有害气体检测仪运行处置记录

新手须知；有毒有害气体检测仪的操作及操作规程新手须知；有毒有害气体检测仪的操作有毒有害气体检测仪是一种用来检测有毒有害气体的仪器。

对于不不太了解产品的人来说，确定要注意以下几点：一、注意常常性的校准和检测有毒有害气体检测仪也同其它的分析检测仪器一样，都是用相对比较的方法进行测定的：先用一个零气体和一个标准浓度的气体对仪器进行标定，得到标准曲线储存于仪器之中，测定时，仪器将待测气体浓度产生的电信号同标准浓度的电信号进行比较，计算得到精准的气体浓度值。

因此，随时对仪器进行校零，常常性对仪器进行校准都是保证仪器测量精准的必不可少的工作。

需要说明的是：目前很多气体检测仪都是可以更换检测传感器的，但是，这并不意味着一个检测仪可以随时配用不同的检测仪探头。

不论何时，在更换探头时除了需要确定的传感器活化时间外，还必需对仪器进行重新校准。

另外，建议在各类仪器在使用之前，对仪器用标气进行响应检测，以保证仪器真正起到保护的作用。

二、注意各种不同传感器间的检测干扰一般而言，每种传感器都对应一个特定的检测气体，但任何一种气体检测仪也不可能是确定特效的。

因此，在选择一种气体传感器时，都应当尽可能了解其它气体对该传感器的检测干扰，以保证它对于特定气体的精准检测。

三、注意各类传感器的寿命各类气体传感器都具有确定的使用年限，即寿命。

一般来讲，在便携式仪器中，LEL传感器的寿命较长，一般可以使用三年左右；光离子化检测仪的寿命为四年或更长一些；电化学特定气体传感器的寿命相对短一些，一般在一年到两年；氧气传感器的寿命最短，大约在一年左右。

电化学传感器的寿命取决于其中电解液的干枯,所以假如长时间不用，将其密封放在较低温度的环境中可以延长确定的使用寿命。

固定式仪器由于体积相对较大，传感器的寿命也较长一些。

因此，要随时对传感器进行检测，尽可能在传感器的有效期内使用，一旦失效，适时更换。

四、注意检测仪器的浓度测量范围各类有毒有害气体检测仪都有其固定的检测范围。

RAEAlert EC有毒气体检测仪RAEAlert EC是一款采用模块化设计、具有智能化传感器检测技术、整体隔爆（d）结构、固定安装方式的有毒气体检测仪。

标准配置为带点阵LCD液晶显示、三线制4~20mA模拟和RS485数字信号输出，可选配置为可编程开关量输出等模块，根据用户需求提供定制化产品，还支持输出信号微调等功能，方便系统组网及维护。

可检测CO、H2S、O2、Cl2、NH3、SO2、HCN、NO、NO2、PH3、ClO2、ETO等多种有毒有害气体。

主要特点• 智能化EC传感器，采用本质安全技术，可支持多气体、多量程检测，并可根据用户需求提供定制化产品，无需工具可实现传感器互换、离线标定和零点自校准• 智能的温度和零点补偿算法，使仪器具有更加优良的性能• 具有很好的选择性，避免了其他气体对被检测气体的干扰• 多种信号输出，既可方便接入PLC/DCS等工控系统，也可以作为单机控制使用• 超大点阵LCD液晶显示，支持中英文界面• 免开盖，红外遥控器操作，单人可维护• 本地报警指示，一体化声光报警器（选配）• 仪器具有超量程、反极性保护，能避免人为操作不当引起的危险• 丰富的电气接口，可供用户选择• 通过ATEX、UL、CSA等认证，具有国际化高端品质应用领域• 石油、石化• 冶金、化工• 环保• 造纸、印染• 市政• 科研、教育• 国防产品型号：FGM-3300订购信息产品型号检测气体标准量程分辨率产品型号检测气体标准量程分辨率FGM-3300O20～25%vol0.1%vol FGM-3300NO0～250ppm1ppm FGM-3300CO0～500ppm1ppm FGM-3300NO20～20ppm0.1ppm FGM-3300H2S0～100ppm1ppm FGM-3300PH30～20ppm0.1ppm FGM-3300Cl20～50ppm0.1ppm FGM-3300ClO20～1ppm0.01ppm FGM-3300NH30～100ppm1ppm FGM-3300ETO-A0～100ppm0.1ppm FGM-3300SO20～20ppm0.1ppm FGM-3300ETO-B0～10ppm0.1ppm FGM-3300HCN0～50ppm1ppm FGM-3300ETO-C0～500ppm1ppm＊更多气体请电话垂询本地区RAE-KLH销售。

气体检测仪安全操作规程范文为了确保气体检测仪的正常运行和使用过程中的安全，我们制定了本安全操作规程。

请所有操作人员在使用气体检测仪时严格遵守以下规定。

一、使用前准备1. 确保使用的气体检测仪处于正常状态，包括外观无损坏、电池电量充足、传感器功能正常等。

2. 检查探头和传感器是否有异味、腐蚀等异常现象。

如有异常，请勿使用，及时向维修人员报告并修理。

3. 确保操作人员已经接受过必要的培训，并熟悉气体检测仪的使用说明书。

二、操作规范1. 在进行检测之前，确保操作人员已穿戴好个人防护装备，如安全帽、防护服、眼镜等，以确保自身安全。

2. 打开气体检测仪前，确保检测环境内没有易燃、易爆的气体，以防引发事故。

3. 将检测仪探头插入待检测的气体中，确保插入深度合适，并保持探头与气体接触良好。

4. 定期校准气体检测仪，以确保检测结果的准确性。

校准频率根据使用情况而定，一般每半年或每年校准一次。

5. 在检测过程中，保持操作人员的注意力集中，仔细观察气体检测仪的指示灯和报警声音，并根据实际情况采取相应的措施。

6. 在检测人员离开检测现场后，及时关闭气体检测仪，并将其妥善存放。

确保电池的安全使用和存储。

三、异常情况处理1. 当气体检测仪报警时，操作人员应立即停止工作，并按照应急预案进行相应处置，保护自己和他人的安全。

2. 当气体检测仪出现故障时，操作人员不得随意拆卸或修理，应立即将其报告给维修人员，并按照其指示进行处理。

3. 在异常情况处理过程中，操作人员需保持冷静，按照预案进行有序的应急处置，以最大程度地减少事故的发生和后果的扩大。

四、其他注意事项1. 气体检测仪不得用于潜水、高压环境等特殊场合，以免损坏设备或引发危险。

2. 使用气体检测仪时，应注意避免检测环境中的电磁干扰，以确保检测结果的准确性。

3. 定期进行设备的维护和保养，包括清洁、校准、更换传感器等，以保证设备的正常工作。

4. 使用气体检测仪的操作人员应具备相关专业知识和技能，不得将设备交予未经培训的人员操作。

气体检测仪安全操作及保养规程前言气体检测仪是一种用于检测空气中有害气体浓度的仪器，广泛应用于实验室、工厂、矿井等场所，为人们的工作和生活提供了保障。

但如果操作不当，将会给人们带来很大的安全隐患。

为了保证仪器的正常使用，本文将介绍气体检测仪的安全操作及保养规程。

一、气体检测仪的安全操作1.首次使用前在首次使用之前，先阅读气体检测仪的说明书，了解仪器的基本性能和使用方法。

如有疑问，可向销售商咨询。

2.使用时先插入电源线，打开开关，将检测仪测量仪表的指针调到零点。

在检测区域内按照要求放置探头，然后进行测量操作。

当有危险气体存在时，测量仪表的指针将会上升，此时应及时采取相应的措施。

当检测仪出现故障时，应立即停止使用，并将故障报告给专业维修人员进行处理。

3.操作要点操作气体检测仪时，应特别注意以下几点：•严禁将探头放入液体中；•严禁使用气体检测仪来检测透明、无颜色的有毒气体；•长时间不使用气体检测仪时，应将电源线拔掉；•在操作时需戴手套、护目镜等防护用品，避免有害气体对身体造成危害。

二、气体检测仪的保养规程1.外观检查经常检查气体检测仪的外观，清除仪器表面的灰尘及其他杂物，避免进入仪器内部阻塞传感器。

2.电源检查经常检查气体检测仪的电源线是否有损伤，电源开关是否正常，如发现任何问题，应立即停止使用，并进行维修。

3.传感器检查经常检查传感器是否干净，如果发现传感器上有灰尘或其它污物，应及时清理。

查看传感器接头是否牢固，是否有损伤。

4.校准检查经常对气体检测仪进行校准检查，按照说明书的要求进行校准操作，确保测得的数据准确无误。

5.保养周期气体检测仪的保养周期一般为每半年一次，如频繁使用，应根据情况增加保养的次数。

结语使用气体检测仪，安全操作至关重要，遵守规范，确保仪器正常使用，可以减少安全隐患，维护大众身体健康。

同时定期对气体检测仪进行保养，可以使仪器使用寿命更长，更为可靠。

有毒有害气体检测仪PT-1700使用说明书执行标准：Q31/0112000581C001-2017上海恩信仪表有限公司使用注意事项△!不正确的操作或不适宜的使用环境，可能会消弱仪器的操作性能。

为了安全有效的使用仪器，仪器在进行任何操作前，请认真阅读本使用说明书。

△!传感器和仪器要注意防水和杂质，仪器更换电池或简单维修时应在安全场所进行，不要在无线电发射台附近校准仪器。

△!仪器长期不工作时，应关机，置于干燥、无尘、符合储存温度的环境内。

△!仪器的修理和零部件的更换必须采用本公司所提供的备品备件，并由受过培训的专业人员完成。

△!建议用户每一个月用已知浓度的标准气（与检测仪装配的传感器相对应的气体）测试仪器准确性，保证测量误差在允许范围内。

如果超出误差范围，仪器必须重新标定。

△!如果用户擅自安装或修理更换部件，产品的安全性和可靠性将会受到影响，由此产生的责任由用户自行负责。

目录使用注意事项 (1)1用途 (2)2技术指标及传感器参数 (2)2.1技术指标 (2)2.2传感器参数 (3)3使用说明 (4)3.1仪器结构说明 (4)3.2按键及液晶显示说明 (4)3.3开机操作说明 (5)4菜单操作说明 (7)4.1进入程序菜单 (7)4.2时间 (8)4.3零点设定 (8)4.4灵敏度设定 (8)4.5高级报警点设定 (9)4.6低级报警点设定 (9)5常见维修及故障 (9)6标准配置 (10)7质量保证....................................................................................101用途PT-1700型有毒气体检测报警仪，是一款个人便携式气体检测报警仪。

它适用于在工矿企业环境空气中连续检测有毒气体的浓度,仪器体积小巧、携带方便、操作简单。

检测仪传感器采用高灵敏度传感器。

仪器显示采用LCD液晶显示，可直接显示环境中的有毒气体浓度。

AMERICAN NATIONAL STANDARD ANSI/ISA-92.00.02-2013 Installation, Operation, and Maintenance of Toxic Gas-Detection Instruments Approved 30 September 2013ANSI/ISA-92.00.02-2013, Installation, Operation, and Maintenance of Toxic Gas-Detection InstrumentsISBN: 978-0-876640-45-6Copyright © 2013by the International Society of Automation. All rights reserved. Not for resale. Printed in the United States of America. No part of this publication may be reproduced, stored in a retrieval system, or transmitted in any form or by any means (electronic mechanical, photocopying, recording, or otherwise), without the prior written permission of the Publisher.ISA67 Alexander DriveP.O. Box 12277Research Triangle Park, North Carolina 27709- 3 - ANSI/ISA-92.00.02-2013PrefaceThis preface, as well as all footnotes and annexes, is included for information purposes and is not part of ISA-92.00.02-2013.This document has been prepared as part of the service of ISA toward a goal of uniformity in the field of instrumentation. To be of real value, this document should not be static but should be subject to periodic review. Toward this end, the Society welcomes all comments and criticisms and asks that they be addressed to the Secretary, Standards and Practices Board; ISA; 67 Alexander Drive; P. O. Box 12277; Research Triangle Park, NC 27709; Telephone (919) 549-8411;Fax(919)549-8288;E-mail:*****************.The ISA Standards and Practices Department is aware of the growing need for attention to the metric system of units in general, and the International System of Units (SI) in particular, in the preparation of instrumentation standards. The Department is further aware of the benefits to USA users of ISA standards of incorporating suitable references to the SI (and the metric system) in their business and professional dealings with other countries. Toward this end, this Department will endeavor to introduce SI-acceptable metric units in all new and revised standards, recommended practices, and technical reports to the greatest extent possible. IEEE/ASTM SI 10, American National Standard for Metric Practice, and future revisions, will be the reference guide for definitions, symbols, abbreviations, and conversion factors.It is the policy of ISA to encourage and welcome the participation of all concerned individuals and interests in the development of ISA standards, recommended practices, and technical reports. Participation in the ISA standards-making process by an individual in no way constitutes endorsement by the employer of that individual, of ISA, or of any of the standards, recommended practices, and technical reports that ISA develops.CAUTION — ISA DOES NOT TAKE ANY POSITION WITH RESPECT TO THE EXISTENCEOR VALIDITY OF ANY PATENT RIGHTS ASSERTED IN CONNECTION WITH THIS DOCUMENT, AND ISA DISCLAIMS LIABILITY FOR THE INFRINGEMENT OF ANY PATENT RESULTING FROM THE USE OF THIS DOCUMENT. USERS ARE ADVISED THAT DETERMINATION OF THE VALIDITY OF ANY PATENT RIGHTS, AND THE RISK OF INFRINGEMENT OF SUCH RIGHTS, IS ENTIRELY THEIR OWN RESPONSIBILITY. PURSUANT TO ISA’S PATENT POLICY, ONE OR MORE PATENT HOLDERS OR PATENT APPLICANTS MAY HAVE DISCLOSED PATENTS THAT COULD BE INFRINGED BY USEOF THIS DOCUMENT AND EXECUTED A LETTER OF ASSURANCE COMMITTING TO THE GRANTING OF A LICENSE ON A WORLDWIDE, NON-DISCRIMINATORY BASIS, WITH A FAIR AND REASONABLE ROYALTY RATE AND FAIR AND REASONABLE TERMS AND CONDITIONS. FOR MORE INFORMATION ON SUCH DISCLOSURES AND LETTERS OF ASSURANCE, CONTACT ISA OR VISIT /STANDARDSPATENTS.OTHER PATENTS OR PATENT CLAIMS MAY EXIST FOR WHICH A DISCLOSURE OR LETTER OF ASSURANCE HAS NOT BEEN RECEIVED. ISA IS NOT RESPONSIBLE FOR IDENTIFYING PATENTS OR PATENT APPLICATIONS FOR WHICH A LICENSE MAY BE REQUIRED, FOR CONDUCTING INQUIRIES INTO THE LEGAL VALIDITY OR SCOPE OF PATENTS, OR DETERMINING WHETHER ANY LICENSING TERMS OR CONDITIONS PROVIDED IN CONNECTION WITH SUBMISSION OF A LETTER OF ASSURANCE, IF ANY, OR IN ANY LICENSING AGREEMENTS ARE REASONABLE OR NON-DISCRIMINATORY. ISA REQUESTS THAT ANYONE REVIEWING THIS DOCUMENT WHO IS AWARE OF ANY PATENTS THAT MAY IMPACT IMPLEMENTATION OF THE DOCUMENT NOTIFY THE ISA STANDARDS AND PRACTICES DEPARTMENT OF THE PATENT AND ITS OWNER. ADDITIONALLY, THE USE OF THIS DOCUMENT MAY INVOLVE HAZARDOUS MATERIALS,ANSI/ISA-92.00.02-2013 - 4 -OPERATIONS OR EQUIPMENT. THE DOCUMENT CANNOT ANTICIPATE ALL POSSIBLE APPLICATIONS OR ADDRESS ALL POSSIBLE SAFETY ISSUES ASSOCIATED WITH USE IN HAZARDOUS CONDITIONS. THE USER OF THIS DOCUMENT MUST EXERCISE SOUND PROFESSIONAL JUDGMENT CONCERNING ITS USE AND APPLICABILITY UNDER THE USER’S PARTICULAR CIRCUMSTANCES. THE USER MUST ALSO CONSIDER THE APPLICABILITY OF ANY GOVERNMENTAL REGULATORY LIMITATIONS AND ESTABLISHED SAFETY AND HEALTH PRACTICES BEFORE IMPLEMENTING THIS DOCUMENT.The following people served as members of ISA Subcommittee ISA92.NAME COMPANYJ. Miller, Chair Detector Electronics CorporationR. Seitz, Vice Chair Artech EngineeringM. Coppler, Managing Director Det Norske Veritas Certification Inc.S. Baliga General MonitorsW. Bennett Mine Safety Appliances Co.T. Crawford Intertek Testing ServicesG. Garcha GE EnergyR. Goins Lyondell BasellK. Hedrick MSHA Approval & Certification CenterS. Henney FM ApprovalsC. Lucarino SenscientR. Masi Detcon Inc.D. Mills Underwriters Laboratories Inc.L. Owen Dooley Tackaberry Inc.A. Skinner GMI Gas Measurement Instruments LLCJ. Stratman Honeywell Analytics Inc.J. Thomason Omni Industrial Systems Inc.A. Vial Shell Exploration & Production Co.D. Wechsler American Chemistry CouncilThis standard was approved for publication by the ISA Standards and Practices Board on____________________.NAME COMPANYE. Cosman, Vice President The Dow Chemical CompanyD. Bartusiak ExxonMobil Chemical Co.P. Brett Honeywell Inc.J. Campbell ConsultantM. Coppler Det Norske Veritas Certification Inc.B. Dumortier Schneider ElectricD. Dunn Aramco Services Co.J. Federlein Federlein & Assoc. Inc.J. Gilsinn Kenexis ConsultingE. Icayan AtkinsJ. Jamison Spectra Energy Ltd.K. P. Lindner Endress + Hauser Process Solutions AGV. Maggioli Feltronics Corp.T. McAvinew Instrumentation and Control Engineering, LLC V. Mezzano Fluor CorporationC. Monchinski Automated Control Concepts Inc.R. Reimer Rockwell AutomationS. Russell Valero Energy Corp.- 5 - ANSI/ISA-92.00.02-2013 N. Sands DuPontH. Sasajima Azbil Corp.T. Schnaare Rosemount Inc.J. Tatera Tatera & Associates Inc.I. Verhappen Industrial Automation Networks Inc.W. Weidman WCW ConsultingJ. Weiss Applied Control Solutions LLCM. Wilkins Yokogawa IA Global Marketing (USMK)D. Zetterberg Chevron Energy Technology Co.This page intentionally left blank.- 7 - ANSI/ISA-92.00.02-2013Contents1Scope (11)2References (12)3Terms and definitions (12)4Basic information on the properties, behavior, and detection of gases and vapors (16)4.1Detecting gases and vapors – General (17)4.2Some common properties of gases and vapors (18)4.3The differences between detecting gases and vapors (19)4.4Oxygen deficiency (23)5Measuring principles (25)5.1General (25)5.2Selection criteria (26)5.3Miscellaneous factors affecting selection of equipment (30)6Behavior of gas releases (30)6.1Nature of a release (30)6.2Buildings and enclosures (33)6.3Unventilated buildings and enclosures (33)6.4Ventilated buildings and enclosures (34)6.5Natural ventilation (34)7Design and installation of fixed gas detection systems (35)7.1Basic considerations for the installation of fixed systems (35)7.2Location of detection points (36)7.3Access for calibration and maintenance (40)7.4Additional considerations for sample lines (40)7.5Summary of considerations for the location of sensors or sampling points (41)7.6Installation of sensors (42)7.7Integrity and safety of fixed systems (42)7.8Timing of installation during construction operations (44)7.9Commissioning (44)7.10Operating instructions, plans and records (45)8Use of portable and transportable toxic gas detection equipment (46)8.1General (46)8.2Initial and periodic check procedures for portable and transportableinstrumentation (47)8.3Guidance on the use of portable and transportable equipment (50)9Training of operational personnel (52)9.1General (52)9.2General training – Basic limitations and safety (53)9.3Operator training (54)9.4Maintenance training (54)10Maintenance, routine procedures and general administrative control (55)ANSI/ISA-92.00.02-2013 - 8 -10.1General (55)10.2Operational checks (56)10.3Maintenance (58)10.4Sensors (59)10.5Flow systems (60)10.6Readout devices (60)10.7Alarms (61)10.8Workshop calibration test and equipment (61)Annex A − Applicability & acceptance criteria (normative) (65)Annex B − Environmental parameters (informative) (67)Annex C − Instrument maintenance record for toxic gas detectors (typical) (informative) (71)INTRODUCTIONToxic gas detection equipment may be used whenever there is the possibility of a hazard to life or property caused by the accumulation of a toxic gas-air mixture. Such equipment can provide a means of reducing the hazard by detecting the presence of a toxic gas and issuing suitable audible or visual warnings. Gas detectors may also be used to initiate precautionary steps (for example plant shutdown, evacuation, and operation of fire extinguishing procedures).Equipment may be used to monitor a gas atmosphere below the applicable level, (PEL, REL, TWA, STEL or IDLH), limit in circumstances where accumulation of toxic gas may result in a concentration of the gas/air mixture to potential risks to life and health. Performance requirements for gas detecting equipment for such purposes are set out in ANSI/ISA-92.00.01 and ISA-92.00.04. However performance capability alone cannot ensure that the use of such equipment will properly safeguard life or property where toxic gases may be present. The level of safety obtained depends heavily upon correct selection, installation, calibration and periodic maintenance of the equipment, combined with knowledge of the limitations of the detection technique required. This cannot be achieved without responsible informed management.Portable equipment covered by the AN SI/ISA-92.00.01 and ISA-92.00.04 commonly have additional detectors for combustible gases and also for oxygen deficiency. Users are cautioned that even mild oxygen deficiency may be due to toxic concentrations of some other gas or vapor, which may not be detectable or adequately detected by the equipment in use. This concept must not be relied upon for detection of a non-monitored toxic gas because 0.1% oxygen reduction can mean 1,000 ppm or greater of the unknown toxic gas, which usually exceeds most toxic gas safety limits. All toxic gases suspected should be monitored by the proper equipment.Minimum requirements for the instruction manual of any particular toxic gas detection equipment are specified in ANSI/ISA-92.00.01 and ISA-92.00.04. These standards provide some necessary background knowledge on the points mentioned above.This standard has been specifically written to cover all the functions necessary from the need for gas detection all the way through ongoing maintenance of a successful gas detection operation. Different clauses are appropriate for different tasks within this range of operations. Each clause has been written as stand-alone as far as practicable. This means that some information is repeated in different clauses but with a different emphasis.The following table gives a broad suggestion as to the most relevant clauses to the typical tasks to be performed.ANSI/ISA-92.00.02-2013 - 10 -Table 1 – Functional applicabilityThis standard makes recommendations how to establish maintenance and calibration intervals. In certain countries there are general or industry-specific regulations that are mandatory and those shall be followed as a minimum requirement.- 11 - ANSI/ISA-92.00.02-20131 ScopeThis standard gives guidance on, and recommended practice for, the selection, installation, use and maintenance of electrically operated equipment intended for use in industrial and commercial safety applications for the detection and measurement of toxic gases complying with the requirements of ANSI/ISA-92.00.01 and ISA-92.00.04.This standard is a compilation of practical knowledge to assist the user, and applies to equipment, instruments and systems that indicate the presence of a toxic mixture of gasor vapor with air by using an electrical signal from a gas sensor to produce a meter reading, to activate a visual or audible pre-set alarm or other device, or any combination of these.Such equipment may be used as a means of reducing the risk whenever there is the possibility of a risk to life or health specifically due to the accumulation of a toxic gas-air mixture, by providing such warnings. It may also be used to initiate specific safety precautions (e.g. plant shutdown, evacuation, ventilation).This can be applied to all new permanent installations and, where reasonably practicable,to existing permanent installations. It is also applicable to temporary installations, whethernew or existing.Similarly it is applicable to the safe use of portable or transportable equipment, irrespective of the age or complexity of such equipment. Since much modern equipment ofthis type also includes other types of gas detection, some additional guidance is given for these topics.NOTE Equipment intended for use in hazardous(classified) areas should be Listed or Labeled for use withinthe intended area. For fixed equipment, installation should be in accordance with the National Electrical Code,ANSI/NFPA 70.For the purposes of this standard, except where specifically stated otherwise, toxic gases shall include toxic vapors.For the purposes of this standard, equipment includesa) fixed equipment;b) transportable equipment, andc) portable equipment.This standard is not intended to cover, but may provide useful information, for the following:a) equipment of laboratory or scientific type intended only for analysis or measurementpurposes;b) equipment intended for underground mining applications (group I equipment);c) equipment intended only for process control applications;d) equipment intended for applications in explosives processing and manufacture;。