Reservoir Modeler/engineer

Eden Sustainable Natural Resource Recovery

Eden is pioneering sustainable natural resource recovery by using electricity to enhance subsurface permeability. Our Electrical Reservoir Stimulation technology offers a precise, water-efficient alternative to traditional hydraulic fracturing, reducing environmental risks while maximizing resource extraction.

Backed by leading public and private institutions, we have raised ~$24M, including $14M in dilutive capital from industry leaders such as Anglo American and Helmerich & Payne, along with climate-focused investors like the Grantham Foundation. Additionally, we have secured $10M in non-dilutive funding, primarily through four DOE ARPA-E grants that support our R&D in frontier industries.

Headquartered in Somerville, MA, and with an office in Houston, TX, Eden's team of 16 experts specializes in geophysics, geochemistry, high-voltage engineering, and subsurface tool design. We are actively demonstrating our next-generation permeability enhancement technology across diverse geologies worldwide, collaborating with industry leaders in geothermal energy, geologic hydrogen, carbon storage, and mining to redefine resource recovery for a carbon-neutral future.

Looking ahead, we are preparing for surface and subsurface field tests, in cooperation with our supportive technical partners.

Your Impact

• Develop and refine 3D reservoir models in Petrel from geologic interpretations, incorporating gridding, upscaling, and facies modeling to capture heterogeneity and optimize simulation accuracy.
• Distribute petrophysical properties and integrate natural and induced fractures using DFN, dual-porosity, and Embedded Discrete Fracture Models to achieve realistic subsurface representations.
• Design and execute hydraulic fracture simulations in Kinetics, calibrating permeability, connectivity, and fracture geometry for high-fidelity results.
• Configure and run full-field thermal recovery simulations in Intersect to evaluate Enhanced Geothermal System (EGS) performance, including cold-water injection and heat extraction modeling.
• Simulate thermal-hydraulic-mechanical-chemical (THMC) coupling to assess long-term reservoir behavior, fracture evolution, and energy recovery sustainability.
• Partner with geologists, geomechanical engineers, and field teams to integrate multi-disciplinary data, validate models, and optimize stimulation strategies.
• Identify and quantify key reservoir uncertainties through sensitivity analysis, guiding field development and design decisions.
• Contribute to next-generation geothermal reservoir modeling frameworks to enhance recovery efficiency and accelerate EGS commercialization.