GROWING NEED…

The growing urbanisation and consume mentality has led to challenges of municipal solid waste disposal management in every major city today. We believe in providing greener and cleaner solutions to counter these challenges as per the latest solid waste management rules in the country to deliver our brand promise of Conserving Resources to Prevent the Future. Our approach has always been to provide indigenised advanced solutions for combusting industrial or agricultural or municipal solid waste to produce energy

A. The indigenised robust constriction and design of the combustion grate and boiler are extremely dependable. The systems ease of maintenance ensures that the downtime is kept to a minimum. We thereby guarantee the technical optimisation and long lasting efficiency of our waste to energy boilers.
B. Advanced technology is a result of long professional experience and constant pursuit of innovation. The sturdy construction and assured service life improve the availability of the pant.
C. The main task of the combustion system is to destroy all organic commands contained in the waste. This is achieved by providing the necessary combustion air, furnace temperature and residence times.
D. The air cooled reciprocator grate can accommodate wide range of wastes with varying calorific value and sizes. The nodular construction ensures ease of change of grate bars even in the existing systems.
E. Each combustion zone has individual combustion air control as well as individual grate velocity for transporting the waste. Both features are controlled by our advanced combustion control system.

The modern waste to energy plants not only reduce the waste volume by 90% but are also designed to extract maximum possible energy from waste. The combustion process releases the energy within the waste. The energy is recovered with the help of waste to energy boiler or steam generator positioned after the combustion stage.

A boiler is a complex steam generator system that meets the special operating equipments in terms of corrosion, fouling, slagging, stress, part load behaviour and system dynamics. As the hot flue gases flow through the boiler, they are cooled and this heat absorbed is eventually converted to steam. The feed water, is initially heated up to in the economiser, then evaporated in the evaporator and water panels. The saturated steam is finally super heated in the super heaters. The team so produced is then used to produce power and heat.

The furnace along with first pass is sized for complete combustion and to ensure proper residence time is met to prevent formation of the dioxin / furnace. In our systems the sequence, layout and construction, as well as the protection of the heating surfaces, all take special account of risk factors including fouling, slagging, corrosion and erosion.