Jogler Dual Chamber Level System

Jogler Dual Chamber Level SystemDual chamber systems are often ideal for magnetic level gauges. The compact design eliminates the need for coaxial probes. Dual chamber systems also allow for multiple redundant technologies, including guided wave radars, capacitance level transmitters, and tuning fork level switches.

Advantages of Dual Chambers

  • Cuts out need for coaxial probes
  • A single probe can be easily removed from the chamber for maintenance and cleaning
  • Putting a Guided Wave Radar and a float in a single chamber requires larger pipe and flange sizes and a baffled plate between the float and the GWR coaxial probe

Disadvantages of a Single Chamber System

    Jogler Dual Chamber Level System
  • A magnetic field orientation not optimal for instrument installation
  • Radar interference due to the baffled plate
  • Float obstruction due to an extra wall in the chamber
  • Mandatory use of coaxial probe shields which are susceptible to blockage and fouling leading to
  • incorrect measurements
  • Increased cost and weight of the system
  • Remote mounting of GWR electronics when top connections to the system are necessary



HF scientific Water Quality Measurement Products Catalog

HF scientific produces instrumentation, test kits and chemical reagents used for monitoring water quality in a variety of applications. Their primary market is in the area of Industrial and Municipal water treatment, but their products are also found in industrial process control systems and marine ballast water systems.

Products Include:
  • M100+ Laboratory Turbidimeter
  • MTOL+ Online Process Turbidimeter
  • ProCal Primary Turbidity Standards for use with the Hach® 1720 c/d/e Series Online Turbidimete
  • CLX Online Residual Oxident and Chlorine Monitor
  • CLX-Ex Residual Oxidant Monitor for Hazardous Atmospheres
  • CLX-Ex2 Extended Reagent Life Online TRO and Chlorine Monitor for Hazardous Atmospheres
  • AccUView LED Online UV Analyzer
  • J.A.W. Chlorine Reagents
  • DPD Reagent Dispensers
  • Nitrification Inhibitor Dispensers



LIDAR, Non-contact Level Transmitter for Fast and Accurate Measurement

Jogler LLT-1000
Lidar (LIDAR, LiDAR) is a surveying technique that measures distance to a destination by illuminating the target with laser light and using a sensor to measure the reflected light. Differences in laser return times and wavelengths can then be used to determine distance and area. The name lidar was initially a portmanteau of light and radar, now used as an acronym for light detection and ranging. Lidar uses ultraviolet, visible, or near infrared light to sense and image objects.

Jogler's Lidar Level Transmitter LLT-1000 is a laser-based non-contact instrument that measures the level of silos, tanks, hoppers, chutes and bunkers. The LLT-1000 uses time-of-flight laser technology to measure distance. This principle of quick and accurate measurement provides many benefits over other level measurement techniques.



Alliance Technical Sales, Inc.
630-321-9646
https://alliancets.com

Inline Dissolved Oxygen Sensor Designed for Breweries

InPro6970i for brewing
InPro6970i for brewing
Oxygen in beer bottles or cans is bad. It affects the flavor and shortens shelf life, so breweries do their best to prevent oxygen getting into beer  at the filling line.  The Mettler Toledo Process Analytics InPro6970i is an inline dissolved oxygen sensor designed specifically for the needs of the brewery industry. It can measure oxygen in beer at levels of only a few parts per billion.

The sensor is inserted in the pipe at the start of the filling line, and provides real-time measurements on the oxygen content of the beer.  If the oxygen level is too high, the flow of beer is stopped to prevent the out of specification product continuing down the line.

Unlike most dissolved oxygen sensors available, the InPro6970i uses a clever optical technique for measuring oxygen. At the tip of the sensor there's a layer of molecules that absorb and emit light. These molecules are sensitive to oxygen which alters how the molecules behave. The greater the quantity of oxygen, the greater the changes in their behavior. The sensor very accurately measures these changes and sends the signal to the transmitter.  This technique is extremely fast and accurate at measuring changes in beer oxygen level, which is why it is favored by breweries. But that is not the only requirement breweries demand.  Sensors must be rugged, easy to use, and simple to maintain.The InPro6970i scores highly in all these areas. The sensor's stainless steel body is extremely robust, the unit is easily and quickly installed, and the only maintenance required is the periodic exchange of the oxygen sensitive element, the OptoCap. Intelligent Sensor Management, or ISM, is a feature of the InPro6970i that offers significant benefits to breweries. The sensor can be calibrated in a convenient location such as a lab. Upon connection to the transmitter, the system is ready to measure in only a few seconds, so measurement point down time is very short. The dynamic lifetime indicator uses sophisticated algorithms to calculate the remaining life of the sensor, breweries therefore have confidence that the sensor won't fail unexpectedly.

Contact Alliance Technical Sales for more information. Call 630-321-9646 or visit https://alliancets.com.

Oil & Gas and Power Grids Have New "Cause for Concern" from Hackers


A report released in June, from the security firm Dragos, describes a worrisome development by a hacker group named, “Xenotime” and at least two dangerous oil and gas intrusions and ongoing reconnaissance on United States power grids.

Multiple ICS (Industrial Control Sectors) sectors now face the XENOTIME threat; this means individual verticals – such as oil and gas, manufacturing, or electric – cannot ignore threats to other ICS entities because they are not specifically targeted.

The Dragos researchers have termed this threat proliferation as the world’s most dangerous cyberthreat since an event in 2017 where Xenotime had caused a serious operational outage at a crucial site in the Middle East. 

The fact that concerns cybersecurity experts the most is that this hacking attack was a malware that chose to target the facility safety processes (SIS – safety instrumentation system).

For example, when temperatures in a reactor increase to an unsafe level, an SIS will automatically start a cooling process or immediately close a valve to prevent a safety accident. The SIS safety stems are both hardware and software that combine to protect facilities from life threatening accidents.

At this point, no one is sure who is behind Xenotime. Russia has been connected to one of the critical infrastructure attacks in the Ukraine.  That attack was viewed to be the first hacker related power grid outage.

This is a “Cause for Concern” post that was published by Dragos on June 14, 2019

“While none of the electric utility targeting events has resulted in a known, successful intrusion into victim organizations to date, the persistent attempts, and expansion in scope is cause for definite concern. XENOTIME has successfully compromised several oil and gas environments which demonstrates its ability to do so in other verticals. Specifically, XENOTIME remains one of only four threats (along with ELECTRUM, Sandworm, and the entities responsible for Stuxnet) to execute a deliberate disruptive or destructive attack.

XENOTIME is the only known entity to specifically target safety instrumented systems (SIS) for disruptive or destructive purposes. Electric utility environments are significantly different from oil and gas operations in several aspects, but electric operations still have safety and protection equipment that could be targeted with similar tradecraft. XENOTIME expressing consistent, direct interest in electric utility operations is a cause for deep concern given this adversary’s willingness to compromise process safety – and thus integrity – to fulfill its mission.

XENOTIME’s expansion to another industry vertical is emblematic of an increasingly hostile industrial threat landscape. Most observed XENOTIME activity focuses on initial information gathering and access operations necessary for follow-on ICS intrusion operations. As seen in long-running state-sponsored intrusions into US, UK, and other electric infrastructure, entities are increasingly interested in the fundamentals of ICS operations and displaying all the hallmarks associated with information and access acquisition necessary to conduct future attacks. While Dragos sees no evidence at this time indicating that XENOTIME (or any other activity group, such as ELECTRUM or ALLANITE) is capable of executing a prolonged disruptive or destructive event on electric utility operations, observed activity strongly signals adversary interest in meeting the prerequisites for doing so.”

Heating Tapes: Application and Installation Tips

Heating Tape
High temperature tape (left) and
moisture & chemical resistant
tape (right).
Heating tapes are easy-to-use, ideal for a wide range of thermal applications, and inexpensive. This article will provide simple installation tips to improve your heating tape product life, application performance, and most importantly, your safety.

Why Heating Tapes?

Heating tapes offer many advantages for solving a wide range of gas, liquid, and solid heating applications. 

Advantages:
  1. Flexibility: Easily installs directly to a wide variety of surfaces and geometries (i.e. 1/4” diameter or larger piping, glassware, valves, reactors, chambers, etc.)
  2. Rapid and uniform heat-up due to high watt densities and user-configurable installations
  3. High temperature ranges
  4. Easily controlled with standard temperature controlling devices
  5. Variety of sizes, wattages, temperature ranges, and styles available to meet your exact heating requirements
Heating Tape
Always follow the manufacturer’s instructions
while installing or removing heating tape.

Step 1: Preparation

Prepare surface to be heated: Wipe the surface making sure there is no foreign material, like liquid, on the surface.  Foreign material inhibits heat transfer and liquid can damage select models of heating tape (i.e. High-Temperature Heating Tapes).  

Make a visual inspection of heating tape: We recommend that you replace the heating tape if it becomes torn or damaged.  Damaged heating tape is a safety hazard and will not operate correctly. 

Selecting the Proper Heating Tape
Heating Tape
Figure B

Selection of your tape depends on: 
  • Length, diameter, and configuration of the surface to be heated
  • Required temperature
  • Required wattage
  • Environmental conditions (i.e. likelihood heating tape will come into contact with moisture or chemicals)

Step 2: Installing your Heating Tape
Heating Tape
Figure C

Heating tape can be installed on nearly any surface due to its flexibility.  Spiral wrap the heating tape onto the surface to be heated so that the length of one entire side of the heating tape is in full contact with the surface (Figure B). The distance between spiral wraps is dependent on the uniformity requirements and the amount of available heating tape.  A minimum distance of 1/8” is required between spiral wraps to avoid damage to the heating tape.
Attach the heating tape to the surface by either using built-in tie straps (Figure C), high-temperature adhesive tape (Figure D), or mechanical clamping devices that will not cause damage to the heating tape. 
Heating Tape
Figure D

Ensure the heating tape is not kinked, twisted, or hanging free from the surface (Figure E and F). Do not overlap heating tape on itself (Figure G). This can cause damage to the heating tape due to overheating.

Do's
  • Make sure you have selected the correct heating tape for your application. BriskHeat offers a wide range of sizes, voltages, and temperature ranges.
  • Visually check your heating tape prior to use.
  • Make sure that the heating tape makes full contact with the surface to be heated.
  • Always follow the manufacturer’s instructions while installing or removing heating tape.
Heating Tape
Don't kink or overlap, apply without control, apply over
insulation, never use near flammable materials,
do not submerge, and do not use if tape is cut or damaged.
Don'ts
  • Do not overlap the heating tape over itself
  • Do not use heating tape without a controlling device
  • Do not install heating tape on top of insulation near flammable materials, submerged in liquids, or if cut in any way.
For more information about heat tapes, or any industrial heating application, contact Alliance Technical Sales by calling 630-321-9646 or by visiting https://alliancets.com