Kankyo Cleantech LLP Aminjikarai, Chennai, Tamil Nadu

KANKYO offers a wide range innovative turnkey solutions in water treatment to meet customers process requirements.   Ready-to-Use Modular Systems   KANKYO designs, manufactures, supplies, and operates modular containerized water treatment plants for the municipal, residential, and industrial sectors    Preassembled, containerized modules allow for fast installation and commissioning.  Skid-mounted pretreatment systems and RO units are shipped to your site after completevalidation testing at our production facility.  Systems are supplied with central control systems for easy operation and remote monitoring.     Fast and Easy Installation and Relocation   We offer wide range of advanced filtration systems that enables treatment of suspended particles, color, odour & oil through filtration. The media filters involved filtration of particulates across surface & depth of media. These systems are backwashed when the pressure drops across the media increase.   Scalable Water Treatment Systems   We offer wide range of advanced filtration systems that enables treatment of suspended particles, color, odour & oil through filtration. The media filters involved filtration of particulates across surface & depth of media. These systems are backwashed when the pressure drops across the media increase.   Producing Drinking Water   We offer wide range of advanced filtration systems that enables treatment of suspended particles, color, odour & oil through filtration. The media filters involved filtration of particulates across surface & depth of media. These systems are backwashed when the pressure drops across the media increase.   Producing Process and Ultrapure Water   We offer wide range of advanced filtration systems that enables treatment of suspended particles, color, odour & oil through filtration. The media filters involved filtration of particulates across surface & depth of media. These systems are backwashed when the pressure drops across the media increase.   Experts in Containerized Water Treatment   We offer wide range of advanced filtration systems that enables treatment of suspended particles, color, odour & oil through filtration. The media filters involved filtration of particulates across surface & depth of media. These systems are backwashed when the pressure drops across the media increase.

Kanyo in collaborating with Daimaru Seisakusho Co, Japan has brought in an innovative green technology for mixed waste.   What is Super Waste Processor?   Super Waste Processor(SWP) is organic waste decomposer. SWP is equipment which carries out the annihilation disposal of the garbage.SWP have designed by considering a price, a fuel cost, the cost of equipment, and maintenance expenses at worst, and developing them compared with the processing machine of the existing garbage.Although it seems that it is thought few that the throughput of a substance is considered compared with the incinerator of the other company, at few fuel costs and maintenance cost, without burning, it disappears and garbage is lost. Since decomposition processing temperature is around 350 degrees, there are almost no worries about dioxin.If the total amounts, such as a maintenance cost, are considered as compared with the product of the other company, even if it installs the number according to the throughput of garbage, worthy enough product and our company have confidence.   Achievements   1. Inhibition of environmental pollution: dramatic reduction of pollutants (e.g., CO2, dioxin, SOx, NOx, soot, ash, smoke, waste water, organic pollutants, etc.) 2. Huge constriction of both the initial and the operational costs. 3. Little or zero use of energy and/or fuel. Continuous 24- hour operation is possible andrecommendable.   Mechanism   1. Super Waste Processor decomposes organic waste with low　temperature plasma. 2. It is neither an incinerator nor a carbonizing kiln. 3. Extremely low temperature operation. Max. temperature, 350C° in the core of the ash layer.At the rest, the temperature stays very low. 4. Outer walls can be touched bare-handedly. Near zero risk of fire.  

KANKYO’s latest product development are a mobile and independent container solution for disaster relief & remote communities providing clean drinking water.Thanks to the complete design, the container can be commissioned without complex or time consuming assembling-disassembling and the unit can be taken into operation within a minute.Thanks to operation by solar power, no infrastructure or energy source are required. A highly energy efficient reverse osmosis(RO) system for brackish / seawater / ultra filtration membranes for fresh water remove contamination such as virus and bacteria as well salt and dissolved solids(RO system) without requiring chemical treatment. The isolated container housing protects all the components from dirt and dust. The container has been designed for the harshest desert conditions with all of the equipment installed in a lockable, sealed and secure container that is air conditioned (optional) to protect the water treatment system and electronic tools.Backed by our efficient workforce, we are able to design and develop a wide range of Mobile Solar RO Plants.These plants are widely appreciated by the customers for their easy installation, excellent performance and low maintenance. Furthermore, our Mobile Solar RO Plants can be customized as per the specifications laid down by the customers.   Features:    Easy to install and maintain  Excellent quality and high performance  Customized as per the specifications  Rugged and robust design  Broad range and environmental friendly  Reliable and durable   Advantages:   There are lots of definite advantages of using solar power and few of these advantages are as follows.  Solar energy is a renewable energy source and does not pollute the environment.  Electricity from solar panels can be generated locally (within the premises) hence it gives youthe potential to become less dependent on a utility company.  This is a completely noiseless and clean process of producing electricity.  Once installed, solar panels and solar cells require negligible maintenance.  There would be a substantial reduction in your monthly electricity bills which would help youcover your initial installation costs and eventually make profits.  In some cases not only will you no longer have to pay for electricity, in future if you generateenough, the power company could pay you for the excess electricity added to the grid.  It would set an example to others and give you a clean and green image of reducing carbonemission and saving the environment.

Moving Bed Bioreactors (MBBR) biologically treat wastewater by circulating moving media in aerobic and anaerobic activated sludge environments. MBBR systems are an ideal treatment solution for high-strength wastewater or siting applications requiring a compact physical footprint. Upgrading existing treatment plants into MBBR systems can greatly enhance biological nitrogen removal (BNR) – expanding treatment capacity and improving effluent quality with no additional footprint expansion.The moving media is typically a floating plastic substrate colonized by a community of bacteria called a biofilm. Increased levels of biofilm enhance the biological treatment process by introducing a more robust microbial community to break down nutrients. Independently-moving carriers continually circulate through aerobic bio-reactors in a random motion, ensuring excellent oxygen and substrate transfer to the biomass. With the Moving Bed Biofilm Reactor (MBBR) KANKYO offers an economically solution for wastewater treatment or if applicable discharge regulations are not as strict.With this application we offer advanced wastewater treatment solutions for the industrial and municipal markets. These solutions significantly increase the capacity and efficiency of existing wastewater treatment plants, while minimizing the size of new plant deployments.This method makes it possible to attain good efficiency results of disposal with low energy consumption. This process is used for the removal of organic substances, nitrification and denitrification.   Benefits:    Cost efficient  Minimize process complexity andoperator attention  Fast recovery from process upsets  Flexible Technology  Durable & Stable  Simply to extend  Environmentally friendly     Applications:    All types of industrial and domestic wastewater  Both organic as nitrogen removal  New plants or system upgrades  Limited footprint

Two versions of the MBR process are offered by KANKYO, the KANKYO Submem and the KANKYO Crossmem. The KANKYO Crossmem is based on a cross-flow filtration process. The biomass is filtered in a filtration unit besides the bioreactor. The KANKYO Submem is based on filtration with submerged membranes that are submerged in the Membrane bioreactors for wastewater treatment is a combination of a suspended growth biological treatment method, usually activated sludge, with membrane filtration equipment, typically low-pressure microfiltration (MF) or ultrafiltration (UF) membranes. The membranes are used to perform the critical solid-liquid separation function. In activated sludge facilities, this is traditionally accomplished using secondary and tertiary clarifiers along with tertiary filtration. The two general types of MBR systems are vacuum (or gravity-driven) and pressure-driven systems. Vacuum or gravity systems are immersed and normally employ hollow fiber or flat sheet membranes installed in either the bioreactors or a subsequent membrane tank. Pressure driven systems are in-pipe cartridge systems located externally to the bioreactor An “MBR System” is considered to be a complete and integrated membrane unit (sub-systems) with related components necessary to allow the process to function as desired. An MBR, or Membrane Zone, can best be described as the initial step in a biological process where microbes are used to degrade pollutants that are then filtered by a series of submerged membranes (or membrane elements).  The individual membranes are housed in units known as modules, cassettes, or racks and a combined series of these modules are referred to as a working membrane unit. Air is introduced through integral diffusers to continually scour membrane surfaces during filtration, facilitate mixing and in some cases, to contribute oxygen to the biological process.   Advantages   Very stable process The conventional biological system is sensitive to the wastewater composition. Due to variations in wastewater composition and/or presence of complex or toxic substances, high salt concentrations or low oxygen concentrations, the biomass floc formation is poor and the settling process will not perform well. This results in discharge of the micro-organisms and poor effluent quality. The membranes will however withhold all biomass and other suspended solids, ensuring a high effluent quality. Very compact design Due to the membrane separation the active micro-organism population in the bioreactor can be maintained at a concentration 4-5 times higher than in conventional systems. This results in bioreactor tank volumes of only 20-25% of the size of conventional systems. A clarifier, being a space-consuming tank, is not required. High effluent quality The ultra filtration membranes withhold all micro-organisms and most suspended solids, resulting in a clear and highly purified effluent. The effluent may be reused as low-grade process water or for irrigation purposes. Low sludge production The MBR can operate at a low F/M ratio, being the Feed of organic substance per amount of Micro-organisms per time unit. This results in a high mineralisation of sludge. In conventional systems 1 kg COD will result in about 0,3 -0,4 kg of biomass. With MBR systems 1 kg COD is converted to 0 - 0,2 kg biomass (zero biomass production can be obtained when operating at high temperatures). The discharge of biomass can have significant impact on the operational costs of the system.  Treatment wastewater up to 60 °C is possible  Treatment of wastewater with chlorine concentrations up to 120 g/l  Insentive to shock and vibration (on board of ships)   Field of Application:    Poorly degradable water (lightly sludge-sensitive)  In limited space  Stringent discharge regulations  Reuse

Biogas is an all-rounder among renewable energies. It can be converted to electricity and heat or be used as a fuel and natural gas equivalent. Organic wastes such as live stock excreta and food residue pose a serious environmental risk in terms of air and groundwater pollution. KANKYO Biogas plants provide a proven solution to this problem by converting these materials into heat and electrical energy and leaving behind safe, environmentally friendly fertilizer. Biogas is a combustible fuel which is produced through the anaerobic digestion process. Anaerobic means “in the absence of oxygen”. In the right set of circumstances, the organic fraction of liquid or solid biomass is converted into valuable fuel. Biogas consists of roughly 40% – 70% methane, with the rest being CO2 and trace amounts of H2O, H2S, H2 and NH3 produced by the microbiological process. The amount of methane in the biogas is largely a function of the organic input menu.Liquid and solid manure, vegetable waste, grocery store waste, fats, oils, and greases (FOG), slaughterhouse waste, and selective energy crops, like corn, are ideally suited as inputs to a biogas plant. Biogas, when utilized in a combined heat and power (CHP) unit produces electrical energy for sale and heat energy for use locally. The heat produced by the CHP is used to heat the digestion process to improve biogas yield. Biogas can also be cleaned up for injection into the local natural gas grid or as a vehicle fuel.The remaining byproduct of the digestion process is digestate which is a fermented organic material which may be used as high quality fertilizer. Biogas has a key role in supporting a diverse energy portfolio as a flexible, dispatchable fuel source.   Why Biogas?   The technology can take multiple feedstocks like agro-waste, press mud and cow dung.  The technology can take multiple feedstocks like agro-waste, press mud and cow dung.  No civil work needs to be taken.  Developed its own data logging and remote monitoring IT system.  Developed its own data logging and remote monitoring IT system. Waste Benefits  Natural waste treatment process.  Reduces volume of waste for transport, land application.  Efficient decomposition  Complete biogas capture.  Nutrient recovery and recycling.   Environmental Benefits    Dramatic odor reduction  Reduced pathogen levels  Reduced greenhouse gas emissions  Platform for reducing nutrient runoff  Increased crop yield   Energy Benefits    Multiple existing biogas end-use applications  heat-only  electric-only  combined heat and power  pipeline quality biomethane   Economic Benefits    Jobs (temporary / construction and permanent)  Turns cost item (i.e., waste treatment) into revenue-generating opportunity  Can operate in conjunction with composting operations  Improves rural infrastructure and diversifies rural income streams