AESINC ADVANCED EQUIPMENT AND SERVICES provides comprehensive design and consultancy services for RO plants worldwide. Services range from designing or improving any part or all of your RO system to detailed design and specification. You receive recommendations about the best way forward, including suggestions on optimal technologies for a specific process. Our services go beyond installation, you can also get audit services during plant installation, verification that the execution of the design meets expectations as well as environmental requirements.
This service is custom made based on customer project scope.
Before investing in full redesigns or replacement, it is critical to understand exactly how your current RO plant is performing, where inefficiencies hide, which components are nearing end-of-life, and which subsystems are under-utilized. Our Holistic RO System Audits combine field inspection, operational data review, and design reanalysis to pinpoint weak spots and propose cost-effective upgrades.
Using a practical, performance-oriented approach, we measure membrane fouling trends, flow balances, energy consumption, and pretreatment efficacy. Based on this, we prepare prioritized upgrade roadmaps that minimize disruption, control capital cost, and deliver measurable gains in throughput, efficiency, or reliability.
Once the performance baseline is well understood, Advancees’s design team crafts optimized RO systems from first principles, matching your feed water, purity targets, flow profiles, site constraints, and budget. We don’t just hand you drawings; we deliver detailed specifications, process flow diagrams, control logic, material selection, and integration plans.
Our design philosophy is grounded in balancing capital expenditure and lifecycle cost: we aim for architectures that deliver low energy, high reliability, and ease of operation and maintenance. Whether a single-pass brackish system or multi-stage seawater desalination with recirculation and energy recovery, we tailor every element to your unique conditions.
We evaluate current performance, capacity goals, and upgrade potential. If improvements can meet your objectives cost-effectively, a retrofit is recommended; otherwise, we design a new system.
Key parameters include TDS, pH, temperature, turbidity, hardness, and scaling or fouling indicators like SDI.
Yes, we design modular layouts that allow additional capacity with minimal rework.
Higher-efficiency components and optimized layouts often reduce power use, cleaning frequency, and maintenance over time.
Each design undergoes internal review, performance modeling, and compliance checks with international standards before delivery.
