Systems and methods for transferring data from remote sites

The invention claimed is: 1. A system, comprising: a cloud-based computing system communicatively coupled to a first communication network; one or more remote terminal units (RTUs) configured to control operations of one or more well devices associated with a hydrocarbon well, wherein the one or more RTUs are inaccessible to the first communication network; and a handheld computing device configured to: communicatively couple to the one or more RTUs via a second communication network in response to the handheld computing device being within a coverage range of the second communication network; automatically download data from the one or more RTUs via the second communication network in response to communicatively coupling to the one or more RTUs and the data being new data available for download from the one or more RTUs; perform one or more preliminary analyses on the data after downloading the data from the one or more RTUs, wherein the one or more preliminary analyses comprises generating an alert in response to determining that the data is outside an expected range of values; send a command to the one or more RTUs to adjust the operations of the one or more well devices in response to generating the alert; communicatively couple to the cloud-based computing system in response to detecting access to the first communication network; and transmit the data and one or more results of the one or more preliminary analyses to the cloud-based computing system via the first communication network in response to the handheld computing device communicatively coupling to the cloud-based computing system and after the handheld computing device downloads the data from the one or more RTUs. 2. The system of the claim 1 , wherein the second communication network comprises short-range Bluetooth communication, short-range infrared (IR) communication, short-range radio frequency (RF) communication, or any combination thereof. 3. The system of claim 1 , comprising one or more cloud gateways configured to receive the data from the handheld computing device and transfer the data to the cloud-based computing system. 4. The system of claim 1 , wherein the handheld computing device is configured to scan for a communication link to the first communication network at regular or irregular intervals prior to communicatively coupling to the cloud-based computing system. 5. The system of claim 1 , wherein the handheld computing device is configured to scan for identification data sent by the one or more RTUs via the second communication network prior to communicatively coupling to the one or more RTUs. 6. A method, comprising: communicatively coupling, via a processor of a handheld computing device, to one or more remote terminal units (RTUs) in response to the processor being within a distance to the one or more RTUs, wherein the one or more RTUs are configured to control operations of one or more well devices associated with a hydrocarbon well; automatically downloading, via the processor, data from the one or more RTUs via a first communication network in response to communicatively coupling to the one or more RTUs and the data being new data available for download from the one or more RTUs; performing, via the processor, one or more preliminary analyses on the data after downloading the data from the one or more RTUs, wherein the one or more preliminary analyses comprises generating an alert in response to determining that the data is outside an expected range of values; sending, via the processor, a command to the one or more RTUs to adjust the operations of the one or more well devices in response to generating the alert; communicatively coupling, via the processor, to a cloud-based computing system in response to detecting access to a second communication network, wherein the one or more RTUs are inaccessible to the second communication network; and transmitting, via the processor, the data and results of the one or more preliminary analyses to the cloud-based computing system via the second communication network in response to the processor communicatively coupling to the cloud-based computing system after the processor downloads the new data from the one or more RTUs. 7. The method of claim 6 , comprising scanning, via the processor, for identification data sent by the one or more RTUs within the distance prior to communicatively coupling to the one or more RTUs. 8. The method of claim 6 , comprising: sending, via the processor, one or more acknowledge messages to the one or more RTUs indicating that the processor has recognized presences of the one or more RTUs; and receiving, via the processor, one or more acknowledgement signals sent by the one or more RTUs, prior to communicatively coupling to the one or more RTUs. 9. The method of claim 6 , wherein communicatively coupling the processor to the one or more RTUs comprises using short-range Bluetooth communication, short-range infrared (IR) communication, short-range radio frequency (RF) communication, or any combination thereof. 10. The system of claim 1 , wherein the data comprises a range of tubing head pressure values, a range of case head pressure values, a range of wellhead pressure values, or a combination thereof. 11. The system of claim 1 , wherein the data comprises a range of temperature values of hydrocarbons, a range of tubing head temperature values, a range of wellhead temperature values, or a combination thereof. 12. The system of claim 1 , wherein the data comprises a range of well depth values, a range of tubing length values, a range of tubing size values, or a combination thereof.