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disposal system and ash utilization shall fulfill the requirement of plant and . the recent revolution in the area in wet disposal is HCSD with reduced water. In such conditions ash is required to be dumped in ash pond / ash pits which are usually far away from the plant area. The most efficient method of disposing ash. The High Concentration Slurry Disposal (HCSD) System is designed to cater the requirement of Fly Ash disposal of Unit 7 to 10 of CPP. This system reduces ash.

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The carrying medium is always water. Funds advised by Permira, an international investment company, acquired the site at a price in the high double-digit million dollar range. Ash Disposal Ash Disposal Systems.

There dsiposal various sessions on the principles and design features of the storage hoppers and silos. These pumps can develop very high pressures but are very costly and have a very high maintenance cost. An efficient coal unloading system is the key to the movement of coal rake for optimum utilisation.

Proper monitoring of the slurry properties is the key to success of the system. I agree to the processing and usage of my data as described in the declaration of consent. Literally no water releases out, hence no need for water retaining walls or recovery system in pond area.

Flow quantity of Slurry and pressure required are the basic parameters required for designing the system. A fpr visit at Macawber Beekay was also organized, which was appreciated by the delegates.

The ash produced in big boilers is so high in quantity, that to utilize it completely converting into useful product is not always possible. In spite of double pumping in low concentration slurry gcsd, the power requirement is either low or equal. News on the topic Mitaca and MG2: HCSD pump transports the highly concentrated slurry from the ART to the ash disposal area through carbon steel pipelines.


The third day started with Dr. Home Ash Slurry Disposal System. Receive 15 new engineering projects per week — get them easily delivered into your mailbox. Demech has a proven track record of successful execution of such systems. However, these two parameters in turn depend on many other conditions like rate of ash to be disposed, pipeline distance, pipeline profile, density of slurry, viscosity of slurry etc. Lower operating power consumption.

On completion, the complex is expected to processbarrels per day of crude oil and produce approximately 9 million tonnes of chemicals and base oils in a year.

Infos can idsposal found under www. The second day was packed with lectures of Dr. Such high pressures can be developed using piston diaphragm pumps. Valves at suction and discharge of ash slurry ncsd pumps. Technical Details Flow quantity of Slurry and pressure required are the basic parameters required for designing the system.

Another advantage of this systems is the easy maintenance and less cost of spares, that makes the system more viable.

Ash Slurry Disposal System comprise of Lean Slurry Disposal System and Ash Water Recovery System

On the first day of the event, Dr. Reduced leaches at the ash disposal area. Lower velocity, hence longer life for pipe line.

The company is involved in execution of turnkey projects for coal and ash handling in thermal power plants and has commissioned a large number of successful projects in the last 25 years. The high pressures result in higher power consumption though the water requirement is lower in this system. This article is protected by copyright. The viscosity of slurry does not have much effect for such conditions while calculating pressure requirement, but as the slurry concentration increases the viscosity effect has a dominant effect for calculating pressure requirement.

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Ash Slurry Disposal System

Course Design There were various sessions on the principles and design features of the storage hoppers and silos. A single intelligent solution for completely networking sensor-based measuring systems makes it possible. Scientific Image of the Day: New Delhi, India — Handling of coal and fly ash are a major challenge to the engineers in the thermal power plants. Indian Institute of Technology. The most efficient method of disposing ash in such cases is by pumping it in form of slurry through cast basalt pipes.

Speaking on the benefits of the seminar Dr. Ash spreads in layers enabling vertical filling, hence land requirement is reduced. Mass flow hoppers and funnel hoppers are the two main types of flow conditions. Belt conveyors and pneumatic conveying systems are an integral part of the power plant for handling of coal and ash. Subscribe to the newsletter.

The topics addressed were coal handling, ah conveying, high concentration slurry disposal and silo design. KG Osterburken Deutschland. You want to use it for your own purpose? Our portfolio can be seen here. We have been pioneer in adopting the best of this technology in India by commissioning the HCSD System for a combination of fly ash and bottom ash, first of its kind in India.