Honeywell BWTM Ultra Portable Five Gas Detector with Internal Pump User Guide

June 9, 2024
Honeywell

BWTM Ultra Portable Five Gas Detector with Internal Pump
User Guide
Honeywell BWTM Ultra Portable Five Gas Detector with Internal
Pump

Introduction

The Honeywell BW™ Ultra gas detector warns of hazardous gas at levels above user-defined alarm setpoints.
The detector is a personal safety device. It is your responsibility to respond properly to the alarm.
Monitored Gases
The detector can monitor up to five gases at a time.
Refer to the Honeywell BW™ Ultra User Manual for the full list of gases.
What’s in the Box

  • Honeywell BW™ Ultra gas detector
  • Battery (factory-installed)
  • Charging adapter
  • 1 Dust porous filter 7/16”
  • 5 Pump filters
  • Quick Reference Guide
  • Screwdriver telescope with double end
  • 3m PVC tube
  • 5 Assembly-Hydrophobic filter
  • 2 Fitting male Luer-Lock to 1/8”
  • 1 screen protector

Safety Information

Use the detector only as specified in this manual, otherwise, the protection provided by the detector may be impaired.

  • Only the instrument capable of sounding the alarms and showing readings on a display should be used for immediate safety critical use. Wireless communication and infrastructure are only for informational monitoring.
  • Use only Honeywell HU-BAT (P/N: 50122982-130) battery pack. Using any other battery can cause an explosion or fire.
  • Deactivating the detector by removing the battery pack may cause improper operation and harm the detector.
  • Use only Honeywell approved battery charger, that is certified for SELV/LVLC (isolated) with an output Um of 6.3V.
  • If using the detector near its upper or lower operating temperature, Honeywell recommends zeroing or activating the detector in that environment.
  • Charge the detector before first-time use. Honeywell recommends the detector also be charged after every workday.
  • Calibrate the device on a regular schedule, depending on use and sensor exposure to poisons and contaminants. Honeywell recommends calibrating at least once every six months.
  • For optimal performance, periodically zero the sensor in a normal atmosphere (20.9% v/v O2) that is free of hazardous gas.
  • The combustible sensor is factory calibrated to 50% LEL methane. If monitoring a different combustible gas in the % LEL range, calibrate the sensor using the appropriate gas.
  • Only the combustible gas detection portion of this detector has been assessed for performance by CSA standard.
  • Honeywell recommends that the combustible sensor is checked with a known concentration of calibration gas after any exposure to contaminants/poisons such as sulfur compounds, silicone vapors, halogenated compounds, etc.
  • Honeywell recommends that the sensors be bump tested before each day’s use to confirm their ability to respond to gas. Manually verify that the audible, visual, and vibrator alarms are activated. Calibrate if the readings are not within the specified limits.
  • Portable safety gas detectors are life safety devices. The accuracy of ambient gas reading(s) is dependent upon factors such as accuracy of the calibration gas standard used for calibration and frequency of calibration.
  • The detector is designed for use only in potentially explosive atmospheres where oxygen concentrations do not exceed 20.9% (v/v). Oxygen deficient atmospheres (<10% v/v) may suppress some sensor outputs.
  • Extended exposure of the detector to certain concentrations of combustible gases and air may stress the detector element and seriously affect its performance. If an alarm occurs due to a high concentration of combustible gases, a calibration should be performed. If necessary, replace the sensor.
  • High concentrations of certain toxic gases, for example, H2S, may hurt the LEL sensor. This effect, known as inhibition, is usually temporary but in extreme circumstances can impair the sensitivity of the LEL sensor after any gas exposure that causes alarm in the toxic gas sensors.
  • The Honeywell BW™ Ultra is provided with an antistatic coating over the LCD window to minimize the risk of ignition due to electrostatic discharge. Periodic inspection of this coating is required to ensure no degradation, delamination, abrasions or other deformities to this surface.
  • Care must be taken to avoid exposure to excessive heat, harsh chemicals or solvents, sharp edges and abrasive surfaces. Clean the exterior with a soft, damp cloth.
  • When Honeywell BW™ Ultra detector is equipped with Infrared (IR) sensor, do NOT use BW Ultra at an atmospheric pressure exceeding 110 kPa (1.1 bar). The IR sensor used in the detector is intended for use at atmospheric pressure and shall not be used in pressures exceeding 110 kPa (1.1 bar).
  • DO NOT rely on the Bluetooth BW Ultra output indication for security purposes.

WARNINGS

  • Warning: Substitution of components may impair Intrinsic Safety.
  • Do not install or remove any components when an explosive gas atmosphere is present..
  • Protect the combustible sensor from exposure to lead compounds, silicones, and chlorinated hydrocarbons. Although certain organic vapors (such as leaded gasoline and halogenated hydrocarbons) can temporarily inhibit sensor performance, in most cases the sensor will recover after calibration.
  • Caution: High off-scale LEL readings may indicate an explosive concentration.
  • Any rapid up scaling reading followed by a declining or erratic reading may indicate a gas concentration beyond the upper scale limit, which can be hazardous.
  • Products may contain materials that are regulated for transportation under domestic and international dangerous goods regulations. Return product in compliance with appropriate dangerous goods regulations. Contact freight carrier for further instructions.
  • The lithium battery may present a risk of fire or chemical burn hazard if misused. Do not disassemble, incinerate, or heat above 100°C (212°F), or incinerate. Batteries exposed to heat at 130°C (266°F) for 10 minutes can cause fire and explosion. Batteries must only be charged in a safe area free of hazardous gas.
  • Dispose of used lithium cells immediately. Do not mix batteries with the solid waste stream.
    Spent batteries should be disposed of by a qualified recycler or hazardous materials handler.

Appearance

  1. Visual alarm indicator
  2. Exhaust port
  3. Screen
  4. Button
  5. Beeper Aperture
  6. Pump inlet
  7. Alligator clip
  8. Pump assembly
  9. Charging connector and IR Interface

Screen Icons
Several icons are displayed in the detector’s screen as conditions dictate.

| BLE| | Pump/header
---|---|---|---
| BLE Pairing Error| | Pump passed
| Paired| | Pump critical fail
| Pairing failed| ****| Warning/failure/error/low battery
| Stealth mode enabled| | Hole watch mode high
| Battery -three levels| | Hole watch mode low
| Low battery| | Hole watch -Oxygen bar
| IR LINK connection| | Correction factor
| Calibration passed| | Peak gas exposure
| Calibration failed| | Press button
| Calibration cancelled| | Press and hold button
| Target gas| | Inert mode
| Bump test cancelled| | Sensor failure
| Bump test passed| | STEL alarm
| Bump test failed| | TWA alarm
| Over limit alarm| | Firmware update in progress
| High alarm| | Sensor disabled
| Low alarm| | This icon flashes to indicate regular operation without any
gas alarms or functional errors

Alarms
When the detector goes into alarm it flashes, vibrates, and produces a loud siren noise. Depending on the type of alarm, these flashes, vibrations, and noises will be different.
There are ten types of alarms.

• Low alarm • Sensor Failure alarm
• High alarm • Over-Limit alarm
• TWA alarm • Normal Deactivation
• STEL alarm • Low battery alarm
• Multi alarm • Critical battery alarm

NOTE: In Stealth mode the Honeywell BW™ Ultra only vibrates.
IMPORTANT: Regardless, when a detector goes into alarm, always take appropriate action. Never ignore or dismiss an alarm.
For more information on the alarms, refer to the Honeywell BW™ Ultra User Manual.

There are four main menu items.

  • See Information
  • Start Bump Test
  • Zero Sensors
  • Start Calibration
  1. Double pressing the button displays all four options on the screen. See Information is selected and highlighted by default.
  2. Press the button to transition the selection to the next choice.
  3. Press and hold for three seconds to enter the selected option.
  4. Follow on-screen instructions for your selected operation. Most of the detector’s procedures are described in this guide.

Activate the Detector

Activate the detector in a safe area with an atmosphere of 20.9% oxygen and free of hazardous gas.

  1. For first time use, charge the battery for up to 8 hours or until LED light turns green using the charging adapter provided. Refer to Charge the battery for more information.

  2. Press and hold the button for three seconds.

  3. For first time use, a Warming sensors message is displayed and a 30 minutes countdown is displayed. In most cases, this countdown only lasts a couple of minutes.

  4. When the detector displays Pump test Block inlet, block the pump inlet with a finger, and then after a couple of seconds unblock the pump inlet.
    The detector performs a quick pump test. A Pump Test passed message is displayed.
    If you do not block the pump inlet, the detector will turn off after two minutes.
    The detector will then perform a self-test, including testing the sensors. This process could take several minutes.
    If necessary, you will be instructd by screen prompts to calibrate newlyinstalled sensors.

  5. When the self-test is complete, press and hold the button to zero sensors.
    After the autozero is complete, the detector then checks the sensors for calibration and bump test.
    If the detector identifies sensors requiring calibration or bump testing, press the button and follow the on-screen instructions.

Standards and Certifications

The Honeywell BW™ Ultra gas detector is in conformity with the following standards and certifications:

Approvals: Approved by UL to both U.S. and Canadian Standards

• UL 913, 8th Edition| • UL 60079-0, 6th Edition
• UL 60079-1, 7th Edition| • UL 60079-11, 6th Edition
• ANSI/ISA 60079-29-1 (12.13.01) – 2013| • CSA C22.2 No.152-M1984 (R2016)
• CSA C22.2 No. 60079-0:15| •CSA C22.2 No. 60079-11:14
---|---
•CSA C22.2 No. 60079-1:16|
•UL: E480011|
•Class I, Division I, Group A, B, C and D,
Temperature code T4, -40°C s Tamb s +50°C| •Class I, Zone 0, AEx ia IIC T4 Ga, -40°C s Tamb s +50°C (without LEL and IR sensor installed)
•Class I, Zone 0, AEx da ia IIC T4 Ga, -40°C s
Tamb s +50°C (with LEL sensor installed and without IR sensor installed)| •Class I, Zone 0, AEx ia IIC T4 Ga, -20°C s
Tambo  +50°C (with IR sensor installed and without LEL sensor installed)
•Class I, Zone 0, AEx da ia IIC T4 Ga, -20°C Tamb s +50°C (with LEL and IR sensor installed)|
CSA: E480011| • Class I, Division I, Group A, B, C and D, Temperature code T4, -40°C ≤ Tamb
≤ +50°C
---|---
• Ex ia IIC T4 Ga, -40°C ≤ Tamb ≤ +50°C (without LEL and IR sensor installed)| • Ex da ia IIC T4 Ga, -40°C≤ Tamb ≤ +50°C (with LEL sensor installed and without IR sensor installed)
• Ex ia IIC T4 Ga, -20°C ≤ Tamb ≤ +50°C (with IR sensor installed and without LEL sensor installed)| • Ex da ia IIC T4 Ga, -20°C ≤ Tamb ≤ +50°C (with LEL and IR sensor installed)
ATEX: DEMKO 18 ATEX 1833X| • EN IEC 60079-0:2018
---|---
• EN 60079-11:2012| • EN 60079-1:2014
• EN 60079-26:2015| • I M1 Ex ia I Ma, -20°C ≤ Tamb ≤ +50°C
• II 1 G Ex ia IIC T4 Ga, -40°C ≤ Tamb ≤ +50°C
(without LEL and IR sensor installed)
• I M1 Ex da ia I Ma, -20°C ≤ Tamb ≤ +50°C
• II 1 G Ex da ia IIC T4 Ga, -40°C ≤ Tamb ≤ +50°C (with LEL sensor installed and without IR sensor installed)| • I M1 Ex db ia I Ma, -20°C ≤ Tamb ≤ +50°C
• II 2 G Ex db ia IIC T4 Gb, -20°C ≤ Tamb ≤ +50°C (with IR sensor installed)
---|---
IECEx: UL 18.0061X| • IEC 60079-0:2017
---|---
• IEC 60079-11:2011| • IEC 60079-1:2014
• IEC 60079-26:2014| • Ex ia I Ma, -20°C ≤ Tamb ≤ +50°C
• Ex ia IIC T4 Ga, -40°C ≤ Tamb ≤ +50°C (without LEL and IR sensor installed)
• Ex db ia I Ma, -20°C ≤ Tamb ≤ +50°C
• Ex db ia IIC T4 Gb, -20°C ≤ Tamb ≤ +50°C (with IR sensor installed)| • Ex da ia I Ma, -20°C ≤ Tamb ≤ +50°C
• Ex da ia IIC T4 Ga, -40°C ≤Tamb ≤ +50°C (with LEL sensor installed and without IR sensor installed)
• JNIOSH-TR-46-1: 2015| • JNIOSH-TR-46-2: 2018
---|---
• JNIOSH-TR-46-6: 2015|
JPEx: DEK21.0013X| • Ex ia IIC T4 Ga, -40°C ≤ Tamb ≤ +50°C (without LEL and IR sensor installed)
JPEx: DEK21.0014X| • Ex da ia IIC T4 Ga, -40°C ≤Tamb ≤ +50°C (with LEL sensor installed and without IR sensor installed)
JPEx: DEK21.0015X| • Ex db ia IIC T4 Gb, -20°C ≤Tamb ≤ +50°C (with IR sensor installed)

Contact Honeywell
Honeywell Analytics
405 Barclay Blvd.
Lincolnshire, IL.
USA 60069
Toll free. 1-888-749-8878
Bwa.customerservice@honeywell.com
SPS.honeywell.com

https://sps.honeywell.com/us/en/products/safety/gas-and-flame- detection/portables/honeywell-bw-ultra
©2021, September 6, All rights reserved
50122982-349 REVISION C1

References

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