Hydrogeology, Modeling and Geoinformatics
HİDROJEOTEK brings together expertise in hydrogeology, modeling and geoinformatics with a focus on water systems. From field data to spatial analysis, from conceptual model to technical report — the entire process is approached as integrated decision support.
Technical consultancy focused on water, modeling and spatial data
HİDROJEOTEK integrates hydrogeology, hydrology, numerical modeling and geoinformatics according to project scale, data availability and decision-making needs.
Assessment of groundwater and surface water systems
Aquifer conditions, groundwater level changes, surface water connections, recharge-discharge relationships and water balance components are evaluated within a technical framework.
Scenario analysis and decision support
The conceptual hydrogeological model is transformed into a numerical assessment process to evaluate project scenarios and make uncertainties explicit.
Spatial data, remote sensing and mapping
Data from different sources are organized and quality-controlled to produce thematic maps and spatial analysis outputs for decision-making processes.
Technical decision support across sectors
Water systems are central to project decisions across many sectors. HİDROJEOTEK produces the technical basis for these decisions by applying hydrogeology, modeling and spatial analysis together.
Groundwater impact and risk management
During mine site or energy facility development, groundwater conditions, impact areas and management options need to be technically evaluated.
Groundwater analysis for construction and operation
In tunnel, deep excavation or drainage system design, groundwater quantity, pressure and seasonal variation are critical for project safety and cost.
Potential, balance and sustainability
Water supply planning, basin assessment or drought-climate impact analyses require the quantitative and qualitative characteristics of the water system to be established on a technical basis.
Water component in EIA and ESIA processes
Technical assessment of project impacts on groundwater and surface water systems in a traceable and reportable format.
Hydrological function and water connectivity
Determining the relationship between the water component and ecosystem functions in wetlands, forests and sensitive habitats; establishing the technical basis for management plans.
Irrigation water, drainage and land-water relationships
Irrigation water capacity, drainage design, salinity risk and water quality assessments provide technical input to land use decisions.
Representative study types
Studies are summarized by technical scope and output type without disclosing client information.
Transportation Project Groundwater Model
Groundwater inflow to the drainage system was estimated through hydrogeological characterization and numerical modeling; scenario ranges from construction to operation were provided as input to the technical decision process.
Water Supply Hydrogeological Assessment
Aquifer potential, sustainable abstraction capacity and water quality were jointly evaluated with spatial analysis to establish the technical basis for water supply planning.
Mining Hydrogeological Study
Groundwater behavior, impact area and dewatering scenarios for operation and closure phases were assessed, providing traceable technical output for management decisions.
From data to technical decisions
Each project is evaluated through a phased process that considers scope, data availability, natural system behavior and expected technical output.
Scope and data
Project objectives, existing datasets, data gaps and technical needs are evaluated together.
Conceptual model
Hydrogeological and hydrological system components are defined within a technical framework.
Analysis and modeling
Numerical modeling, GIS analysis and scenario assessment are carried out where appropriate.
Reporting and decision support
Findings are transformed into technical outputs that can support project decision-making.
Let’s technically evaluate your project
You may initiate the first evaluation process by sharing your project scope, available data and expected technical output.