ExxonMobil Research and Engineering Company (EMRE) has awarded Lockheed Martin a contract to serve as the systems integrator in the early stage development of a next-generation open and secure automation system for process industries. Lockheed Martin will be responsible for the advanced processing architecture working with EMRE in this pre-development phase.
EMRE is continuously looking at existing processes and finding new and innovative ways of working using both internal and external ideas.
Vijay Swarup, vice president of Research and Development at ExxonMobil Research and Engineering Company said "this breakthrough initiative could help transform refining and chemical manufacturing through the use of high-speed computational components, modular software, open standards and the use of autonomous tools."
The goal for this new partnership is to design a new architecture that will control and optimize refining and chemical manufacturing facilities while enabling future equipment and information services such as preventative maintenance and fleet optimization. The design and implementation is based on architecture standards that will ensure modularity, interoperability, extensibility, reuse, portability and scalability of the new system.
“Lockheed Martin is a leader in providing open architecture and secure processing solutions for our customers,” said Paula Hartley, vice president of Advanced Product Solutions for Lockheed Martin Mission Systems and Training. “The advantages of our secure commercial processing experience combined with the expertise in applying open architecture standards provides a low risk solution for the ExxonMobil process control requirements.”
The automation platform will provide several sources of value for industrial manufacturers. The platform can be designed with intrinsic cybersecurity protection that is adaptable to emerging threats. The architecture will also promote competition and innovation in the marketplace. Lastly, interoperability, modularity and adherence to industry standards will lower the cost of integrating new system components or replacing legacy platforms.