Vipar Engineering Barakhamba Road, Delhi

We are offering pyrolysis plant vipar engineering pyrolisis plant innovative design with low installation cost and higher eficiency technology pyrolysis involves heating waste tyres /plastic without oxygen to break them down to char or carbon black, oil, and gas. Plants operate within a temperature range of 250â° - 500â°c.at temperatures above approximately 150â°c tires release increasing amounts of liquid oil products and gases. Above 400â°c, depending on the process employed, the yield of oil and solid tire-derived char may decrease relative to gas production. A typical commercial operation is described below. 1. Tires delivered to a site are weighed. Tires are introduced to systems whole or else halved, chopped, or shredded. 2. The feedstock is typically dried and preheated, using tire-derived gas. 3. Temperature and residence time in the reactor are two key pyrolysis reactor design criteria. 4. In the gasification stage, tire-derived oil, is condensed and cooled. Light and heavy oil fractions may be handled separate a separator removes any remaining water vapor. The product is filtered. 5. Solid tire-derived char is cooled, typically using a water-cooled stage. The product may be sized and screened to remove fiber. A magnetic separation stage captures magnetic materials remaining in the char. Washing the char and further size reducing it produces the carbon black p r o d u c t . 6 tire-derived gas maintains operating pressure in the system and provides heat to the system. Vented gases pass through a pollution control train, which may include a gas flare. 7. Gas can further treated for power generation. It is passes through venturi scrubber to remove particulate matter from gas and then it is passes through water cooled condenser which can help to bring down the temperature of tire-derived gas and cracking of tar from it. Further it is passes through various filters containing wood waste and saw dust waste to remove moisture from gas and finally cleaned through fabric filter. Resultant gas is clean and can directly feed to gas driven generating set. Features of the plant:- 1. 100%waste tyre recycling is achieved (no churn left after the process) 2. No chemical ingredients are used in process (environment friendly) 3. During and after the process there is no soil, water or air pollution. 4. Creates economically valuable products out of waste. 5. The most cost-effective waste tyre recycling technology ln the world. 6. Raw material (wastage tyre) is cheap and easy to procure. 7. Each recycled ton of tyres preserves 10 tons of co2 , a major green house gas. 8. The process can be applied to all rubber based materials. 9. Th e s ys t em c r e a t e s a n a l t e r n a t e s o u r c e o f e n e r g y t o r e p l a c e p e t r o l e um pr o d u c t s a n d n a t u r a l gas. 10. System gives the opportunity to governments and local administrations to deal with the wastage tyre problem to a great extent. 11. The process of pyrolysis has duration of 4 to 12 hours, depending on the quantity and size of tyre (car tyre, truck tyre, etc.). During the process different vacuum values are applied in pre-determined temperatures and in different phases. Different gases are obtained and the condensed gas is stored as a fuel oil in tanks. By- products after pyrolysis o tyre oil 㨠40%to 45% the oil product is well within the range of that of a fuel oil refined from crude oil. The main oil produced by recycling application is fuel oil which is widely used for industrial and commercial purposes. The oil is 40% to 45% of the amount o f recycled scrap tyres. O char and carbon black 30%to 40% a solid product termed tire-derived char or tire-derived carbon char is produced. The solid product can be further processed to enhance specific characteristics and to meet specifications for carbon black, or can be marketed directly. Carbon black produced by pyrolysis process (cbp) is more economical compared to carbon black produced primarily from petroleum and is more priceefficient to be used as an ingredient in the industries listed; â�¢ electric cable jacketing, conveyor band, carrier bands, hose and doormat, black nylon bag, rubber additive automotive spare parts, heat isolation, black colorant in rubber materials, plastic pipes, industrial rubber, products , fire fighting o gas 8%to 12% non-condensable gases arise during the pyrolysis process. Â�¢ lt has higher calorific value as compared to natural gas. Â�¢ it can be replaced where natural gas and propane are stored. Â�¢ the high energy gas is utilized as a source of energy for the pyrolysis process. .considering 10 ton scrap tyre/day recycling capacity, the facility would generates 1000 -1200 m3/day gas, which has an enormous energy potential when evaluated o steel 10%to 12% steel scrap extracted is considered a fairly clean scrap iron ready to be marketed. Valuable steel wires are pressed and sold to steel and scrap dealers. Technical detail:- â�¢ this is a batch process system. Â�¢ the waste tyres are fed into the reactor vessel and heated under controlled conditions of temperature and pressure. Â�¢ the process will bring about molecular restructuring of the rubber under pyrolysis (gasification). Â�¢ these vaporized gases are passed through heat exchangers, where in the gas is condensed into liquid form. Â�¢ during the process, carbon black and steel are also generated. The heat exchanger uses coolant water as a condensing medium. The water is re-circulated through the process. Â�¢ these systems can be operated 24/365. Energy requirements pyrolysis process produces an excess of energy. Combustion of tire-derived gas provides sufficient heat to drive the reaction. The use of supplemental fuel â�� scrap wood/coal - is limited to the startup period. The electrical usage I s 12.8 kwh/ton of t o n of waste tyre. Heat required to sustain the pyrolysis reaction is approximately 630 and 1,025 btu/lb. Items contents 1 equipment type j8t j10 j12t 2 rawmaterial tires/plastic tires/plastic tires/plastic 3 structural form horizontal rotation horizontal rotation horizontal rotation 4 24-hour capacity 8ton 10ton 12ton 5 oil yield 3.6 ton 4.5ton 5.4 ton 6 operating pressure normal normal normal 7 material of reactor b.q.plate sa 516 gr.70 b.q.plate sa 516 gr.70 b.q.plate sa 516 gr.70 8 thickness of reactor 16mm 16mm 16mm 9 rotate speed of reactor 0.4turn/minute 0.4turn/minute 0.4turn/minute 10 total power 10kw 12kw 15kw 11 mode of cooling water cooling water cooling water cooling 12 cooling area of condenser 41 46 53 14 kind of transmission internal gear drive internal gear drive internal gear drive 16 noise db(a) â�¤85 â�¤85 â�¤85 17 size of reactor(dã�l) 2200ã�6600 2600ã�6600 2800ã�6600 18 working form intermittent operation intermittent operation intermittent operation 19 delivery time 30days 30days 30days 20 weight 27t 30t 40t safety â�¢ reactor directly decides the machine's safety and service life. Boiler quality 16mm gr 70 plate and ibr standard mig welding ensures the reactor safety. The reactor is tested for cracks by radiology which will not only guarantees quality of welding but also greatly improve working efficiency â�¢ professional radiology detection for welding seam to detect cracks. Â�¢ professional standard thermometer, pressure gauge and safety valve. Â�¢ the non-condensable gas is volatile. This gas is transferred first through a safety device and a safety burning air muzzle. Before burning complete safety is ensured. Â�¢ all pressure vessels hydro tested for 3 bar. Environment friendly â�¢ dedusting system to prevent gas and dust from coal burning â�¢ the exhaust gas is recycled for heating reactor therefore no gas pollution ensure sealing on every junction to prevent gas leak and foul smell. Longer life using b.q.plate sa 516 gr.70 steel plate ,thickness 16mm , ibr standard welding seam with radiology guarantees longer the life of reactor .the life is estimated to be 8 years as compared to 2 to 3 years of normal welded reactors of 14mm. Equipment technical parameters financial aspects ( 10 ton conversion per day ) (i) personnel (per month) personnel salary (rs.) nos. Amount (rs.) manager(production) 11,000 2 22,000 maintainance engineer 10,000 1 10,000 semi-skilled workers 4,000 6 24,000 office ast( acts & h.r) 3,500 1 3,500 watchman cum peon 3,000 2 6,000 total 65,500 additional perquisites @ 20% 11,500 grand total 77,000 (ii) raw material (per month) amount (rs.) waste tyre 10000kg per day x 26days x rs 11per kg 2860000.00 coal/wood 600kg per day x 26days x rs 7/kg 109,200.00 total 2969200 (iii) utilities (per month) power 15hp x 0.75 x 24hours x 26 days x rs6 42,120.00 water 3,000.00 total 45,120.00 (iv) other contingent expenses (per month) 1) postage and stationery 500 2) telephone 2,000.00 3) traveling and freight 10,000.00 4) consumables 10,000.00 5) repair and renewals 10,000.00 6) insurance 30,000.00 7)rent nil total 62,500.00 total recurring expenditure (per month) rs. 3,153,820.00 *by selling 4500ltrs*26 days *12months*rs28/ltr 45% 4446000 by selling steel scrap 520000 1000kg*26day*12months*rs20/kg (10%) 46,80,000.00 by selling char 3500kg *26days*12 months*rs 6 /kg 35% 546000 cost per month 5512000 per year 66144000 profit gross 28298160