Method for evaluating and ranking the enhanced recovery potential for unconventional reservoirs

What is claimed: 1 . A method to perform a field operation of an unconventional reservoir, comprising: selecting, from a plurality of rock samples and based on test reports of corresponding companion rock samples, a plurality of selected rock samples representing rock characteristics of a plurality of formation zones in the unconventional reservoir; performing, using a rock sample test apparatus, a sequence of rock sample test cycles on each selected rock sample of the plurality of selected rock samples to generate rock sample test results; generating, based on the rock sample test results, a ranking of the plurality of selected rock samples representing enhanced oil recovery (EOR) potential of the plurality of formation zones; selecting, from the plurality of formation zones and based on the ranking of the plurality of selected rock samples, a first target formation zone having a first EOR potential meeting a first pre-determined criterion; and performing, based at least on the first EOR potential of the first target formation zone, the field production of the unconventional reservoir. 2 . The method of claim 1 , wherein the plurality of rock samples are obtained from the plurality of formation zones subsequent to primary depletion of the unconventional reservoir, wherein the rock sample test apparatus comprises a Huff-and-Puff (HnP) test apparatus, wherein the sequence of rock sample test cycles comprises a sequence of HnP cycles, and wherein the field operation comprises a first EOR production operation to extract hydrocarbons from the first target formation zone. 3 . The method of claim 2 , further comprising: determining, based on the rock sample test results, a storage capacity for sequestration of the first target formation zone, wherein the field operation further comprises a sequestration operation to store carbon dioxide (CO 2 ) gas in the first target formation zone subsequent to the first EOR production operation. 4 . The method of claim 3 , further comprising: further selecting, from the plurality of formation zones and based on the ranking of the plurality of selected rock samples, a second target formation zone having a second EOR potential meeting the pre-determined criterion; and performing, based on the storage capacity for sequestration of the first target formation zone and the second EOR potential of the second target formation zone, a second EOR production operation to extract hydrocarbons from the second target formation zone, wherein the second EOR production operation comprises an injection operation subsequent to the first EOR production operation and using the CO 2 gas stored in the first target formation zone. 5 . The method of claim 1 , further comprising: measuring, prior to the sequence of rock sample test cycles, said each selected rock sample to generate a prior weight and volume measurement; measuring, subsequent to the sequence of rock sample test cycles, said each selected rock sample to generate a subsequent weight and volume measurement; and determining, by at least comparing the prior weight and volume measurement and the subsequent weight and volume measurement, a residual oil amount of said each selected rock sample, wherein the rock sample test results comprise the residual oil amount of said each selected rock sample. 6 . The method of claim 5 , further comprising: measuring, prior to the sequence of rock sample test cycles, said each selected rock sample to generate a prior nuclear magnetic resonance (NMR) measurement; and measuring, subsequent to the sequence of rock sample test cycles, said each selected rock sample to generate a subsequent NMR measurement, determining the residual oil amount of said each selected rock sample is further based on comparing the prior NMR measurement and the subsequent NMR measurement. 7 . The method of claim 1 , wherein the test reports of corresponding companion rock samples comprise Gas Research Institute (GRI) reports. 8 . A core sample analysis system to facilitate a field operation of an unconventional reservoir, comprising: a computer processor; and memory storing instructions, when executed by the computer processor comprising functionality for: selecting, from a plurality of rock samples and based on test reports of corresponding companion rock samples, a plurality of selected rock samples representing rock characteristics of a plurality of formation zones in the unconventional reservoir; performing, using a rock sample test apparatus, a sequence of rock sample test cycles on each selected rock sample of the plurality of selected rock samples to generate rock sample test results; generating, based on the rock sample test results, a ranking of the plurality of selected rock samples representing enhanced oil recovery (EOR) potential of the plurality of formation zones; selecting, from the plurality of formation zones and based on the ranking of the plurality of selected rock samples, a first target formation zone having a first EOR potential meeting a first pre-determined criterion; and facilitating, based at least on the first EOR potential of the first target formation zone, the field production of the unconventional reservoir. 9 . The core sample analysis system of claim 8 , wherein the plurality of rock samples are obtained from the plurality of formation zones subsequent to primary depletion of the unconventional reservoir, wherein the rock sample test apparatus comprises a Huff-and-Puff (HnP) test apparatus, wherein the sequence of rock sample test cycles comprises a sequence of HnP cycles, and wherein the field operation comprises a first EOR production operation to extract hydrocarbons from the first target formation zone. 10 . The core sample analysis system of claim 9 , the instructions, when executed by the computer processor further comprising functionality for: determining, based on the rock sample test results, a storage capacity for sequestration of the first target formation zone, wherein the field operation further comprises a sequestration operation to store carbon dioxide (CO 2 ) gas in the first target formation zone subsequent to the first EOR production operation. 11 . The core sample analysis system of claim 10 , the instructions, when executed by the computer processor further comprising functionality for: further selecting, from the plurality of formation zones and based on the ranking of the plurality of selected rock samples, a second target formation zone having a second EOR potential meeting the pre-determined criterion; and facilitating, based on the storage capacity for sequestration of the first target formation zone and the second EOR potential of the second target formation zone, a second EOR production operation to extract hydrocarbons from the second target formation zone, wherein the second EOR production operation comprises an injection operation subsequent to the first EOR production operation and using the CO 2 gas stored in the first target formation zone. 12 . The core sample analysis system of claim 8 , the instructions, when executed by the computer processor further comprising functionality for: measuring, prior to the sequence of rock sample test cycles, said each selected rock sample to generate a prior weight and volume measurement; measuring, subsequent to the sequence of rock sample test cycles, said each selected rock sample to generate a subsequent weight and volume measurement; and determining, by at least comparing the prior weight and volume measurement and the subsequent weight and volume measurement, a residual oil amount of said each selected rock samp