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V-EnerTek is a professional high-tech Small Wind Turbine manufactures in researching, developing and producing the most reliable wind turbines. Our Company objective is dedicated to providing superior clean energy products and creating the green.. Read More
For the first time, small-scale installations can benefit from proven Organic Rankine Cycle (ORC) to capture wasted heat and turn it into additional power. The clean cycle system from EnerTek’s Heat Recovery Solutions division captures heat from a wide range of systems such as reciprocating engines, biomass boilers, microturbines and Concentrated Solar Power Unit. The benefits Cleaner energy with no fuel needed No additional emissions Low-speed, high-efficiency power module Simple synchronization with utility Small-footprint packages unit: ready to integrate High reliability, very low maintenance and ownership costs Modular and scalable design Fast payback
Solar distillation is a relatively simple treatment of brackish or Sea (i.e. contain dissolved salts) water supplies. Distillation is one of many processes that can be used for water purification and can use any heating source solar energy is a low tech option. In this process, water is evaporated; using the energy of the sun then the vapor condenses as pure water. This process removes salts and other impurities.Solar distillation is used to produce drinking water or to produce pure water for, Restaurants Hotels, laboratories and hospitals. Since the output water has less than 20 TDS, it requires adding minerals for drinking purpose.
The defining characteristic of a parabolic heater is the deflection plate that is able to spread the heat out in many directions. This is an advantage over standard space heaters that blow heat in one direction.One reason parabolic heaters are gaining in popularity is their efficiency. Parabolic heaters can run at an 80 percent efficiency rating, meaning that they utilize 80 percent of the energy they take in to turn back into heat, wasting less energy than other heaters. Features The working fluid can achieve higher temperature in a concentrator system when compared with another evacuated tube system of the same solar-energy collecting surface. This means that a higher thermodynamic efficiency can be achieved. The thermal efficiency is greater because of the small heat –loss area relative to the receiver area. Reflecting surface requires loss material and is structurally simple than other collector. For a concentrating collector, the cost per unit area of the solar collecting surface is therefore less than that of another collector. Working Principle In parabolic through collector, long, parabolic mirror focus the rays of the sun into an absorber pipe. The mirrors track the sun on one linear axis from north to south during the day. The pipe is seated above the mirror in the centre along the focal line and has a heat absorbent medium running in it. The Collector is generally composed of one bent glass mirror, with either silver (or) aluminum coated on the back side of the glass. The glass is about 4mm thick and low in iron, maximizing the reflect once of incoming sunlight. Parabolic through collectors are a low-cost implementation of concentrated solar power technology. That focuses incident sunlight on to a tube filled with a heat transfer fluid. The efficiency and cost of the parabolic through collector designs are influenced by structural stiffness, choice of materials, assembly tolerance, mirror cleanliness and wear. Application Used for producing steam for cooking Various Industrial application Produce electricity using ORC Air cooler using adsorption chiller etc…
It is a patented technology with a close loop system to produce energy rich syngas. The Gasification Unit has also the capability to process various types of solid waste into gas which will give clean and non-polluted energy to the environment. Municipality Solid waste Coal to Gasification Sewage Sludge (Bio Solid) Agricultural and crop residue Woody biomass Industrial biowaste EnerTek - MSW Gasification unit function The Municipal Solid Waste (MSW) shall undergo different stages of Recycling Processes, as follows: MSW Feeding system: Vertical Screw Feeder Vertical Screw feeding Systems are the most economical and space saving solution for transferring Municipality solid waste materials from a lower to a higher level. The bulk material withdrawn from a silo, hopper, conveying or feeding device may be discharged by the vertical screw into a hopper, Vertical Screw feeding System is excellent for high volumetric efficiency and excellent mechanical features. Hopper 1 This container for a loose bulk material such as solid waste grain to store in huge quantity, typically one that tapers downward and is able to discharge its contents at the second hopper; It has the shutter-1 locking arrangement at bottom to avoid gas leaking from the Gasifier. Hopper 2 The second Hopper will be discharge Solid waste constantly to the reaction Chamber through horizontal Screw feeder. It has another shutter-2 locking arrangement at bottom to avoid gas leaking from the Gasifier. The shutter – 1 and Shutter – 2 locking arrangement operated by micro process operating system. Horizontal Screw Feeding system The horizontal screw feeder taken solid waste from Hopper – 2 and deliver solid waste in to the reaction chamber in constant flow rate basis, so that the reaction and Syngas preparation will be constant. Reaction Chamber: This gas processed in three steps. They are Drying A mixture of pulp (water-soluble), plastic (polyvinyl chloride powder), protein (soybean protein powder) and water used as the model refuse. The operational conditions were varied and the changes in weight and temperature with time of reaction. Since our system is upward draft gasification system, the upcoming hot Syngas drying solid waste up to required 20 % moisture level. Hydrogen Oxygen Inverter burner combustor Shorooqal designed and implemented special type burner for MBM Combustor Pyrolysis Gasifier, This combustor burned a mixture of hydrogen Oxygen and release high energy with the high temperature in the range of 2500 Degree Celsius. It has separate Hydrogen Oxygen gas generator for continues operation. Gasification Due to the high temperature of thermal conversion of organic materials at elevated temperature, the solid waste release gases called syngas with Tar, water and condensable oil. Ash collection: Rotor Fire Grate This mechanism rotate at bottom of reaction chamber, its duty is send back the reacted solid waste to Ash collecting chamber Ash cooling System This cooling system provided for cool the ash by water before entering the quenching chamber, Due to cooling of ash water will become steam and feed to the reaction chamber for energy-rich Syngas production. Screw feeder The collected ash in the chamber will be sent back to ash quenching system by this screw feeder. Ash quenching system The final stage of hot ash will be quenched in the water through this chamber, so that the ash can be removed frequently. Cyclone: The cyclone expected to remove up to 95 percent of the tar, which will result in a smaller candle filter system and longer filter life. Thus both capital and maintenance costs will be reduced. This has separate cooling arrangement for removing the tar and dust. Gas Purification: The purification of syngas is a key stage in Integrated Gasification Combined Cycle (IGCC) plants. Nowadays syngas cleaning is carry out by means of a sequence of purification steps, each of them standing alone devoted to the abatement of a set of components, thus typically resulting in cooling the gas. Moreover, each purification step is optimize without taking into account the whole sequence, from the gasification step through syngas purification up to its final utilization. Many downstream processes require that the syngas be cleaned of trace levels of impurities. Trace minerals, particulates, sulfur compounds, mercury and unconverted carbon can be removed by 3 different processes. Water purifier This system remove oil and some carbon particle from the Syngas and it has separate multimedia filter with sand and stone for removing oil and tar. Acid Purifier This system removes alkaline particle and moisture from the Syngas and it has separate multimedia filter with sand and stone for removing impurities Alkaline Purifier This system remove acid particle from the Syngas and it has separate multimedia filter with sand and stone for removing the impurities
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