs.
💧 Reuse & Water Planning
TSE Use Feasibility
Assesses suitability of treated water for reuse in landscaping, flushing, or cooling.
→ FP(Clari+™), FP(Micra+™), Oxiclear+™
Water Quality Snapshot
Provides a quick overview of key water quality parameters.
→ FP(MBBR+™), FP(ROCore+™)
Reuse Risk Assessment
Evaluates potential health and operational risks for reuse applications.
→ Oxiclear+™, FP(Clari+™)
Source Water Characterization
Details contaminants and flow profiles at source.
→ FP(Batch+™), FP(Micra+™)
🪵 Sludge & Biosolids
Residuals & Biosolids Planning
Maps residuals volumes and classifies handling needs.
→ FP(Sludge+Dewater)™, FP(Sludge+ReusePlan)™
Biofertilizer ESG Matchmaking
Assesses biofertilizer viability based on product class and regulatory fit.
→ FP(Sludge+Bio)™, FP(Sludge+Fert)™
Pathogen & Contaminant Assessment
Evaluates pathogen levels and contaminant risks in biosolids.
→ FP(Sludge+Compost)™, FP(Sludge+Dry)™
Sludge Volume Reduction Potential
Analyzes opportunities for sludge volume minimization and stabilization.
→ FP(Sludge+Dewater)™, FP(Incineration+)™
Heavy Metals & Toxics Screening
Detects heavy metals and toxic compounds impacting biosolids reuse.
→ FP(Sludge+ReusePlan)™, FP(Incineration+)™
🏭 Industrial & ZLD Diagnostics
Industrial Effluent Characterization
Comprehensive profiling of contaminants and flow essential for ZLD feasibility.
→ FP(Batch+™), FP(MBBR+™), FP(ROCore+™)
ZLD Preparation & Brine Management
Assesses pretreatment needs and brine minimization strategies critical for ZLD.
→ FP(ZLD+Prep+™), FP(ROCore+™), FP(Batch+™)
Salt & Recovery Potential
Evaluates salt load and recovery options from brine and residuals.
→ FP(ZLD+Prep+™), FP(Incineration+)™, FP(Sludge+ReusePlan)™
Industrial Hazardous Load Screening
Detects hazardous substances affecting ZLD design and waste handling.
→ FP(Batch+™), FP(Incineration+)™, FP(ZLD+Prep+™)
Pre-Treatment Compatibility
Checks chemical compatibility and scaling risks critical for ZLD membranes.
→ FP(Batch+™), FP(MBBR+™), FP(ROCore+™)
🏞️ Catchment, Odor & Hazard Diagnostics
Catchment Pollution Mapping
Identifies pollution hotspots to prioritize interventions.
→ FP(Batch+™), FP(MBBR+™), FP(ROCore+™)
Industrial Hazardous Load Screening
Screens hazardous chemicals impacting treatment and reuse.
→ FP(Batch+™), FP(ZLD+Prep+™), FP(ROCore+™)
Sewer Septicity & Odor Risk
Diagnoses septicity and odor emission hotspots for control measures.
→ Odor+Capture™, Odor+Dose™, Odor+Polish™
Catchment Flow Variability
Analyzes wastewater flow and quality fluctuations across catchment.
→ FP(MBBR+™), FP(Batch+™), FP(ZLD+Prep+™)
🧩 ESG & Vendor Fit
Vendor/Technology Evaluation
Screens solutions by ESG impact, cost, and delivery model.
→ All FlowPlan+™ lines
ESG Priority Screening
Assesses ESG fit for circularity, climate, and stakeholder acceptance.
→ FP(Sludge+Bio)™, FP(Sludge+Fert)™, Oxiclear+™
🔧 FlowPlan+™ Modules by Solution Area
💧 Water & Reuse Treatment
FP(Clari+™)
Clarification & Filtration
Polished water for reuse or discharge. Ideal for STP effluent polishing before landscaping reuse.
FP(MBBR+™)
Biological BOD/COD removal
Used for municipal and industrial reuse or discharge applications.
FP(Micra+™)
Membrane-based reuse
Delivers TSE-grade water. Common in commercial greywater reuse setups.
FP(Batch+™)
Batch chemical treatment
Removes metals, TSS, and pH imbalances. Useful in rinsewater or pre-RO treatment.
FP(ROCore+™)
Reverse osmosis with recovery
Enables ultra-pure water output. Used in ETPs and industrial reuse lines.
FP(ZLD+Prep+™)
Zero Liquid Discharge readiness
Brine minimization support for textile, dyeing, or ZLD-targeted facilities.
Oxiclear+™
Oxidation-based polishing
Ensures disinfection and odor/color removal. Enhances treated effluent for reuse.
🪵 Sludge Management & Reuse
FP(Sludge+Dewater)™
Mechanical dewatering
Reduces sludge volume. Suitable for STPs and ETPs with high solids output.
FP(Sludge+Dry)™
Thermal or bed drying
Converts dewatered cake to dry solids for compost or fuel.
FP(Sludge+Compost)™
ASP/Windrow composting
Produces Class A compost. Applied in municipal reuse programs.
FP(Sludge+Fert)™
Organo-mineral fertilizer
Marketable output from stabilized sludge with nutrient boosters.
FP(Sludge+Bio)™
Enhanced biofertilizer
Enriched product with high agronomic value — for Class A reuse.
FP(Sludge+ReusePlan)™
Reuse market planning
Aligns reuse outputs with regulatory and market frameworks.
FP(Incineration+)™
Mono-incineration + recovery
Captures phosphorus and separates heavy metals from ash.
🌬️ Odor & Septicity Control
Odor+Capture™
Ventilation capture
→ FP(ZLD+Prep+™), FP(Incineration+)™, FP(Sludge+ReusePlan)™
Odor+Dose™
Chemical/biological dosing
Manages H₂S and septicity in rising mains and small plants.
Odor+Polish™
Biofilter or scrubber
Final-stage polishing for community-sensitive locations.
🔥 Energy & Heat Systems
Thermo+Loop™
Cooling loop exchange
Uses treated effluent for cooling applications in factories.
Thermo+Sludge™
Sludge heat exchange
Supports digestion, pasteurization, and conditioning processes.
Thermo+Recovery™
Waste heat recovery
Recovers energy from hot effluent in laundries and process plants.