Apparatus, method, and program for estimating a state of a natural resource to be extracted

What is claimed is: 1. An apparatus comprising: a data acquiring section that acquires measurement data, measured by a measurement device, indicating a state of a natural resource that is a fluid flowing through an extraction network for extracting the natural resource; a state estimating section that estimates the state of the natural resource at least at one location differing from a location where the measurement device is provided in a flow path of the extraction network, using the measurement data and a model of the extraction network; and a margin calculating section that calculates a margin until flow path blocking matter is generated in the extraction network, based on the estimated state of the natural resource, wherein the state estimating section estimates a pressure and a temperature of the natural resource at each of a plurality of locations in a flow path of the extraction network, and the margin calculating section calculates the margin using the pressures and temperatures at the plurality of locations and a critical curve indicating a relationship of pressure and temperature across which the flow path blocking matter is generated, the critical curve based on a content ratio of a chemical substance for preventing the generation of flow path blocking matter. 2. The apparatus according to claim 1 , wherein the data acquiring section acquires the measurement data indicating a state of at least one of the natural resource flowing into the extraction network from a well side and the natural resource flowing out from the extraction network. 3. The apparatus according to claim 1 , further comprising: a determining section that determines a recommended operational amount of an inhibition apparatus that inhibits generation of the flow path blocking matter, based on the margin. 4. The apparatus according to claim 3 , further comprising: a control section that performs control to cause the inhibition apparatus to operate with the recommended operational amount. 5. The apparatus according to claim 3 , wherein the inhibition apparatus inhibits the generation of the flow path blocking matter by performing at least one of chemical injection, temperature adjustment of the flow path of the extraction network, and pressure adjustment in the flow path of the extraction network. 6. The apparatus according to claim 1 , wherein the flow path blocking matter includes at least one of a hydrate, an asphaltene, wax, and a scale. 7. The apparatus of claim 1 , wherein the extraction network is configured to extract the natural resource from a land based oil field. 8. The apparatus of claim 1 , wherein the extraction network transports the natural resource from a well on an ocean floor to an offshore facility or to a facility on land. 9. The apparatus of claim 8 , wherein: the well comprises a wellhead; and the wellhead extends from a surface of the ocean floor to a stratum containing the natural resource. 10. The apparatus of claim 8 , wherein: the extraction network comprises at least one pipeline; and the at least one pipeline is installed on the ocean floor. 11. The apparatus of claim 10 , wherein the at least one pipeline is at least one flowline. 12. The apparatus of claim 8 , wherein: the extraction network comprises at least one of manifolds or flowlines; and the at least one of manifolds or flowlines are piping structures installed on the ocean floor. 13. The apparatus of claim 12 , wherein: the extraction network comprises at least one riser; the at least one riser is a pipeline; the at least one riser has one end on the ocean floor connected to at least one of the manifolds; the at least one riser is configured to guide the natural resources along the ocean floor to the offshore facility; and the offshore facility comprises legs that are secured to the ocean floor. 14. A method comprising: acquiring, by a computer, measurement data, measured by a measurement device, indicating a state of a natural resource that is a fluid flowing through an extraction network for extracting the natural resource; estimating, with the computer, the state of the natural resource at least at one location differing from a location where the measurement device is provided in a flow path of the extraction network, using the measurement data and a model of the extraction network; and calculating, with the computer, a margin until flow path blocking matter is generated in the extraction network, based on the estimated state of the natural resource, wherein estimating the state of the natural resource includes estimating a pressure and a temperature of the natural resource at each of a plurality of locations in a flow path of the extraction network, and calculating the margin includes calculating the margin using the pressures and temperatures at the plurality of locations and a critical curve indicating a relationship of pressure and temperature across which the flow path blocking matter is generated, the critical curve based on a content ratio of a chemical substance for preventing the generation of flow path blocking matter. 15. A non-transitory computer-readable medium storing thereon a program that, when executed by a computer, causes the computer to perform operations comprising: acquiring measurement data, measured by a measurement device, indicating a state of a natural resource that is a fluid flowing through an extraction network for extracting the natural resource; estimating the state of the natural resource at least at one location differing from a location where the measurement device is provided in a flow path of the extraction network, using the measurement data and a model of the extraction network; and calculating a margin until flow path blocking matter is generated in the extraction network, based on the estimated state of the natural resource, wherein estimating the state of the natural resource includes estimating a pressure and a temperature of the natural resource at each of a plurality of locations in a flow path of the extraction network, and calculating the margin includes calculating the margin using the pressures and temperatures at the plurality of locations and a critical curve indicating a relationship of pressure and temperature across which the flow path blocking matter is generated, the critical curve based on a content ratio of a chemical substance for preventing the generation of flow path blocking matter.