ARK Engineering is a premier provider of engineering services including AC & DC Electrical Interference Analysis, AC Mitigation Design, and Cathodic Protection Design. ARK Engineering provides customized services and individual solutions to complex engineering problems. ARK Engineering is dedicated to providing superior quality and customer satisfaction.
We guarantee all of our work. For Installation, testing, inspection or maintenance of AC mitigation and corrosion control systems or other field services, please visit ARK Field Services at ARKFieldServices.com.
We guarantee all of our work. For Installation, testing, inspection or maintenance of AC mitigation and corrosion control systems or other field services, please visit ARK Field Services at ARKFieldServices.com.
Services
We began and continue to operate on the premise that experience, knowledge, and performance in specialized areas of engineering are needed by various industries on an "as needed" basis. This alternative results in quality service and technical "know how" without the overhead costs of full-time staff.
ARK Engineering is a pioneer in the analysis and mitigation design for AC and DC Interference and AC Corrosion issues. Utilizing state-of-the-art software and over 30 years of industry experience, our staff models, analyzes, and designs cost effective solutions to mitigate these issues for personnel safety and structural integrity.
Pipelines, railroads, and telecommunication systems are often designed to share rights-of way with high voltage electric circuits. The induced voltages and currents due to the AC interference effects can cause a number of safety issues and pipeline integrity damage if not properly mitigated. AC interference effects have been identified as a cause of AC Corrosion mechanisms on pipelines.
Under the direction of a Project Manager, design and specification of materials for cathodic protection systems including impressed current and galvanic anode systems for pipelines and other metallic structures. Cathodic protection system design decisions for design of a vertical groundbed vs. a horizontal groundbed.
