Provided is a fluid flow control system, a well system, and a method. The fluid flow control system, in one aspect, includes a flow restrictor operable to receive production fluid having a pressure (P3) and discharge control fluid having a control pressure (P2), and a fluidic diode placed between the flow restrictor and the tubing, the fluidic diode configured to increase the control pressure (P2) to a higher control pressure (P2.sup.++) when the fluidic diode encounters lower viscosity fluids and is configured to increase the control pressure (P2) to a lower control pressure (P2.sup.+) when the fluidic diode encounters higher viscosity fluids. The fluid flow control system, in one aspect, further includes an inflow control device having a production fluid inlet, a control inlet operable to receive control fluid having the higher control pressure (P2.sup.++) or the lower control pressure (P2.sup.+), and a production fluid outlet.

An example method includes providing fluid communication between an internal bore of a drill string and an annulus between the drill string and a borehole through a fluid channel in a side of a collar coupled to the drill string. Fluid may be circulated through the internal bore of the drill string. A fluid telemetry signal may be generated by selectively generating a vortex within the fluid channel. Providing fluid communication between the internal bore and the annulus through the fluid channel may include providing fluid communication between the internal bore and a vortex basin at least partially defining the fluid channel, through at least one of a first fluid flow path and a second fluid flow path between the vortex basin and the internal bore; and providing fluid communication between the vortex basin and the annulus through a fluid outlet of the vortex basin.

Provided is a fluid flow control system, a well system, and a method. The fluid flow control system, in one aspect, includes a flow restrictor operable to receive production fluid having a pressure (P3) and discharge control fluid having a control pressure (P2), and a fluidic diode placed between the flow restrictor and the tubing, the fluidic diode configured to increase the control pressure (P2) to a higher control pressure (P2.sup.++) when the fluidic diode encounters lower viscosity fluids and is configured to increase the control pressure (P2) to a lower control pressure (P2.sup.+) when the fluidic diode encounters higher viscosity fluids. The fluid flow control system, in one aspect, further includes an inflow control device having a production fluid inlet, a control inlet operable to receive control fluid having the higher control pressure (P2.sup.++) or the lower control pressure (P2.sup.+), and a production fluid outlet.

Provided is a fluid flow control system, a well system, and a method. The fluid flow control system, in one aspect, includes a flow restrictor operable to receive production fluid having a pressure (P3) and discharge control fluid having a control pressure (P2), and a fluidic diode placed between the flow restrictor and the tubing, the fluidic diode configured to increase the control pressure (P2) to a higher control pressure (P2.sup.++) when the fluidic diode encounters lower viscosity fluids and is configured to increase the control pressure (P2) to a lower control pressure (P2.sup.+) when the fluidic diode encounters higher viscosity fluids. The fluid flow control system, in one aspect, further includes an inflow control device having a production fluid inlet, a control inlet operable to receive control fluid having the higher control pressure (P2.sup.++) or the lower control pressure (P2.sup.+), and a production fluid outlet.

Provided is a fluid flow control system, a well system, and a method. The fluid flow control system, in one aspect, includes a flow restrictor operable to receive production fluid having a pressure (P3) and discharge control fluid having a control pressure (P2), and a fluidic diode placed between the flow restrictor and the tubing, the fluidic diode configured to increase the control pressure (P2) to a higher control pressure (P2++) when the fluidic diode encounters lower viscosity fluids and is configured to increase the control pressure (P2) to a lower control pressure (P2+) when the fluidic diode encounters higher viscosity fluids. The fluid flow control system, in one aspect, further includes an inflow control device having a production fluid inlet, a control inlet operable to receive control fluid having the higher control pressure (P2++) or the lower control pressure (P2+), and a production fluid outlet.

Provided is a fluid flow control system, a well system, and a method. The fluid flow control system, in one aspect, includes a flow restrictor operable to receive production fluid having a pressure (P3) and discharge control fluid having a control pressure (P2), and a fluidic diode placed between the flow restrictor and the tubing, the fluidic diode configured to increase the control pressure (P2) to a higher control pressure (P2++) when the fluidic diode encounters lower viscosity fluids and is configured to increase the control pressure (P2) to a lower control pressure (P2+) when the fluidic diode encounters higher viscosity fluids. The fluid flow control system, in one aspect, further includes an inflow control device having a production fluid inlet, a control inlet operable to receive control fluid having the higher control pressure (P2++) or the lower control pressure (P2+), and a production fluid outlet.