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Service Overview
Semiconductor fabs are among the most resource-intensive facilities in the world, with massive consumption of ultra-pure water, electrical power, and specialty chemicals. Optimizing these resources is not only critical for sustainability but also a major driver of operational cost efficiency.
Desapex delivers data-driven sustainability and resource optimization engineering, embedding performance analysis directly into the design process. This ensures that fabs are engineered for efficiency from day one reducing environmental impact while significantly lowering long-term operating costs.
Our Digital-First Approach
BIM-Integrated Resource Modeling
Water, energy, and chemical consumption are simulated within the design environment.
Core Deliverables
UPW System Optimization Engineering
Reject water recovery, concentrate recirculation, and point-of-use reclaim systems to maximize water efficiency.HVAC Energy Optimization for Cleanrooms
Energy recovery systems, recirculation efficiency improvements, and free cooling integration.Process Exhaust & Abatement Optimization
Improved efficiency of thermal oxidizers, scrubbers, and consolidated abatement strategies.Chemical Usage & Waste Reduction
Optimized CDS design, lifecycle management, and waste segregation for recycling.Renewable Energy Integration Studies
Solar PV feasibility for fab infrastructure and evaluation of off-site renewable sourcing options.Environmental Compliance & Monitoring
CPCB-aligned emissions tracking, effluent quality monitoring, and hazardous waste documentation.
Why Choose Desapex
Semiconductor fabs incur significant annual utility costs, making even small efficiency gains financially impactful.
Desapex identifies high-value optimization opportunities during the design phase, where improvements can be implemented with minimal additional cost. This approach avoids expensive retrofits and delivers measurable savings both environmentally and economically from day one of operations.
Unique Selling Proposition
Desapex’s sustainability engineering is deeply integrated with the actual fab design and utility systems.
Unlike generic benchmark-based approaches, every recommendation is derived from the project-specific BIM model and process requirements. This ensures accurate performance projections, enabling confident decision-making for both operational efficiency and ESG commitments.
