Chemical imbibition by gels containing surfactants for fractured carbonate reservoirs

What is claimed is: 1. A conformance control fluid that induces spontaneous imbibition of a water phase into a reservoir matrix, the conformance control fluid comprising: an imbibition gel composition, the imbibition gel composition comprising: a surfactant, the surfactant contained within a gel network of a gel system, wherein the surfactant diffuses through a carrier fluid and the water phase from the gel system to a surface of the reservoir matrix, wherein the surfactant alters the wettability of the surface of the reservoir matrix from oil-wet toward water, wherein the surfactant is a betaine amphoteric surfactant, wherein the amount of surfactant is between 0.1% by weight of the imbibition gel composition and 5.0% by weight of the imbibition gel composition; and a gel system, wherein the gel system retains the surfactant in the gel system within a carrier fluid and the gel system further operable to release the surfactant in the presence of the water phase, wherein the gel system comprises gelants, wherein the gel system is a crosslinked gel system selected from the group consisting of xanthum/chromium (III), polyacrylamide/aluminum (III), polyacrylamide/phenol-formaldehyde, sulfonated polyacrylamide/chromium (III), co-polymer of acylamide tertiary butyl sulfonic acide with acrylamide/chromium (III), and acrylamide/N,N′-methylene-bis-acrylamide, wherein altering the wettability of the surface of the reservoir matrix toward water-wet induces the spontaneous imbibition of the water phase into the reservoir matrix; and the carrier fluid, the carrier fluid operable to carry the imbibition gel composition into contact with the surface of the reservoir matrix, wherein the carrier fluid contains 0.5% by weight of the gel system, wherein the imbibition gel composition is mixed with the carrier fluid before the conformance control fluid is introduced to a reservoir matrix. 2. The conformance control fluid of claim 1 , wherein the carrier fluid is water-based. 3. The conformance control fluid of claim 1 , wherein the carrier fluid comprises a brine, the brine having a salinity, wherein the salinity is between 35,000 ppm by weight and 100,000 ppm by weight. 4. The conformance control fluid of claim 1 , wherein the carrier fluid comprises a brine, the brine having a salinity, wherein the salinity is between 55,000 ppm by weight and 60,000 ppm by weight.