Designed for experiments on microfluidic chips, this setup enables visualization of two-phase fluid flow, monitoring of sediment and emulsion formation, ensures repeatability of experiments, and their rapid execution.

A high-precision device for working with gases and fluids under high pressure and temperature. It has two sets of syringe reservoirs to achieve maximum pressures up to 100 MPa, making it ideal for microfluidic systems and small-volume experiments.

A unique instrument with a separating micro-column for analyzing a mixture of organic substances, equipped with a highly sensitive detector. Designed for use in both laboratory and field conditions.

Microfluidics in medicine represents a promising field that combines modern achievements in engineering, biology, and chemistry to develop innovative medical devices and technologies. LABADVANCE offers the development of specialized microfluidic systems and portable devices tailored to the specific needs of medical and biochemical laboratories

PVT (Pressure-Volume-Temperature) studies conducted by LABADVANCE help to understand and predict the behavior of fluids under reservoir conditions. Using microfluidic techniques, these studies significantly reduce costs and increase accuracy of results, enabling the determination of key parameters such as saturation pressure, compressibility factor, and oil formation volume factor.

LABADVANCE's hydraulic fracturing studies aim to assess the backflow of oil after hydraulic fracturing fluid impact, simulating the processes occurring during hydraulic fracturing. With microfluidic technology, these experiments rapidly provide data on the interaction of oil with the injection agent under representative reservoir conditions, facilitating the selection of the best additives for fracturing fluids.

Enhanced oil recovery (EOR) methods developed by LABADVANCE utilize microfluidic experiments to optimize approaches to increase oil extraction from reservoirs. Experiments on microfluidic chips allow for visualization of two-phase fluid flow, monitoring of sediment and emulsion formation, ensuring high speed of execution and repeatability of experiments.

Studies on minimum miscibility pressure (MMP) with a focus on determining the conditions for gas miscibility with reservoir oil are an important part of LABADVANCE’s work. The application of microfluidic technologies significantly reduces the volume of oil needed for experiments, cuts down their duration, while improving the accuracy of MMP determination and facilitating visual control of experimental processes.