Title : 3D well planning using geothermal and water interacted with 3D geological and geophysical modeling for smart city and in the sedimentary aquifer of Ghriss, Mascara, NW of Algeria
Abstract:
Urban and rural development is undergoing a radical transformation through the convergence of geothermal and water technology, environmental geology stewardship, geophysical exploration and 3D well planning infrastructure resilience. These embedded techniques are primordial when inferring seismic information retrieved directly from local geology and calibrated empirical formulas in the Ghriss aquifer situated in the NW of Algeria. In this context, Environmental geology engineering regarding geostructures dimensioning for smart cities development explores solutions that enhance resource efficiency, pollution mitigation, and real-time system responsiveness in rapidly urbanizing / rural water demand interaction. From 3D geological modeling framework inferred to seismic and geoelectrical surveys, it is ingenious to retrieve a proxy’s parameters that govern water, storage, groundwater flow which impact buildings and low-impact infrastructure systems integrated heat pump control and salinity-based pollution monitoring, cities are evolving into living laboratories. Environmental geology work at the interface of data science (Geoelectrical data surveys, geology transects, and harmonized 3D wells design), crafting systems that are adaptive, and climate-water resilient. Smart water planning integrates environmental geology and geothermal modeling interaction using the Fourier concept, public health (balneotherapy use), and carbon neutrality objectives (i.e.: faults interacted as drains). Environmental geology and water engineering, 3D well infrastructure and smart cities represents a comprehensive approach, where technological innovation aligns with sustainable water living environments and geothermal inferred seismic and geology engineering which illustrate a pivotal key for geostructures system offering long-term access to geothermal facilities.
