Geared turbofan engine with low pressure environmental control system for aircraft

The invention claimed is: 1. A gas turbine engine assembly comprising: a fan section delivering air into a main compressor section, said main compressor section compressing air and delivering air into a combustion section, products of combustion passing from said combustion section over a turbine section to drive said fan section and main compressor sections, wherein a gearbox is driven by said turbine section to drive said fan section; a pylon supporting the gas turbine engine; an environmental control system including a higher pressure tap at a higher pressure location in said main compressor section, and a lower pressure tap at a lower pressure location, said lower pressure location being at a lower pressure than said higher pressure location; said lower pressure tap communicating to a first passage leading to a downstream outlet and a compressor section of a turbocompressor; said higher pressure tap leading into a turbine section of said turbocompressor such that air in said higher pressure tap drives said turbine section to in turn drive said compressor section of said turbocompressor, wherein the pylon includes a lowermost surface and the higher pressure tap does not extend above a plane including the lowermost surface; a combined outlet of said compressor section and said turbine section of said turbocompressor intermixing and passing downstream to be delivered to an aircraft use; a check valve disposed within the first passage between said low pressure tap and said downstream outlet; and a control valve disposed between the low pressure tap and the compressor section of the turbocompressor for controlling airflow from the low pressure tap into an inlet of the compressor section of the turbocompressor. 2. The gas turbine engine assembly as recited in claim 1 , wherein the turbine section includes a fan drive turbine that drives the gearbox and one of the main compressor sections. 3. The gas turbine engine assembly as recited in claim 1 , wherein the main compressor section includes a first compressor section and a second compressor section and the first compressor section includes at least four (4) stages and no more than seven (7) stages. 4. The gas turbine assembly engine as recited in claim 3 , wherein bleed air is taken from at least a fourth stage of the first compressor section. 5. The gas turbine engine assembly as recited in claim 1 , wherein the turbine section includes a first turbine section driving a high pressure compressor, an intermediate turbine section driving a low pressure compressor and a third turbine section driving the fan section. 6. The gas turbine engine assembly as recited in claim 1 , wherein the main compressor section includes a first compressor section and a second compressor section and the first compressor section includes at least three (3) stages and no more than eight (8) stages. 7. The gas turbine engine assembly as recited in claim 6 , wherein bleed air is taken from at least a third stage of the first compressor section. 8. The gas turbine engine assembly as recited in claim 1 , including a sensor for generating data indicative of a speed of the turbine section of the turbocompressor. 9. The gas turbine engine assembly as recited in claim 8 , including a brake for controlling rotation of the turbine section of the turbocompressor responsive to detection of an overspeed condition. 10. An environmental control system for an aircraft comprising: a higher pressure tap to be associated with a higher pressure location in a main compressor section associated with an engine of the aircraft, and a lower pressure tap to be associated with a lower pressure location in said main compressor section, said lower pressure location being at a lower pressure than said higher pressure location; said lower pressure tap communicating to a first passage leading to a downstream outlet, and a compressor section of a turbocompressor; said higher pressure tap leading into a turbine section of said turbocompressor such that air in said higher pressure tap drives said turbine section to in turn drive said compressor section of said turbocompressor, wherein said higher pressure tap is disposed below a plane including a lowermost surface of a pylon supporting the main compressor section associated with the engine of the aircraft; a combined outlet of said compressor section and said turbine section of said turbocompressor intermixing and passing downstream to be delivered to an aircraft use; a check valve is disposed within said first passage associated with said lower pressure tap; and a control valve disposed between the lower pressure tap and the compressor section of the turbocompressor. 11. The environmental control system as recited in claim 10 , including a sensor for generating data indicative of a speed of the turbine section of the turbocompressor. 12. The environmental control system as recited in claim 11 , including a brake for controlling rotation of the turbine section of the turbocompressor responsive to detection of an overspeed condition. 13. An environmental control system for an aircraft comprising: a higher pressure tap to be associated with a higher pressure location in a main compressor section associated with an engine of the aircraft, and a lower pressure tap to be associated with a lower pressure location in said main compressor section, said lower pressure location being at a lower pressure than said higher pressure location; said lower pressure tap communicating to a first passage leading to a downstream outlet, and a compressor section of a turbocompressor; said higher pressure tap leading into a turbine section of said turbocompressor such that air in said higher pressure tap drives said turbine section to in turn drive said compressor section of said turbocompressor, wherein said higher pressure tap is disposed below a plane including a lowermost surface of a pylon supporting the main compressor section associated with the engine of the aircraft; a combined outlet of said compressor section and said turbine section of said turbocompressor intermixing and passing downstream to be delivered to an aircraft use; and a control valve positioned on said higher pressure tap, and may be closed to drive air through said first passage associated with said lower pressure tap, or to have air pass through said compressor section of said turbocompressor when said control valve is opened. 14. The environmental control system as recited in claim 13 , wherein a redundant valve is provided to be closed if said control valve associated with said higher pressure tap fails. 15. The environmental control system as recited in claim 14 , wherein said redundant valve is positioned to be downstream of a location at which said first passage and said combined outlet intermix into a common conduit.