WTE vs LaTierraENERGY™
Waste to Energy
– Energy generation depends on the calorific value of the waste
LaTierraENERGY™
– Energy generation doesn’t depend on the calorific value of the waste
Waste to Energy
– Not all type of waste can generate electricity
LaTierraENERGY™
– Any type of waste can generate electricity
Waste to Energy
– Energy generation is not consistent and less efficient
LaTierraENERGY™
– Energy generation is consistent and very efficient
Waste to Energy
– Minimum 500 MT OF MSW is needed
LaTierraENERGY™
– Energy can be generated with any volume
Waste to Energy
– Segregating the waste in terms of higher calorific value is a challenge
LaTierraENERGY™
– Segregation is not required
Waste to Energy
– Additional fuel or electricity is necessary to run the plant
LaTierraENERGY™
– Additional fuel is not required
Waste to Energy
– Adopts Combustion Technique for decomposition
LaTierraENERGY™
– Adopts advanced plasma heat decomposition method
Waste to Energy
– Operated at very High temperature
LaTierraENERGY™
– Operates at low temperature
Waste to Energy
– Fuel is required to run the system
LaTierraENERGY™
– No fuel is required to run the system
Waste to Energy
– Non self sustaining system
LaTierraENERGY™
– Self sustaining system – No looping
Waste to Energy
– Operates with flame and fire combustion
LaTierraENERGY™
– Operates without flame and fire combustion
Waste to Energy
– Output varies based on type of waste and weather
LaTierraENERGY™
– Zero variability on any type of waste and weather
Waste to Energy
– Space required for the plant is enormous
LaTierraENERGY™
– Space required is minimal
Waste to Energy
– Due to the low calorific value the results are not constant and uncertain
LaTierraENERGY™
– The results are constant and feasible
Waste to Energy
– Maintenance of the plant are extensively High
LaTierraENERGY™
– Maintenance of the plant are relatively low
Waste to Energy
– The operational cost are very high
LaTierraENERGY™
– Operational cost are low
Waste to Energy
– Requires supporting operations, staffing machineries
LaTierraENERGY™
– Doesn’t require supporting operations, staffing and machineries
Waste to Energy
– More wear and tear
LaTierraENERGY™
– Minimal wear and tear
Waste to Energy
– Causes more dioxins and furans
LaTierraENERGY™
– All the dioxins and furans are killed within the system and hence emission free
Waste to Energy
– Emissions from plant include heavy metals dioxins and furans
LaTierraENERGY™
– Zero Emission
Waste to Energy
– Lack of short term returns due to uncertain returns
LaTierraENERGY™
– Relatively short term results are possible due to definite results
Waste to Energy
– The plants are high capital intensive and lacks definite returns
LaTierraENERGY™
– The plants are relatively low capital and has definite returns
Waste to Energy
– Odour, Noise, cost and maintenance involved
LaTierraENERGY™
– Odour free, Noise free and maintenance free