Advanced Pneumatic and Hydraulic Solutions for High-Pressure Systems
Evolution Motion Solution Systems builds high-pressure systems up to 90,000 psi for liquid and gaseous media, including hydrogen, nitrogen, water, and natural gas, for industries such as oil and gas, manufacturing, aerospace, and mining. With the ability to build simple test skids or advanced systems, we can create complete solutions that include automated control systems and data acquisition. Systems uses only high-quality 316 stainless steel tubing and fitting assembled in-house by qualified technicians. All high-pressure systems undergo rigorous test procedures before shipment.
High-Pressure Liquid Pumps, Boosters and Compressors
Evolution proudly represents Haskel, the leading manufacturer of high-pressure liquid pumps and gas boosters. Together, we offer a combined 140+ years of experience in engineering high-pressure systems for liquid and gaseous media.
Haskel provides pneumatic air-driven liquid pumps as a low-cost, highly reliable way of generating and maintaining static medium-to-high pressure. These pneumatic pumps are positive displacement pumps that offer a safe, reliable, and economical source of hydraulic pressure. By converting compressed air into hydraulic power, the pumps can perform a hydrostatic pressure test on a component for an extended period and hold it at a set pressure.
Pneumatic-driven gas boosters efficiently and flexibly deliver high-pressure gases without the risk of heat, flame, or spark. With the ability to manage almost all industrial gases, these robust, reliable, and compact gas boosters are ideal for gas pressure increases, high-pressure gas transference, cylinder charging, and scavenging. The gas boosters can stall at any predetermined pressure and hold the fixed pressure without consuming power or generating heat.
Hydraulic boosters and compressors are configurable in a wide range of critical high-pressure applications for various fields and hydraulic systems. These applications are expertly engineered to safely and reliably handle flows required for critical, high-pressure gas compression and transfer needs, including hydrogen fuel cell applications.