Fundamentally, cleanrooms exist to facilitate process segregation. Whether your mission is to prevent product contamination, or to ensure process containment or both, O’Neal-designed facilities provide cleanroom environments that protect the integrity of your product and, when necessary, protect your personnel from process hazards.
Clean processing is our thing. You can count on O’Neal to deliver designs for classified cleanroom environments for precise control of temperature, humidity and/or static electricity, as well as airborne particulates, bioburden, trace chemicals or metals that may be incompatible with a process or product. Our core competencies in cleanroom design, HVAC, and central utilities support both custom and modular installations.
Focus on the mission. O’Neal’s portfolio of projects includes a variety of cleanroom design applications and environmental requirements in diverse industries such as biotech, pharmaceuticals, medical device, vaccines, semiconductors and nanotechnology. Our team has extensive experience designing cleanrooms for cGMP process contamination control, as well as process containment, including highly potent compounds and biohazard applications.
An integrated approach. O’Neal’s engineering approach integrates facility programming with mechanical systems design to deliver cost-effective facility solutions that satisfy both process and regulatory requirements. O’Neal also designs closed process systems for segregated processing. As part of our integrated engineering offerings, we can execute a systematic analysis of your operations to find the optimum combination of environmental, equipment, and procedural controls for your application. Bottom line, our cleanroom design approach for manufacturing environments is focused on the facility function to maximize flexibility and provide the best overall solution for our clients. For exceptional environments to support your manufacturing process, you can trust O’Neal to deliver cleanroom design that assures your quality and compliance goals are met.