Nanoborne is driving the global petroleum & geosystems industry to sustainable development with nanotechnology integration.

EMULTY® & ESN®

Our product

Emulty® is a nanoparticle-based surfactant

Reversible flow-control system

ESN® is a nano-emulsion for control of fluids flow subsurface

Application areas

Petroleum & Geosystems Industry

Geothermal Resources

Geothermal Resources

Greenhouse Gases Utilization and Storage

Greenhouse Gases Utilization and Storage

Upstream Oil and Gas

Upstream Oil and Gas

Competitive advantages

Competitors drawbacks

High sensitivity to reservoirfluids and temperature.Water pollutionUnpredictable propertiesat mixing, pumpingand in-situLow efficiency in rockswith a large specificsurface areaDamage to completionscheme, subsurface andsurface equipmentContaminationby chemical compoundsunbreakable subsurface

Case studies

Diverting & water-blocking

Comparison: ESN® to Classical Acidizing in Mature Oilfield (Carbonates)

Wells workover

Comparison: ESN® to Polymer (Sandstones)

Conformance control

ESN® Conformance Control Performance on Reacting Producers (Sandstones)

ESN® VS. CO2 EMISSIONS

High water cut wells operation strongly impacting carbon dioxide (CO2) emissions due to the processes related to produced water treatment and its injection back into subsurface. The water-related CO2 emissions consist of lifting energy, fluids separation energy, water transferring energy via pipeline and final water disposal. These processes bear the largest part of CO2 emission in the industry. Therefore, reducing water production directly contributes to saving energy and decreasing CO2 emission.

Fluid rate, bbl/dayOil rate, bbl/dayWater cut, %Oil rate,bbl/dayFluid rate,bbl/dayWater cut, %Time, dayafterESN®beforeESN®More oil, less waterMore water, less oil

Research Papers

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Learn more about our technology

Contacts

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