Business

Sustainable Future

TS TECH is committed to delivering world-class water and wastewater treatment systems.

Business

R&D

We protect the environment through technology and shape the future through innovation.

Resource Recovery (Waste-to-Energy) · Water Treatment
Research on biogasification of organic waste
  • Possession of specialized expertise in bioenergy technologies
  • Analysis/monitoring/consultation of bioenergy facilities based on unused biomass
  • Development of post-treatment technologies based on the diversification of bio-gasification raw materials and the characteristics of target industrial wastewater is in progress
Research on Biogas Production from semiconductor and TFT-LCD wastewater
  • Possessing experience in testing the possibility of bio-gasification of organic waste generated during semiconductor and TFT-LCD manufacturing processes
  • Ongoing R&D on diversifying biogas feedstocks and developing integrated systems for customized high-purity methane and hythane production based on industrial wastewater characteristics
  • Anaerobic treatment facility at D Company's Philippine plant
  • Anaerobic treatment facility at J Company's Jincheon plant
  • Anaerobic treatment facility at S Company's Ulsan plant
Development of high-quality
methanation technology
  • Electrode sensor
  • Edge AI
  • Field applicability evaluation
  • Application of AI systems by category reflecting raw water & wastewater characteristics
  • Integrated system construction and long-term operation testing
  • Economic feasibility and commercialization potential assessment
Valuable Resource Recovery · Zero Liquid Discharge
  • Compared to conventional acid-based processes, the newly developed electrochemistry-based eco-friendly recycling technology for spent battery cathode materials features simplified process steps, reduced secondary environmental pollution and wastewater generation.
  • In addition to avoiding high energy costs from evaporation and crystallization, and the high initial cost of electrodialysis, this novel technology also enables the production of new sulfur-based value-added products (chemical industry, sulfur).
Carbon Dioxide Recovery · Purification
  • Material modificatioin & material selection
    Selection of high-efficiency adsorption material
    • Characterization and performance improvement of commercial adsorbents
    • Selection of high-efficiency adsorbents based on material performance testing
    • Performance and stability verification required for application
  • Material modificatioin & material selection
    (Lab-scale experimental analysis)
    (PDMS/PSf composite membrane)
  • Establishment of a verification system process
    (Scale-up based on experimental data)
    Establishment of membrane recovery/purification facility operation technology
    • Designing VPSA system for producing high-purity H₂
    • Securing technology for VPSA design, manufacturing/construction, and operation optimization
  • Core system design
O&M Research (Operation · Diagnosis · Consulting)
  • Process Performance & Status · Treatment Efficiency Diagnosis
    • Assessment of facility and process status
    • Analysis of process-specific treatment efficiency
    • Optimization analysis of energy, chemical usage, and operational costs
  • Process Improvement & Risk Assessment
    • Identification of process improvement opportunities
    • Feasibility review for the application of new technologies
    • Diagnosis of operational efficiency through digitalization and smart operation
    • Analysis and diagnosis of operational structure
  • Consulting for Regulatory Compliance (Permits · Licensing · Environmental Regulations)Survey of facilities and process conditions
    • Review of latest water quality standards and effluent discharge regulations
    • Response strategies for strengthened future regulations
    • Review of environmental impact assessments and permitting requirements
    • Consulting on greenhouse gas and emission management plans