In order to reveal the adsorption and lost amount of each component in surfactant/polymer（SP）flooding system for conglomerate reservoir with strong heterogeneity and complex model pore structure， the static adsorption and dynamic retention laws of petroleum sulfonate（KPS）and polyacrylamide（HPAM）on the surface of conglomerate core in Karamay reservoir were studied. The results showed that the static adsorption amount of HPAM and KPS on the surface of single mineral and conglomerate core increased with increasing initial concentration and then kept unchanged. The adsorption amount of KPS on each single mineral was more than that of HPAM. Because of the difference of material composition and surface structure， the adsorption amount of clay mineral was more than that of rock skeleton mineral. The static adsorption amount of each component in SP flooding system（0.3% KPS+0.18% HPAM）was proportional to the strength of mineral active center. Because of the competitive adsorption effect， the static adsorption amount of HPAM and KPS in SP flooding system on conglomerate core surface was less than that of single chemical component. The static adsorption amount of HPAM and KPS on conglomerate core surface was less than that of clay mineral but more than that of skeleton mineral. The main absorption effect occurred on the surface of clay mineral. The dynamic retention amount of HPAM and KPS in SP flooding system was negative correlation with the permeability of conglomerate core. Because of the influence of core specific surface area and the dilution of water to chemical agent， the dynamic retention amount of KPS in SP flooding system was lower than its static absorption amount. The dynamic retention amount of HPAM was less than static absorption amount due to the effect of pore structure and specific surface area.