HydroThane STP BV

4 products found

Products

  • Anaerobic Technology

  • HydroThane STP - Model ECSB - External Circulation Sludge Bed Process System

    HydroThane STP - Model ECSB - External Circulation Sludge Bed Process System

    With the development of the ultra high rate HydroThane STP ECSB ('Easy as Be' - External Circulation Sludge Bed) process, 2nd generation EGSB, HydroThane has created the opportunity for customers to treat their effluent within limited available space and close to urban areas. The HydroThane STP ECSB design has eliminated noise and odor related issues that were present in other older anaerobic processes.

  • HydroThane STP - Model UASB - Upflow Anaerobic Sludge Blanket Process System

    HydroThane STP - Model UASB - Upflow Anaerobic Sludge Blanket Process System

    The HydroThane STP UASB (Upflow Anaerobic Sludge Blanket) process is the most commonly applied anaerobic technology for the biological treatment of industrial effluents. The first UASB pilot plant was installed at a beet sugar refinery in The Netherlands (CSM Suiker) in the 1970's. Thereafter, a large number of full scale UASB plants were installed throughout The Netherlands at sugar refineries, potato starch processing plants and other food...

  • HydroThane - Model SWD - Solid Waste Digestion Process System

    HydroThane - Model SWD - Solid Waste Digestion Process System

    The HydroThane STP SWD (Solid Waste Digestion) process is based on the CSTR (Continuous Stirred Tank Reactor) technology. The SWD process is mostly used for waste reduction and green energy production and is a robust, proven process which treats industrial effluents with significantly high amounts of suspended solids.

  • ADI-AnMBR - Anaerobic Membrane Bioreactor

    ADI-AnMBR - Anaerobic Membrane Bioreactor

    The ADI-AnMBR process is a high rate anaerobic process that uses a submerged membrane barrier to perform the gas-liquid-solids separation and reactor biomass retention function. This near-absolute barrier to solids ensures efficient system operation and stability, even under high organic loading and intense mixing scenarios.