Mitigation of backward whirl in drill bits

The invention claimed is: 1. A method comprising: determining values for a first drill bit design parameter for a plurality of drill bit designs; detecting instances of backward whirl based on vibrational data; determining a correlation between the instances of backward whirl and the values of the first drill bit design parameter, wherein determining the correlation includes determining a set of values for the first drill bit design parameter based on an aggregate of the values for the first drill bit design parameter identified for the instances of backward whirl; based on the correlation, determining a set of one or more limits for the first drill bit design parameter that mitigates backward whirl; and generating drill bit design rules based on the determined set of one or more limits for the first drill bit design parameter. 2. The method of claim 1 further comprising: validating a first drill bit design based on the generated drill bit design rules, wherein validating comprises determining that a value for the first drill bit design parameter for the first drill bit design lies within the set of one or more limits for values of the first drill bit design parameter that mitigates backward whirl. 3. The method of claim 2 further comprising: based on a determination that the first drill bit design is not valid, adjusting the first drill bit design based on a difference between the value of the first drill bit design parameter of the first drill bit design and the set of one or more limits for values of the first drill bit design parameters that mitigates backward whirl. 4. The method of claim 1 , wherein detecting the instances of backward whirl comprises: detecting lateral vibrations at a frequency equal to a difference between the bit rotational angular frequency (ω) and the whirl frequency (Ω). 5. The method of claim 4 , wherein detecting instances of backward whirl further comprises at least one of detecting instances of cutting-induced backward whirl and detecting instances of friction-induced backward whirl. 6. The method of claim 1 , wherein the determining the correlation further comprises: for each instance of backward whirl, identifying a value for the first drill bit design parameter for one of the plurality of drill bit designs, wherein the instance of backward whirl is detected in the vibrational data corresponding to the one of the plurality of the drill bit designs. 7. The method of claim 1 wherein determining the set of one or more limits for the first drill bit design parameter comprises determining at least one of a limit that drilling efficiency should be more than 42%, a limit that whirl index should be less than 110%, and a limit that gauge fullness should be non-full. 8. The method of claim 1 , further comprising: determining values for a second drill bit design parameter for the plurality of drill bit designs; based on the detected instances of backward whirl, determining a second correlation between the instances of backward whirl and the values of the second drill bit design parameter; and based on the second correlation, determining a set of one or more limits for the second drill bit design parameter that mitigates backward whirl; wherein generating the drill bit design rules is also based on the determined set of one or more limits for the second drill bit design parameter. 9. The method of claim 1 , further comprising: determining a multi-dimensional design space to mitigate backward whirl, wherein determining the multi-dimensional design space comprises determining the set of one or more limits for the first drill bit design parameter and determining a set of one or more limits for a second drill bit design parameter. 10. A non-transitory, computer-readable medium having instructions stored thereon that are executable by a computing device, the instructions to: determine values for a first drill bit design parameter for a plurality of drill bit designs; detect instances of backward whirl based on vibrational data; determine a correlation between the instances of backward whirl and the values of the first drill bit design parameter, wherein the instructions to determine the correlation include instructions to determine a set of values for the first drill bit design parameter based on an aggregate of the values for the first drill bit design parameter identified for the instances of backward whirl; based on the correlation, determine a set of one or more limits for the first drill bit design parameter that mitigates backward whirl; and generate drill bit design rules based on the determined set of one or more limits for the first drill bit design parameter. 11. The non-transitory, computer-readable media of claim 10 , wherein the instructions further comprise instructions to: validate a first drill bit design based on the generated drill bit design rules, wherein validation comprises instructions to determine that a value for the first drill bit design parameter for the drill bit design lies within the set of one or more limits for values of the first drill bit design parameter that mitigates backward whirl; and based on a determination that the first drill bit design is not valid, adjust the first drill bit design based on a difference between the value of the first drill bit design parameter of the first drill bit design and the set of one or more limits for values of the first drill bit design parameter that mitigates backward whirl. 12. The non-transitory, computer-readable media of claim 10 , wherein instructions to detect backward whirl comprise instructions to detect lateral vibrations at a frequency equal to a difference between the bit rotational angular frequency (ω) and the whirl frequency (Ω). 13. The non-transitory, computer-readable media of claim 10 , wherein instructions to detect instances of backward whirl comprise instructions to at least one of detect instances of cutting-induced backward whirl and detect instances of friction-induced backward whirl. 14. The non-transitory, computer-readable media of claim 10 , wherein instructions to determine a set of one or more limits for the first drill bit design parameter comprises instructions to determine at least one of a limit that drilling efficiency should be more than 42%, a limit that whirl index should be less than 110%, and a limit that gauge fullness should be non-full. 15. The non-transitory, computer-readable media of claim 10 , wherein the instructions further comprise instructions to: determine values for a second drill bit design parameter for the plurality of drill bit designs; based on the detected instances of backward whirl, determine a second correlation between the instances of backward whirl and the values of the second drill bit design parameter; and based on the second correlation, determine a set of one or more limits for the second drill bit design parameter that mitigates backward whirl; wherein instructions to generate the drill bit design rules further comprise instruction to generate drill bit design rules also based on the determined set of one or more limits for the second drill bit design parameter. 16. The non-transitory, computer-readable media of claim 10 , further comprising instructions to: determine a multi-dimensional design space to mitigate backward whirl, wherein instructions to determine a multi-dimensional design space comprise instruction to determine the set of one or more limits for the first drill bit design parameters and determine a set of one or more limits for a second drill bit design parameter.