Artificial Diagenesis of Carbonates: Temperature-Dependent Inorganic and Organic Modifications in Reservoir Mimetic Fluids

Abstract: Summary Within reservoirs, spatial variations related to mineralogy and fluid chemistry determine the success of improved oil recovery (IOR) technologies. However, the composition and structure of mineral-adsorbent/fluid interfaces, which fundamentally determine the wettability of reservoir rocks and crude oil (CRO) displacement, are unclear. Replicating the diagenetic alterations of carbonates, this study addresses the temperature dependence of the inorganic and organic modifications of calcite… Show more

“…Crude oils exhibit remarkable physicochemical complexity, with the number of distilled organic components greatly exceeding 1000000 as well as the dynamic (re)­assembly of chemical constituents into emulsions, (nano)­aggregates and particles. − From this chemical haystack, certain molecules bind to mineral surfaces and form “organic layers”, − possibly leading to alterations in the geochemical properties of carbonates such as dissolution rates , and wettability. ,, However, mechanistic studies of organic molecules, undergoing surface deposition and desorption in carbonate rocks, are limited and those uncovering the chemical identity of primary sorbents report mixed observations.…”

“…Thus, substantial mineral dissolution can occur over the time scales of reservoir development and production, which are on the order of decades. Kinetics of carbonate dissolution is also affected by surface deposits of oil , and its long-chain fatty acid and polycyclic aromatic hydrocarbon ,− constituents. Recent studies even show that non-equilibrium fluids, under flow, substantially alter the surface potential and reactivity of minerals. , Thus, the displacement of oil in reservoir rocks and the out-of-equilibrium conditions innate to this soluble mineral appear closely connected.…”

“…Second, rock-bound organic matter is often reported as enriched in polar groups and polyaromatic hydrocarbons, ,,, compositionally distinct from the bulk oil. In this respect, reservoir oil is also spatially categorized as free, adsorbed, or inclusion oil.…”

“…Subsequently equilibrating calcite crystals in these fluids establishes a surface adlayer, rendering a more oil-wet mineral surface. Using this aging protocol, we will investigate the formation, composition, and stability of the carbonate-bound surface layer, also observed in reservoir core samples. ,, …”

Formation and Stability of Heterogeneous Organo–Ionic Surface Layers on Geological Carbonates

“…Crude oils exhibit remarkable physicochemical complexity, with the number of distilled organic components greatly exceeding 1000000 as well as the dynamic (re)­assembly of chemical constituents into emulsions, (nano)­aggregates and particles. − From this chemical haystack, certain molecules bind to mineral surfaces and form “organic layers”, − possibly leading to alterations in the geochemical properties of carbonates such as dissolution rates , and wettability. ,, However, mechanistic studies of organic molecules, undergoing surface deposition and desorption in carbonate rocks, are limited and those uncovering the chemical identity of primary sorbents report mixed observations.…”

“…Thus, substantial mineral dissolution can occur over the time scales of reservoir development and production, which are on the order of decades. Kinetics of carbonate dissolution is also affected by surface deposits of oil , and its long-chain fatty acid and polycyclic aromatic hydrocarbon ,− constituents. Recent studies even show that non-equilibrium fluids, under flow, substantially alter the surface potential and reactivity of minerals. , Thus, the displacement of oil in reservoir rocks and the out-of-equilibrium conditions innate to this soluble mineral appear closely connected.…”

“…Second, rock-bound organic matter is often reported as enriched in polar groups and polyaromatic hydrocarbons, ,,, compositionally distinct from the bulk oil. In this respect, reservoir oil is also spatially categorized as free, adsorbed, or inclusion oil.…”

“…Subsequently equilibrating calcite crystals in these fluids establishes a surface adlayer, rendering a more oil-wet mineral surface. Using this aging protocol, we will investigate the formation, composition, and stability of the carbonate-bound surface layer, also observed in reservoir core samples. ,, …”

Formation and Stability of Heterogeneous Organo–Ionic Surface Layers on Geological Carbonates

“…Based on this explanation, we propose that water compositions oversaturated with respect to underlying mineral phase and at the same time undersaturated with respect to the bound organo‐ionic layer are optimal for removing rock bound organo‐ionic matter. Consistent with the molecular characteristics of carbonate bound molecules as bulk aromatic hydrocarbons with polar modifications [ 61 ] and the physical nature of the rock bound organic matter as organo‐ionic surface phases, [ 69 ] this mechanism brings forth the rich interconnectivity between multiple bulk and surface equilibria involving organic and inorganic species in underground formations.…”

Nonmonotonic Coupled Dissolution‐Precipitation Reactions at the Mineral–Water Interface

Response of crude oil deposited organic layers to brines of different salinity: An atomic force microscopy study on carbonate surfaces