・TSKE is enjoying top share in the field.
・Can be reduce the risk of public nuisance.
・The complete decomposition of the organic substances in the liquid waste is achieved regardless of kind or character of the liquid waste.
Methane gas generated from anaerobic biotreatment is converted into a stable fuel by separating concentrations of CH? and CO? in biogas.
Based on our BMB tower technology, we have developed a system for separating and adsorbing CH4 and CO2, which reduces global warming gases. In activated sludge method, aerobic treatment has been employed widely for treating water quality. However, many disadvantages posed by the aerobic treatment have increased applications of anaerobic treatment with methanogens. Compared to aerobic treatment, surplus sludge is decreased markedly with biological treatment, recovering and utilizing CH4 as a carbon neutral product, saving energy and substantially contributing to prevent global warming.
With conventional systems, the quality of fuel recovered from discharged CH4 is low as its recovery is mixed with CO2. However, the BMB absorber recovers high-quality fuel by effectively recovering CH4 and CO2 separately.
Because of chemical plants has to avoid corrosion for continuous operation.In case of halogen organics treatment, incineration system can be applied for changing chemical formation of hydrohalogen and it can be recovered by the absorption system in accordance with our results.
・The special sealing configuration if the kiln reduces air leakage from the sliding section to very low levels, maintaining furnace temperature below that for clinker generation even with large changes in the heating value of waste material, and allowing energy-saving operation.
・A prong equipped at the forward end of the kiln stirs waste materials, improving agitation.
・A nozzle installed in the secondary combustion chamber allows waste liquid treatment.
・Significantly improves combustion with a new method for supplying combustion air (patented).
・Design of the operation mode is provided including combustion process.
・Installation record of one of the world's largest facilities.
When used as a melting facility: 200 ton / day for each line
When used as a combustion facility: 600 ton / day for each line
・Sand is circulated at high speed (5m/s) in the furnace where sludge is crushed instantly, and combustion efficiency is increased significantly as compared to the fluidized-bed incineration method.
・The lower section of the furnace is made large enough to process waste wood or plastics that are crushed to the size of about □100.
・Low combustion temperature (850℃) can suppress NOx generation.
・Quick and efficient combustion in a short time, leaving little unburned materials.
・Applicable widely to different types of wastes such as sludge, waste oil, various waste liquids, and animal manure.
・Standard lineup ranges from 10 to 350 ton/day processing.
・Large usable area with no dead surface area (surface not exposed to liquids)
・Low pressure loss with line structure that allows high void rate and decreasing tower diameter
・High liquid dispersion efficiency with curved line structure and many contact points in packing layers
・Lightweight, strong chemical and mechanical properties with synthetic resin
・Ease of filling and extraction using lightweight material
・Ease of removing adhesions
・Smooth gas flow and reduced pressure loss with alternating wave structure
・Liquid film flow with entangled packing, similar to our latest model SPIRAX, resulting in large material transfer (Same effect is confirmed with our product, TELLERETTE.)
・Flooding at joints prevented with “Semi Structured Packing”
・Support rings do not have to be completely removed when remodeling shelf block towers
・However, when remodeling to standard packings, support rings need to be completely removed up to the outer-circumference edge.
・Reduced number of redistributors with homogeneous liquid distribution
・Cost savings with high-speed machines
・RSR is available in SUS as well as materials that are thick or thin such as titan, nickel, and tantalum
・HETP, pressure loss and intensity are far beyond the most efficient random packings
・Verified high performance of RSR by tests in the world-class distillation research institute, FRI (Fractionation Research, Inc.)
・Higher theoretical stage/packed height
・Lower pressure drop/theoretical stage (1-20mmH2O/m)
Higher liquid operating capacity (1-50m3/m2.hr)
・Higher Vapour operating capacity (FV=0.5-3.5√Pa)