System Design
We go beyond unit process design to deliver system-oriented engineering that considers energy,
utilities, and operating conditions to maximize overall plant performance and efficiency.
MVR System
Maximizing energy efficiency by recovering and reusing vapor as a heat source
Overview
MVR systems improve energy efficiency by compressing generated vapor and reusing its latent heat for evaporation, significantly reducing steam consumption and operating costs compared to conventional thermal evaporation. Effective MVR implementation requires careful system design, including compressor selection, heat balance, and stable operation control. We provide optimized MVR system design based on extensive evaporation experience and practical engineering expertise.
MVR System
System Configuration
Evaporator Heat Recovery Process
Vapor generated from the evaporator is compressed by a steam compressor and reused as a high-efficiency heat source, significantly improving overall energy utilization.
Distillation Heat Recovery Process
Latent heat from condensed distillation vapor is recovered to generate steam, which is upgraded by a steam compressor and reused as the reboiler heat source, enhancing energy efficiency.
MVR System
Scope of Work
Feed characteristics and
evaporation requirement analysis
Feasibility evaluation of
MVR application based on detailed heat balance
Compressor selection and system design
Optimization of overall system configuration
Integrated design with evaporation and
distillation processes
Development of control and operating concepts
focused on stable operation
