From Inefficient Grinding to Efficient Grinding with Turbo
Transcription
From Inefficient Grinding to Efficient Grinding with Turbo
The grinding process consumes a great deal of energy and is the biggest single cost in the minerals processing industry. Outotec has made thorough research to reduce the energy consumption of the grinding process and developed an excellent solution to this problem – the Turbo Pulp Lifter™, a solution that ensures mills to operate at their highest grinding efficiency and thus achieve maximum possible capacity at much lower energy consumption. Outotec In Actio From Inefficient Grinding to Efficient Grinding with Turbo Pulp Lifter™ Sanjeeva explains that if you can eliminate this internal circulation, then a great deal of energy could be saved, and that’s just what the Turbo Pulp Lifter™ (TPL) does. "When the particles are broken and have passed through the mill grate, the new technology extracts them out of the mill, totally cutting the process of internal circulation", he continues. "The TPL ensures the best grinding conditions by allowing the product-size particles to pass more quickly "In a grinding mill, we apply energy, the particles break, and then we have to take the product size particles out at the same rate at which they are breaking-very similar to what happens in Dr crushers", Sanjeeva explains Latchireddi, Global Technology Manager of the product. "If we use energy to break the new “Turbo Pulp Lifter™ has significantly surpassed our expectations in terms of throughput enhancements, general operation and electrical cost savings“ Julius Stieger Cortez Gold Mines, Process Superintendent and coarser particles, we through the discharge grate. By doing this, the contents in the grinding mill are reduced, at the same time reducing the drawn power by could say the energy is used effectively. But with the the mill. There is therefore a lower conventional types of pulp lifters, be they radial or proportional power requirement and a curved, where the product size particles and slurry, flow substantial amount of energy is saved in back into the mill (due to the internal circulation caused comparison to the same amount of work by flow-back and carry-over) and are subjected for over- being done by a conventional mill". grinding which results in inefficient energy utilization". "The solution we came up with was not the only possible • Increases mill capacity • Reduces energy consumption • Effective grinding action • Efficient operation at all mill speeds • Minimizes excessive fines generation solution to the problem, but it was the only total solution. Mills are enormous devices built up to 12 metres in diameter and several meters long, and massive amounts of energy is being wasted due to inefficient performance of the mills. In the industry, we have rule of thumb that says that, in conventional circumstances, just 5-10 % of the energy is actually used to break the particles. It’s therefore very important that you don’t over-grind the material, but just grind. The TPL technology helps to keep everything is in balance by creating efficient material transfer inside and out of the mill, so that a correct size product (transfer size) is produced to automatically increase the energy efficiency of the ball mill circuit". Because of Gold Mines in Nevada, USA. Julius Stieger, Process Superintendent at the mines bears testimony to the excellent results achieved by TPL. "I can confidently say the optimal design and discharge arrangement embodied by the Turbo Pulp Lifter™, retrofitting any AG/SAG/Ball mills with TPL technology can make a big difference to plant efficiency and, of course the profits. The industrial applications have proven that the mill capacity can be increased by up to 20% and energy consumption per tonne can be reduced that Turbo Pulp Lifter has significantly surpassed our expectations in terms of throughput enhancements, general operation and electrical cost savings". Another operator commented, "We could never run steady and with confidence like this before with the old design for fear of the SAG mill getting quickly out of control". Cortez estimates that it is saving about US$ 700,000 by about the same amount. every year in power costs. One of the plants where the new technology has been Besides improved profitability, the achieved energy successfully introduced is in the SAG mill at the Cortez savings naturally make a positive impact on our environment. A carbon dioxide emission analysis carried out along Outotec’s participation in the Carbon Disclosure Project 2010 illustrated that the annual CO2 emissions avoided through use of Outotec Turbo Pulp Lifter amounts to 4,353.8 metric tonnes of CO2 (Outotec CDP report 2010). In summary, significantly besides lower increased energy production consumption, and higher availability and lower operating costs are all notable results from the adoption of TPL technology. The Turbo Pulp Lifter™ is truly an all-round solution to enhance the performance of the grinding circuits of Outotec customers. The best thing is that work is constantly being done to achieve an even better result! Outotec innovates, develops and delivers sustainable technology and service solutions to minerals, metals, chemical and energy industries. Outotec collaborates lifelong with its customers in order to optimize the utilization of raw materials and energy efficiency as well as to minimize the environmental impact and operating costs. Contact us at info@outotec.com www.outotec.com
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