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A method and apparatus for remotely and selectively controlling and altering fluid flow through tubular string disposed within a wellbore and further control fluid flow between the tubular string inner flow passage and the annular flow passage, and a method for selectively and remotely receiving and

A method and apparatus for remotely and selectively controlling and altering fluid flow through tubular string disposed within a wellbore and further control fluid flow between the tubular string inner flow passage and the annular flow passage, and a method for selectively and remotely receiving and interpreting a form of command or information at a particular apparatus within the wellbore caused by the operator on earth surface through a change of a physical property of the environment. The apparatus comprising a body, a valve operable in plurality of states, an actuator, and an activator responsive to a change of a physical property of the environment caused by the operator on earth surface.

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1. An apparatus for remotely controlling fluid flow in tubular strings and wellbore annulus, comprising: a. a body defining the boundaries between an inner flow passage through the apparatus and an annular flow passage within the wellbore annulus, the body comprising two ends and at least one latera

1. An apparatus for remotely controlling fluid flow in tubular strings and wellbore annulus, comprising: a. a body defining the boundaries between an inner flow passage through the apparatus and an annular flow passage within the wellbore annulus, the body comprising two ends and at least one lateral hole for connecting the inner flow passage and the annular flow passage;b. a valve operable in plurality of predetermined states for altering fluid flow pattern, wherein the valve comprises at least one rotatable element movable to a plurality of predetermined positions, wherein the valve further divides the inner flow passage into an upstream section and a downstream section, wherein the upstream section is the portion of the inner flow passage from the valve and through one end of the body and the downstream section is the portion of the inner flow passage from the valve and through the other end of the body;c. an activator disposed within the body for selectively changing the apparatus into either one of two modes: a disabled mode, wherein the valve is not operable, and an enabled mode, wherein the valve is operable to a predetermined state; andd. an actuator for changing the position of the rotatable element comprising a means for transforming an energy source into a mechanical movement;wherein the activator is responsive to an intended change in the environment;wherein the valve state is responsive to the rotatable element position; said rotatable element comprising at least one surface of spherical shape and at least two ports;wherein the plurality of predetermined states comprise: i. no flow state wherein the flow passage between the upstream section and the downstream section is restricted and the flow passage between the inner flow passage and the annular flow passage is restricted;ii. through flow state wherein the passage between the upstream section and the downstream section is in fluid communication whereas the flow passage between the inner flow passage and the annular flow passage is restricted;iii. diverted flow state wherein the flow passage between the upstream section and the annular flow passage is in fluid communication whereas the flow passage between the upstream section and the downstream section is restricted; andiv. full flow state wherein the flow passage between the upstream section and the downstream section is in fluid communication and the flow passage between the inner flow passage and the annular flow passages is in fluid communication. 2. The apparatus of claim 1, wherein the rotatable element comprising at least one cavity inside the element. 3. The apparatus of claim 1, further comprising a sensor means for detecting a plurality if intended changes in at least one physical property of the environment resulting in a detectable signal within the apparatus suitable for processing, wherein the sensor means comprising a sensor. 4. A method of remotely and selectively controlling an apparatus disposed in a tubular string within a wellbore, the method comprising steps of: a. disposing in a wellbore a tubular string including an apparatus comprising: i. a body;ii. at least one controllable elements operable in a plurality of predetermined states;iii. an activator disposed within the body capable of selectively change the apparatus in either one of two modes: a disabled mode wherein the controllable element is not operable, and an enabled mode wherein the controllable element is operable to a predetermined state, wherein the activator comprising a sensor responsive to an intended change in the environment, wherein the intended change in the environment is selected from the set comprising change of fluid property introduced from surface into the wellbore, change of pressure, change of temperature, change of flow rate, change of fluid density, change of fluid viscosity, change of fluid color, change of fluid composition, change of magnetic field or a physical change detectable by the sensor; andiv. an actuator for changing the controllable element into a predetermined state;b. causing a change in a physical property of the environment in a predetermined sequence within a specified period of time resulting in a detectable pattern at the sensor, wherein the change in the physical property of the environment comprising a sequence of plurality of signal variations within the specified period of time;c. comparing the detectable pattern with a command pattern to determine if the controllable element state is to be changed to a different predetermined state;d. causing the activator to change the apparatus mode into the predetermined mode; ande. causing the actuator to use an energy source causing the at least one controllable element into a different predetermined state. 5. The method of claim 4 wherein the change in a physical property of the environment is a change of electric field detectable by the sensor. 6. A method for remotely and selectively control fluid flow in a tubular string and wellbore annulus, the method comprising the steps of: a. disposing a tubular string into a wellbore comprising at least one flow control apparatus comprising: i. a body defining the boundaries between an inner flow passage through the apparatus and an annular flow passage within the wellbore annulus, the body comprising two ends and at least one lateral hole for connecting the inner flow passage and the annular flow passage;ii. a valve operable in plurality of predetermined states for altering fluid flow pattern, the valve comprising at least one rotatable element movable to a plurality of predetermined positions, wherein the valve further divides the inner flow passage into an upstream section and a downstream section, wherein the upstream section is the portion of the inner flow passage from the valve and through one end of the body and the downstream section is the portion of the inner flow passage from the valve and through the other end of the body;iii. an activator disposed within the body for selectively changing the apparatus into either one of two modes: a disabled mode, wherein the valve is not operable, and an enabled mode, wherein the valve is operable to a predetermined state, andiv. an actuator for changing the position of the rotatable element; wherein the activator is responsive to an intended change in the environment;wherein the valve state is responsive to the rotatable element position;wherein the predetermined states are selected from the set comprising: 1. no flow state wherein the flow passage between the upstream section and the downstream section is restricted and the flow passage between the inner flow passage and the annular flow passage is restricted;2. through flow state wherein the passage between the upstream section and the downstream section is in fluid communication whereas the flow passage between the inner flow passage and the annular flow passage is restricted;3. diverted flow state wherein the flow passage between the upstream section and the annular flow passage is in fluid communication whereas the flow passage between the upstream section and the downstream section is restricted; and4. full flow state wherein the flow passage between the upstream section and the downstream section is in fluid communication and the flow passage between the inner flow passage and the annular flow passages is in fluid communication;b. causing a plurality of changes in one or more physical property of the environment within a specified period of time resulting in a detectable pattern at the sensor comprising a plurality of signal variations within the specified period of time;c. comparing the detectable pattern with a command pattern to determine if the valve state is to be changed to a different predetermined state and then causing the activator to cause the apparatus mode into the predetermined mode; andd. causing the actuator to change the rotatable element position to cause the valve into a different predetermined state resulting in a change of the fluid flow pattern by the valve from an initial predetermined flow pattern to a different predetermined flow pattern.