Press Release Summary:
Used to help ensure consistent product quality in hygienic processes subject to regular clean-in-place/sterilize-in-place (CIP/SIP) regimens, Rosemount™ 3051HT utilizes pressure sensor technology andÂ hygienic design to maintain measurement stability for up toÂ 5 years. Transmitter stabilizes quickly after cleaning cycles and returns to calibrated settings. This enables manufacturers to produce repeatable batches at accelerated rate.
Original Press Release:
Emerson Introduces Pressure Transmitter for Hygienic Process Applications
Rosemount™ 3051HT Hygienic Pressure Transmitter helps ensure consistent product quality in hygienic processes
AUSTIN, TEXAS - Emerson Process Management introduces the Rosemount 3051HT Hygienic Pressure Transmitter, a robust and reliable solution for hygienic applications in which regular clean-in-place/sterilize-in-place (CIP/SIP) regimens can cause measurement devices to become unstable, and batch quality to deteriorate.
Biotech, pharmaceutical and food and beverage industries are under constant pressure to increase throughput while maintaining high product quality. Yet routine CIP/SIP and washdown procedures in hygienic processes often cause measurement devices to become unstable or fail, leading to unscheduled maintenance, reduced batch quality and even rejected batches. The Rosemount 3051HT utilizes proven, reliable Rosemount pressure sensor technology and a hygienic design to maintain measurement stability for up to five years, enabling repeatable batch quality and high yields.
Pressure transmitters measuring hygienic processes experience regular cycles of high-temperature CIP/SIP cleaning followed by cool-down periods during which they must return to their original calibration settings. After these cleaning cycles, many transmitters cannot return to calibrated settings within a standard time interval. Over time, they can drift incrementally further out of calibration and produce inaccurate measurements, leading to rejected batches, loss of product through tank overflow, or extra processing time in filtration or separation applications. Maintenance may have to recalibrate the instruments after every batch to insure accurate measurements, increasing costs and reducing output. The Rosemount 3051HT stabilizes quickly after cleaning cycles, returning to its calibrated settings and allowing manufacturers to produce repeatable batches, faster.
“The Rosemount 3051HT is designed to help customers in sanitary production areas achieve higher yields that exceed production targets,” said Scott Nelson, vice president and general manager of Rosemount pressure products at Emerson Process Management. “This high-stability, hygienic transmitter saves manufacturers time by requiring less frequent device calibration and streamlining maintenance through advanced sensor technology and diagnostics.”
To learn more about the Rosemount 3051HT Hygienic Pressure Transmitter, visit www.EmersonProcess.com/Rosemount-3051HT.
About Emerson Process Management
Emerson Process Management (www.EmersonProcess.com), an Emerson business, is a leader in helping businesses automate their production, processing and distribution in the chemical, oil and gas, refining, pulp and paper, power, water and wastewater treatment, mining and metals, food and beverage, life sciences and other industries. The company combines superior products and technology with industry-specific engineering, consulting, project management and maintenance services. Its brands include Bettis™, DeltaV™, Fisher™, Micro Motion™, Ovation™ and Rosemount™.
Emerson (NYSE: EMR), based in St. Louis, Missouri (USA), is a global leader in bringing technology and engineering together to provide innovative solutions for customers in industrial, commercial, and consumer markets around the world. The company is comprised of five business segments: Process Management, Industrial Automation, Network Power, Climate Technologies, and Commercial & Residential Solutions. Sales in fiscal 2015 were $22.3 billion. For more information, visit Emerson.com.
Deanna Johnson, Emerson Process Management