Summary Carbon capture storage (CCS) and geothermal systems in sedimentary basins are often limited by seismic and well data availability, historically acquired to target hydrocarbon resources. Nevertheless, those targets and the CCS and/or geothermal systems may or may not overlap and could appear to be around raw data blind spots, presenting the challenge of requiring time and cost-effective technologies/workflows that could fill the gap and provide valuable insights during the pre-feasibility and global screening process. The Middle Magdalena Valley Basin is a mature oil and gas province with most of the exploitation being produced from conventional fields in the Cenozoic section, predominantly from fluvial/alluvial environments. Furthermore, tight, and unconventional resources have been studied in the Mesozoic, predominantly from marine and shallow marine environments with less data. Calibrated heat and fluid flow coupled simulations, provided a 3D cube of temperature, pressure, petrophysical and constitutive features for reservoirs and cap rocks; these parameters, in conjunction with CO2 thermodynamics and solubility, have been built into a java script that can quantify and report the theoretical total CO2 mass per sequence, expected CO2 column and its associated injectivity, operational and environmental risk. Moreover, theoretical extractable electric potential is calculated in the 3D volume.