An SP76 Carrier Gas Manifold Design For a Process GC

1. An SP76 Carrier Gas Manifold Design For a Process GC ABB Process Analytics Tracy Dye Parker Hannifin Steve Doe

2. The Problem • Multiple stacked oven design restricts access from above • Carrier gas manifold needed to be serviced from the front • Bent tubing runs required for traditional manifold design • Labor intensive • Non-standard design, higher engineering costs

3. The Solution • Carrier gas and purge air regulators of SP76 design • Modular manifold that scales from 1 to 5 zones

4. Multiple bent tubing runs Multiple make-and-break fittings The Results From this … • Multiple potential leak points • Service access to regulators and gauges from above • High labor and material content • Non-standard engineering design

5. Straight, pre-fab tube runs Fewer make-and-break fittings The Results To this … • Fewer potential leak points • Easy access to regulators and gauges from the front • Low labor (no tube bends), less tubing • Standard, modular engineering design

6. SP76 Carrier Gas and Purge Manifold Design Standard single zone

7. SP76 Carrier Gas and Purge Manifold Design

8. Access to the regulators and gauges from the top is not required Regulators and gauges are serviceable from the front SP76 Carrier Gas and Purge Manifold Design