HOT WATER

Hot water is a key requirement within many industrial processes or it can be used as a method of generating the heating requirements of any type of building.

Heat is recovered indirectly from incinerator exhaust gases by passing them through a gas tube heat exchanger. Heat is then exchanged with the external water jacket to generate a cost-free supply of hot water.

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STEAM

Steam has many potential uses including heating for buildings and we can design any pet cremator with the technology to convert what would be waste heat into this valuable resource.

Heat is recovered indirectly from the incinerator exhaust gases by passing them either through a gas tube heat exchanger or across a radiant tube boiler. Energy is exchanged between the gases and water to produce steam.

When the intention is for the steam to be used for Energy Generation such as electrical power production, it is further heated within a superheater to produce dry steam to drive a turbine/generator set.

Economizers are fitted to the boiler outlet to recover additional energy from the flue gas.

 

ELECTRICITY

Electricity

This is generated in two forms.

1.Convert the energy in the gas to very high-pressure steam and inject the steam into a turbine and generator set. Cost include such of the turbine, associated plant and grid connection. Such high efficiency systems are only considered when combusting over 3000kg/hr.

2.Pass the gas through an organic rankine cycle generator. This works much the same as a refrigerator. The gas heats a liquid, which superheats, expands and spins a small turbine. These are much less complicated and are more compact than a high-pressure turbine system but are less efficient. These are typically used to provide circa 50kW of electrical power to compliment the parasitic load of the process or building.

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