Siemens’ Zimpro® Electro-oxidation (ZEO) process addresses the issues of — and simplifies — the treatment of troublesome wastewaters. This adaptation of the well-established Zimpro® Wet Air Oxidation (WAO) process offers a simple yet robust solution to many of today’s high-strength, low-volume wastewater treatment issues. ZEO uses electricity and long-lasting synthetic electrodes to oxidize/destroy highly toxic spent caustic, and other wastewaters. Only requiring electricity and cooling water, the process is economically attractive for smaller facilities. Learn more here.
By Bill Sholette and Chris Fournet, Endress+Hauser, Inc.
The purpose of this paper is to discuss how to decrease alarms due to redundant level devices not matching, especially in applications with high pressure and/or high temperature. The importance of gas phase compensation (GPC) and how it affects level readings of guided wave radar (GWR) devices is critical. The presence of polar gas also can have an effect on the accuracy of any GWR that does not have GPC when installed in applications where high temperature or pressure is present.
Optical gas imaging with infrared cameras excels at detecting gas leaks, but some businesses that might find it useful are put off by the cost. Now a new generation of cameras that rely on uncooled detectors is bringing OGI to more users.
A compact and IMO-certified solution for permanent and long-term oil and gas installations, the OMNIPURE Series 64 system is the newest and most advanced offshore marine sanitation devices. The easy to operate system offers minimal maintenance, simplified operations, compact design, and a completely hands-off solids management process that is compliant with International Maritime Organization (IMO) standards.
New tests recently performed by DM Petroleum Operations Company with the FPI Mag® Flow Meter from McCrometer continue to confirm the flow meter’s accurate performance and reliability on two rugged Texas brine disposal lines supporting the U.S. Strategic Petroleum Reserve (SPR).