Ultrasonic flow tube having a plurality of outer pipes surrounding a center pipe positioned between an inlet wall and an outlet wall having transducers therein

What is claimed is: 1. An ultrasonic flow tube comprising: a flow chamber for accepting an inflow of a gas, wherein the flow chamber comprises a center pipe and a plurality of outer pipes surrounding the center pipe, connected between an inlet wall provided at a first end of the flow chamber and an outlet wall provided at a second end of the flow chamber such that a velocity of the gas within the center pipe and each of the plurality of outer pipes is numerically the same; and a first transducer attached near the inlet wall and a second transducer attached near the outlet wall, wherein a first acoustic wave package generated by the first transducer and a second acoustic wave package generated by the second transducer are transmitted into the flow chamber such that the center pipe receives a majority of the first acoustic wave package and the second acoustic wave package, and each of the plurality of outer pipes receives a minority of the first acoustic wave package and the second acoustic wave package; wherein an outer surface of the inlet wall and an outer surface of the outlet wall comprises a plurality of absorbing structures for absorbing a plurality of acoustic waves of the first acoustic wave package and the second acoustic wave package. 2. The ultrasonic flow tube of claim 1 , further comprising one or more flow inlets to enable a smooth inflow of the gas inside the flow chamber, wherein each of the one or more flow inlets is having a funnel shape. 3. The ultrasonic flow tube of claim 1 , wherein the plurality of absorbing structures is selected from one of, a cavity, an elevated geometry, or a combination thereof. 4. The ultrasonic flow tube of claim 1 , further comprising a rear housing attached to the second end of the flow chamber, wherein the rear housing comprises a dome to provide a smooth flow of the gas in an outward direction from the ultrasonic flow tube. 5. The ultrasonic flow tube of claim 1 , wherein the first acoustic wave package and the second acoustic wave package are directed into the flow chamber at a narrow beam angle. 6. The ultrasonic flow tube of claim 1 , wherein the center pipe and each of the plurality of outer pipes are made up of a material having a high acoustic impedance and a wall thickness of less than 1 Millimeter (mm). 7. The ultrasonic flow tube of claim 1 , wherein each of the one or more flow inlets comprises one or more angled edges near a bottom end to reduce a flow cavity in front of the first transducer. 8. The ultrasonic flow tube of claim 7 , wherein the first transducer comprises a phase to be aligned with the one or more angled edges of each of the one or more flow inlets to further reduce the flow cavity in front of the first transducer. 9. The ultrasonic flow tube of claim 1 , wherein the second transducer comprises a phase to reduce a flow cavity in front of the second transducer for directing the second acoustic wave package into the flow chamber. 10. The ultrasonic flow tube of claim 1 , wherein a shape of a flow channel formed by the center pipe and each of the plurality of outer pipes is selected from one of, a circular, a rectangular, a honeycomb, or a polygon. 11. An ultrasonic flow tube comprising: one or more flow inlets to enable a smooth inflow of a gas inside the ultrasonic flow tube, wherein each of the one or more flow inlets is having a funnel shape; a flow chamber for accepting the inflow of the gas, wherein the flow chamber comprises a center pipe and a plurality of outer pipes surrounding the center pipe, connected between an inlet wall provided at a first end of the flow chamber and an outlet wall provided at a second end of the flow chamber such that a velocity of the gas within the center pipe and each of the plurality of outer pipes is numerically the same; and a first transducer attached near the inlet wall and a second transducer attached near the outlet wall, wherein a first acoustic wave package generated by the first transducer and a second acoustic wave package generated by the second transducer are transmitted into the flow chamber at a narrow beam angle such that the center pipe receives a majority of the first acoustic wave package and the second acoustic wave package, and each of the plurality of outer pipes receives a minority of the first acoustic wave package and the second acoustic wave package; wherein an outer surface of the inlet wall and an outer surface of the outlet wall comprises a plurality of absorbing structures for absorbing a plurality of acoustic waves of the first acoustic wave package and the second acoustic wave package. 12. The ultrasonic flow tube of claim 11 , wherein the plurality of absorbing structures is selected from one of, a cavity, an elevated geometry, or a combination thereof. 13. The ultrasonic flow tube of claim 11 , further comprising a rear housing attached to the second end of the flow chamber, wherein the rear housing comprises a dome to provide a smooth flow of the gas in an outward direction from the ultrasonic flow tube. 14. The ultrasonic flow tube of claim 11 , wherein the center pipe and each of the plurality of outer pipes are made up of a material having a high acoustic impedance and a wall thickness of less than 1 Millimeter (mm). 15. The ultrasonic flow tube of claim 11 , wherein each of the one or more flow inlets comprises one or more angled edges near a bottom end to reduce a flow cavity in front of the first transducer. 16. The ultrasonic flow tube of claim 15 , wherein the first transducer comprises a phase to be aligned with the one or more angled edges of each of the one or more flow inlets to further reduce the flow cavity in front of the first transducer. 17. The ultrasonic flow tube of claim 11 , wherein the second transducer comprises a phase to reduce a flow cavity in front of the second transducer for directing the second acoustic wave package into the flow chamber. 18. A method for measuring a total flow rate using an ultrasonic flow tube, the method comprising steps of: allowing a smooth inflow of a gas into a flow chamber of the ultrasonic flow tube through one or more of funnel shaped flow inlets; transmitting a first acoustic wave package using a first transducer, directed towards a center pipe of the flow chamber surrounded by a plurality of outer pipes such that the first acoustic wave package is directed at a narrow beam angle; receiving the first acoustic wave package from the center pipe of the flow chamber at a second transducer; transmitting a second acoustic wave package using the second transducer, directed towards the center pipe of the flow chamber at a narrow beam angle; receiving the second acoustic wave package from the center pipe of the flow chamber at the first transducer; determining an upstream time of flight of propagation of the first acoustic wave package from the first transducer to the second transducer, and a downstream time of flight of propagation of the second acoustic wave package from the second transducer to the first transducer; calculating a flow rate of the gas inside the center pipe of the flow chamber based on the determined upstream time of flight, the determined downstream time of flight and the delta time of flight between both; and calculating the total flow rate by interpolating the calculated flow rate of the center pipe according to a numerical value calculated by summing a number of the center pipe and a number of the outer pipes surrounding the center pipe; and having outer surfaces of an inlet and an outlet wall comprising a plurality of absorbing structures