Manning Vent Line Sensor Installation Guide

Instruction andInstallation ManualVL-F7-N4-LPA-MKVent Line Sensor for Ammonia andOther RefrigerantsLinear 4/20 mA Output 

Special Caution

Always assume that a relief valve can release at any moment. Always employ a “buddy” system, having help with you and watching what you are doing at all times. Always use safety goggles or a safety face shield, and always use gloves and have additional protective equipment easily available, including eye flushing equipment and a breathing apparatus.Personnel should be well trained and protected against falling if a sudden refrigerant leak startles the service person. Make sure there is always an escape route in case of a refrigerant release.

Introduction

This manual has been prepared to help in the use and installation of the Manning Systems VL-F7-LPA Vent Line Sensor. This manual will convey the operating details of the sensor, ensure proper installation, and demonstrate start-up and routine maintenance procedures.This manual must be carefully followed by all individuals who have or will have the responsibility for using or servicing the sensor. Warranties made by Manning Systems, Inc. with respect to this equipment will be voided if the equipment is not used and serviced in accordance with the instructions in this manual. If in doubt about a procedure, please contact Manning Systems, Inc. before proceeding.

Sensor Description

The Manning Systems VL-F7-LPA Vent Line Sensor has a solid-state sensor embedded in a 2″ forged steel bull plug. A NEMA 4, 16 gauge steel box is fastened to the bull plug and houses a terminal strip. This is then wired to the current pre-amp which transmits a linear 4/20 mA signal to the readout equipment. The standard trip points are normally in the 5,000 ppm to 10,000 ppm range. Manning Systems highly recommends that trip points be in this range due to the fact that minute amounts of a refrigerant released in the very small volume of a relief header will cause very high gas concentrations, normally in the percent range. Trying to have lower setpoints almost alwaysresults in false trips.The solid-state sensor used in this design must be considered “broad-spectrum,” i.e., it will detect many gases. Normally this is not a problem due to the higher setpoints commonly used.The VL-F7-LPA Vent Line Sensor should only be used in non-hazardous locations. Explosion-proof designs are not available at this time.The sensors normally exhibit long life (five to eight years) unless exposed to very high gas concentrations for long periods or immersed in liquid refrigerant.Proper location in mounting the vent line sensor is the key to long and trouble-free life. Carefully review the mounting instruction portion of this manual.

Sensor Description continued

System SpecificationsMethod: Solid-stateRange:

• Ammonia – 0 to 10,000 ppm (1%)
• CFC/HCFC/HFCs – 0 to 1,000 ppm (depending on refrigerant)Output: Linear 4/20 mA – connects to all Manning Systems readouts or other devices capable of accepting a 4/20 mA signalPower Requirements: Powered directly from Manning Systems readouts or, when used as 4/20 mA pre-amp and sensor only, requires 17/24 VDC at 200 mAOperating Temperatures: –20° F to +120° F

Enclosures:

• Sensor – Aluminum NEMA 4
• Pre-amp – Stainless Steel NEMA 4

Weight:

• 3 lbs., sensor only
•  15 lbs., with mounting kit

Dimensions:

• Sensor – 4 1/2″ x 3 1/8″ x 3 1/8″
• 4/20 mA pre-amp enclosure – 6″ x 4″ x 4″

Cable Requirements:

• Pre-amp to readout – #18/3 shielded cable(Belden #8770), maximum run length 1,500 feet
• Sensor to pre-amp – #16 AWG, 4 conductors, non-shielded for runs up to 25 feet

Specifications are subject to change without notice.

Installation

A Locating the VL-F7-LPA in a Vent Line System

Discharging to the atmosphere, vent line sensors must be mounted within one or two feet from discharge into the air.Over 95% of all problems experienced with the VL Vent Line Sensor have been due to mounting the sensor away from the discharge, usually lower into the system, below the roofline. In this lower area you will encounter residual oil from previous releases, bacterial action due to moisture and heat, pipe coating residuals and minute relief valve weeping. All this action is addictive and is a sure cause for trouble.See Figure 2 which shows where to mount the vent line sensor. Important mounting considerations:

• Make sure discharge does not come down on top of sensor, i.e., hit the sensor or maintenance personnel when working on sensor.
• Weld nipple to a vertical pipe.
• Do provide a plug or means of inducing a draft through the vent header to remove residual refrigerant after a leak. (Check with local codes to see what is allowed in your area before doing this.) Inducing an easy means of clearing the header will help in troubleshooting a weeping relief valve.
• Safety – Always follow accepted industry practice by using a face shield and gloves when working on the vent line sensor or any part of the vent line system. Always assume a relief valve could release at any moment. Always treat vent line systems with extreme caution (see Figure 2).

B Mounting the VL-F7-LPA in a Relief System VentingDirectly into a Water TankDue to numerous code requirements, a common practice is to plumb vent line systems to discharge directly into water tank. Even though this seems like a very simple and safe way to protect from atmospheric discharge, it presents some unique challenges to the refrigerationdesigner in assuring a safe relief system. It also presents challenges in where to mount the vent line sensor.The vent line sensor was developed over the years for monitoring atmospheric discharge of vent lines. When properly mounted as described in Section A, it is an extremely reliable method of detecting releases to the atmosphere.

Installation continued

The advent of the water dump tank utilizing a standard water level covering the relief header discharge presents the vent line sensor with some unique challenges. There are several possible mounting locations as follows:

• Water tank atmospheric vent. The simplest and most trouble-free method of mounting a vent line sensor is in this location. This location will not catch the small weepers but only the larger discharges resulting in NH3 vapor escaping from the water tank.This method requires no compressed air venting and the resulting problems this can cause. To help eliminate water condensation on the sensor, remove the 3/4″ test plug to allow ventilation across the sensor (see Figure 3).
• Mounting the sensor between the water seal and relief valves. After years of actual field experience, this location has proven the most difficult. There have been occasions where the water has been siphoned back into the vent header, completely immersing the vent line sensor and relief valves.
•  Mounted with compressed air purge. The most successful systems have used compressed air venting into the header as shown in Figure 4. It is essential that this is dry air. Small compressors dedicated to this have been marginally effective due to the water condensed during the compression cycle. It is essential the compressed air be dry in order to help purge the complete vent line headerand also to compensate for the moisture migration from the water seal. Process facilities that have plant compressed air work the best when utilizing a large dedicated dryer for the air injection.The purge air will cause a small pressure to build due to the water “head” of the tank. A water head of 15 feet to 20 feet will cause the sensor to be 30 to 40 percent less sensitive due to the higher air pressure. This is normally not a problem due to the high refrigerant concentrations needed for a trip condition (see Figure 4).

In summary, if at all possible mount the vent line sensor on the tank atmospheric vent and utilize a water monitoring method such as pH in the water tank.

C WiringFigure 5 presents wiring information for the VL-F7-LPA.Electrical wiring must comply with all applicable code plant equipment that may be involved and operating conditions should be discussed with local operating personnel to determine if any special needs should be taken into account.Nearly all start-up problems are due to improper wiring or monitor configuration. Please follow this guideline carefully.Between the current pre-amp and monitoring equipment using three conductors, #18 AWG, insulated, stranded, shielded copper cable. Between the vent line sensor current pre-amp use #16 AWG, four conductors, nonshielded.Do not pull sensor wiring with AC power cables. This will cause electrical interference. Be sure there are no breaks or splices in sensor wiring runs. If cable runs cannot be made without a splice, all connections must be soldered. Soldering should be done using a rosin flux to tie the connecting ends of sensor wires to ensure positive and long-lasting contact.Ground the shield at the main control panel. Tape all exposed shield wire at the sensor to insulate it from the enclosure.All penetrations into a refrigerated room should be sealed to prevent condensate from forming in the conduit and dripping into the sensor enclosure. Silicone should not be used near the sensor, because silicone can damage the sensor.Make drip loops for cables going into sensor housings.Follow the mounting instructions on the Pre-Amp enclosure (…This End Up). See Figure 2.Electrical Power: 24 VDC regulated, 300 mA.Output: Linear 4/20 mA output corresponding to 0–1%.Monitoring equipment may have a maximum input impedance of 250 ohms.Cable Recommendation, Pre-Amp to Monitoring Device:#18/3 shielded cable (Belden #8770 or equivalent). The length of cable to pre-amp should be no greater than 1,500 feet.Use only the existing punched holes for connections to the pre-amp.Cable Recommendation, Vent Line Sensor to Pre-Amp:#16 AWG, 4 conductors non-shielded. The length of cable from the vent line sensor to pre-amp should be no greater than 25 feet. Use only the existing punched holes for connections to the pre-amp.Monitoring: The VL-F7-LPA Sensor may be monitored by the Manning Systems GM-10, GM-4, GM-1, GM-JR or another appropriately configured system. Monitoring equipment must be configured to indicate a fault if the signal is below 1.5 mA. A signal above 20 mA must be considered a high gas concentration.

Operation

A Start-Up ProceduresBefore applying power, make a final check of all wiring for continuity, shorts, grounds, etc. It is usually best to disconnect external alarms and other equipment from the sensor until the initial start-up procedures are completed.After power-up, allow 24 hours for the system to stabilize before testing the sensors. Because sensors are normally located at a distance from the main unit, the test time required and accuracy of the response checks will be improved if two people perform the start-upprocedures and use radio contact.Start-Up Test:

• One person exposes each sensor to a small amount of the gas that is being monitored.
•  The second person stays at the control unit to determine that each sensor, when exposed to the gas fumes, is connected to the proper input and responds, causing appropriate alarm functions.To do this preliminary check, there are two simple possibilities:
• Remove the full 2″ test plugin the tee. Soak a small rag in “Parsons Ammonia Cleaner” and stuff this rag up the 2″ tee to expose the sensor.
• Remove the small 3/4″ plug in the tee and inject a small amount of propane/butane from an unlit plumber’s torch.Either of the above methods will work for the ammonia or halocarbon vent line sensor as they both use broad-spectrum sensors.

B CalibrationEach Vent Line Sensor has been factory tested with a calibrated gas sample. Information is noted on the datasheet provided with each sensor.Due to environmental differences and background gases, the installed clean air signal may be different than it was during factory calibration. This difference can be zeroed out.

Zero Calibration: After the unit is installed and has been powered up for a minimum of 24 hours, the unit should be zero calibrated by the following:

• Be sure the unit is in clean air, or apply zero air at 0.8 L/min.
• Adjust the zero pot until the sensor outputs 4.0 mA (40 mV from Test [–] to Test [+]). Span Calibration: The unit is factory calibrated and normally does not need to be spanned. Do not adjust the span pot without certified calibration gas! If span adjustment is required, the following procedure will span the unit:
• Perform zero adjustments before spanning
• Apply to span gas at 0.8 L/min (span gas must be in air, not nitrogen or another carrier).
• After span gas has been on the sensor for two minutes, adjust the span pot until the correct output is achieved.Calibration kits are available from Manning Systems.Calibration of vent line sensors is normally done in the field by using the simple method described under “StartUp Procedures” where the sensor is challenged with gas and the proper outputs and trips are observed.(The challenge gas must cause a proper  alarm trip.)In a vent line the recommended trip point level is approximately 17 mA.  Lower setpoints can result in false trips. Never set alarm points higher than 20 mA.If certified gas samples are required, contact Manning Systems for gases available and to discuss techniques in calibration depending on how the vent line sensor is mounted.

Operation continued

C TroubleshootingThe greatest probability for trouble is reversed or incorrect wiring. Always be consistent with color codes and double-check terminal screw tightness.If the sensor output is 0.5 mA: The vent line pre-amp continuously monitors the status of the sensor and, if fault conditions arise, the red FLT LED in the pre-amp will light (see Figure 6). After a short time delay, the pre-amp will output a signal of 0.5 mA. Monitoring equipment must be configured to indicate a fault if the signal is less than 1.5 mA.First, check for proper color codes or loose wires to sensors labeled “O O R R” on both the pre-amp and vent line sensor.Second, if the FLT LED is lit continuously, remove the Vent Line Sensor junction box cover (see Figure 5). With power off, measure the resistance across the “RR” (Red Red) terminals which should be approximately 30 ohms. If this is an open circuit, a replacement sensor isrequired. Contact Manning Systems. If the FLT LED is flashing, this indicates a faulty sensor. Contact Manning Systems for a replacement sensor.If the sensor output is 0 mA: First, verify +24 VDC at the sensor terminal block (see Figure 6, Note 2). Second, check voltage between Test– and Test+ (see Figure 6, Note 1). Voltage should be in the range of 40 to 200 mV corresponding to an actual current flow of 4 to 20 mA. If this voltage is 0 mV, the signal has no path to the ground. Check to monitor equipment connections and configuration. Input impedance must be 250 ohms or less.If sensor output indicates a gas concentration when the vent line appears clean: Remove the 3/4″ vent plug bushing carefully and you should observe a signal decrease. Weeping pressure relief valves could be the problem. Remove the full 2″ plug for greater ventilation.Always do the testing at the sensor with special caution as all vent line systems could discharge at any time. Always be prepared and wear appropriate protective gear such as a face shield and gloves.

A high signal can also be caused by a lack of oxygen if the sensor is located more than two feet from the atmospheric discharge.See the mounting instructions for proper mounting techniques.Contact Manning Systems for more details if you cannot identify the problem.D MaintenanceManning Systems recommends that as a minimum each sensor be challenged with a gas sample once each six (6) months.Also, the signal being sent by the sensor should be logged on a monthly basis.During the gas challenge test, all alarm outputs should be confirmed and logged to ensure system integrity.E Replacement PartsFor replacement parts, contact Manning Systems, Inc.Be sure to give the serial number of the unit.

Limited Warranty

1. Limited WarrantyHoneywell Analytics, Inc. (”Honeywell”) warrants to the original purchaser and/or ultimate customer (”Purchaser”) of Honeywell’s products (”Product”) that any part thereof proves to be defective in material or workmanship within eighteen months of the dateof shipment by Honeywell or twelve months from the date of first use by the purchaser, whichever comes first, such defective part will be repaired or replaced, free of charge, at Honeywell’s discretion if shipped prepaid to Honeywell Analytics at 405 Barclay BoulevLincolnshire, Illinois 60069, in a package equal to or in the original container. The Product will be returned freight prepaid and repaired or replaced if it is determined by Honeywell that the part failed due to defective materials or workmanship. The repair or replacement of any such defective part shall be Honeywell’s sole and exclusive responsibility and liability under the limited warranty.
2. ExclusionsA. If gas sensors are part of the Product, the gas sensor is covered by a twelve-month limited warranty of the manufacturer.B. If gas sensors are covered by this limited warranty, the gas sensor is subject to inspection by Honeywell for extended exposure to excessive gas concentrations if a claim by the Purchaser is made under this limited warranty. Should such inspection indicate that the gas sensor has been expended rather than failed prematurely, this limited warranty shall not apply to the Product.C. This limited warranty does not cover consumable items such as batteries or items subject to wear or periodic replacement including lamps, fuses, valves, vanes, sensor elements, cartridges, or filter elements.
3. Warranty Limitation and ExclusionHoneywell will have no further obligation under this limited warranty. All warranty obligations of Honeywell are extinguishable if the Product has been subject to abuse, misuse, negligence, or accident or if the Purchaser fails to perform any of the duties set forth in this limited warranty or if the Product has not been operated in accordance with the instructions, or if the Product serial number has been removed or altered.
4. Disclaimer of Unstated WarrantiesTHE WARRANTY PRINTED ABOVE IS THE ONLY WARRANTY APPLICABLE TO THIS PURCHASE. ALL OTHER WARRANTIES, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE ARE HEREBY DISCLAIMED.
5. Limitation of LiabilityIT IS UNDERSTOOD AND AGREED THAT HONEYWELL’S LIABILITY, WHETHER IN CONTRACT, IN TORT, UNDERANY WARRANTY, IN NEGLIGENCE OR OTHERWISE SHALL NOT EXCEED THE AMOUNT OF THE PURCHASE PRICE PAID BY THE PURCHASER FOR THE PRODUCT, AND UNDER NO CIRCUMSTANCES SHALL HONEYWELL BE LIABLE FOR SPECIAL, INDIRECT, OR CONSEQUENTIAL DAMAGES. THE PRICE STATED FOR THE PRODUCT IS A CONSIDERATION LIMITING HONEYWELL’S LIABILITY. NO ACTION, REGARDLESS OF FORM, ARISING OUT OF THE TRANSACTIONS UNDER THIS WARRANTY MAY BE BROUGHT BY THE PURCHASER MORE THAN ONE YEAR AFTER THE CAUSE OF ACTION HAS OCCURRED.

Manning VL-F7-LPA Gas Sensor 18394 VLF7LPA 07/2016 REVH

405 Barclay BoulevardLincolnshire, Illinois 60069Tel: +1 847 955 8200Toll free: +1 800 538 0363Fax: +1 847 955 8208[email protected]

18394 VLF7LPA 07/2016 REV H