At a Texas-based syngas plant, the thermocouples in its partial oxidation units were lasting an average of three months before failing. But after switching to WIKA’s TC84 platinum thermocouple with sapphire protection tube, the facility has not had to replace its temperature sensors for over a year.
Problem: Syngas Plant Experiences Repeated Instrument Failures
A multinational chemical company has a plant that produces syngas through the partial oxidation of a feedstock using pure oxygen. This hydrocarbon feed consists of:
- Methane: ~85–98%
- Tail gas (from an adjacent ethylene facility): ~0–10%
- Acetylene off gas (from a nearby acetylene facility): ~0–5%
- Liquid hydrocarbon (from an adjacent methanol facility): ~0–5%
The natural gas portion of the feedstock is pretreated in catalyst beds to remove much of its sulfur before entering the thermal POX reactor. After partial oxidation, the resulting crude syngas has an average composition of:
- 60% H2
- 30% CO
- ≤5% CO2
- Water and trace amounts of unreacted CH4
Failed thermocouple (non-WIKA)
The process gas had an average temperature of 1,400°C (2,552°F) and average pressure of 65 bar (943 psi). As most thermocouples are unable to tolerate temperatures past 1,200°C (2,192°F), nor are they protected from hydrogen embrittlement, the syngas plant was experiencing repeated instrument failures where the sensors in the TPOX reactor would melt, crack, or break after only an average of three months of use. They needed a more durable and longer-lasting thermocouple.
WIKA’s Solution: TC84 Thermocouple with Patented Sapphire Design
TC84 sapphire-design thermocouple
After a thorough analysis of the plant’s processes, WIKA proposed a solution: the TC84 sapphire-design thermocouple. This high-temperature thermocouple with a gas-tight sapphire protection tube has a monocrystalline structure that shields the thermocouple’s sensitive wires from hydrogen permeation and temperatures as high as 1,700°C (3,092°F). The device has a solid-machined safety chamber, a ceramic outer protection tube, a primary seal, and a secondary seal for backup protection.
After a visit to WIKA’s R&D Center for Temperature Measurement in Houston, the chemical company was impressed by our expertise and capabilities, and agreed to a trial run. They replaced all six thermocouples in one partial oxidation reactor with TC84s of various lengths, inserted horizontally using a flange connection. After nine months where no thermocouples failed, the happy customer decided to standardize and replace all the thermocouples in the other three POX units with WIKA’s thermocouple with sapphire protection tube.
With the TC84, this partial oxidation plant was able to:
- Save money and time by not having to replace sensors every three months. As of publication time, the TC84 has been in service for over 12 months.
- Repair rather replace worn sensors, when the time comes.
- Minimize maintenance by eliminating the need for a purge system.
- Increase production by minimizing the number of outages due to inaccurate instrumentation data.
- Increase operational flexibility with minimum failures due to repeated heat cycles.
WIKA USA: Your Partner in the Process Industry
WIKA is a global leader in the design and manufacturing of quality measuring instruments that stand up to extreme temperatures, high pressures, and other challenging conditions where our competitors’ sensors fail. And behind every device is a team of industry experts, product specialists, and support staff. Contact us for more information about innovative measuring solutions for your chemical or petrochemical facility.
This article is continuation of Partial Oxidation (POX) Reactions Pose Challenges for Thermocouples and Other Measuring Instruments.
Product mentioned in this blog:
• TC84 sapphire-design thermocouple for high-temperature measurements