QHSE DOCUMENTS-ASBESTOS DETECTION AND PREVENTIONS TOOLBOX TALKS

Asbestos enters the body when inhaled or ingested. When it's inhaled, it gets trapped in the lungs and disrupts cell function. It may lead to asbestosis, lung disease, or cancer.

WHAT IS ASBESTOS?

Asbestos is a type of mineral classified by the way it breaks apart into thread-like structures. Because it resembles thread, it can be made into flame-resistant fabrics. It is also solid.

WHERE CAN YOU FIND ASBESTOS?

Old pipe insulation, furnace tape, duct gaskets, cement pipes, flooring, glues for flooring, ceiling pucks, walls, siding, shingles, roofs, and many more areas.

Asbestos was phased out, however it can still be found in some new products if it is labeled. Visual ID is not enough. You must get it tested by a professional.

Asbestos is only harmful when it is broken apart, and releases microscopic fibers that can be inhaled.  When left alone, intact, and covered, it does not pose a risk.

Ceiling tile pucks and wall adhesive containing asbestos

Suspect Asbestos?

Stop! Tell your supervisor.

Block the area

[QHSE Documents] does NOT abate asbestos.

Asbestos is the responsibility of the property owner. [QHSE Documents]’s employees shall not work in potential asbestos areas until it is tested and made safe.

Prevent Exposure:

Heed all warning signs.

Containment: Ensure the area is thoroughly blocked with plastic with negative pressure.  Area or sections should be encased and area wetted down to prevent airborne particles.

Wear a Tyvek Suit. Wash your hands and face before eating, drinking, or smoking,  and never smoke in an area with potential contamination.

Change your clothes before going home, you don’t

want to bring it home to your family.

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METHOD STATEMENT FOR STRUCTURAL STEEL FABRICATION WORKS-QHSE DOCUMENTS

METHOD STATEMENT FOR STRUCTURAL STEEL FABRICATION WORKS

TABLE OF CONTENT

1.0. SCOPE OF WORK

2.0. ACCESS / EGRESS

3.0. TECHNICAL REFERENCES

4.0. RESPONSIBILITIES

5.0. EMERGENCY PREPAREDNESS

6.0. STORAGE & STACKING OF MATERIAL

7.0. SAFETY MEASURES AND PRECAUTIONS

8.0. PLANT & EQUIPMENT

9.0. TRAINING

10.0. SITE AND WORKING AREA CONDITION

11.0. MATERIALS

12.0. INTERDEPARTMENTAL COORDINATION

13.0. SEQUENCE/METHOD OF WORK

14.0. TOLERANCES

15.0. INSPECTION CERTIFICATE

16.0. QUALITY ASSURANCE & CONTROL

17.0. DISPATCH

The Scope and Propose 

The Scope and purpose of this technical Methodology document is to narrate the sequence of various activities such as:

1. To execute the Steel Structure fabrication works, 

2. Testing, including unloading of the raw materials 

Loading of fabricated materials to dispatch at [Project Name].

Following are some key points for the Steel Structure fabrication works uploaded by QHSE Documents.

Material Selection:

Structural steel, typically mild steel, is commonly used for its strength and durability.

Other alloys may be chosen based on specific project requirements.

Design and Engineering:

Detailed engineering drawings are essential for precise fabrication.

Computer-aided design (CAD) is often employed to create accurate models.

Cutting:

Steel plates and sections are cut to specified dimensions using methods like flame cutting, plasma cutting, or laser cutting.

Bending:

Hydraulic presses or specialized machines shape Steel components to the required angles.

Welding:

Welding is a crucial process to join steel components securely.

Various welding techniques, such as arc welding or MIG welding, may be employed.

Assembly

Individual components are assembled based on the engineering drawings.

Accuracy and precision are crucial to ensure proper fit during construction.

Quality Control:

Rigorous quality checks are conducted at different stages of fabrication.

Weld inspections, dimensional checks, and material testing ensure compliance with standards.

Surface Treatment:

Protective coatings, such as primers and paints, are applied to prevent corrosion and enhance durability.

Transportation and Handling:

Finished components are transported to the construction site using specialized vehicles.

Proper handling techniques are essential to prevent damage during transportation.

Installation:

Steel components are erected on-site following the assembly drawings.

Precision is crucial to ensure proper alignment and structural integrity.

Safety Measures:

Adherence to safety protocols is paramount to protect workers during fabrication and installation.

PPE and safety training are essential.

Project Management:

Efficient project management is crucial to meet timelines and budget constraints.

Coordination with other construction activities is essential for seamless integration.

Documentation:

Thorough documentation, including fabrication records and inspection reports, is maintained for quality assurance and future reference.

Compliance with Standards:

Adherence to industry standards and codes, such as those provided by the American Institute of Steel Construction (AISC) or the International Organization for Standardization (ISO), is essential.

Cost Considerations:

Efficient fabrication methods and material utilization help manage costs effectively.

Environmental Considerations:

Sustainable practices and environmentally friendly coatings may be considered to minimize the environmental impact. 

To download a complete Word format editable file for the "METHOD STATEMENT FOR STRUCTURAL STEEL FABRICATION WORKS", click the following link.

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QHSE DOCUMENTS-GAS CONCENTRATION LIMITS FOR WORK

 

QHSE DOCUMENTS-GAS CONCENTRATION  LIMITS FOR WORK

Gas concentration limits for work refer to the allowable levels of specific gases in the air during work activities to ensure the health and safety of individuals. These limits are typically set by regulatory bodies and organizations to prevent adverse health effects associated with exposure to hazardous gases. Different gases have different exposure limits, and these limits are often expressed in terms of parts per million (ppm) or milligrams per cubic meter (mg/m³) over a specified period.

Following are some common examples of gas concentration limits for work:

Occupational Safety and Health Administration (OSHA) Limits (United States):

Permissible Exposure Limit (PEL): The maximum allowable concentration of a substance in the air over an 8-hour workday. OSHA sets PELs for various gases and substances.

Short-Term Exposure Limit (STEL): The maximum allowable concentration over a short exposure period (usually 15 minutes) during a workday.

American Conference of Governmental Industrial Hygienists (ACGIH) Threshold Limit Values (TLVs):

TLVs are recommended exposure limits for workplace exposures to various substances, including gases. They include Time-Weighted Average (TWA) and Short-Term Exposure Limit (STEL).

National Institute for Occupational Safety and Health (NIOSH):

NIOSH provides Recommended Exposure Limits (RELs) for many substances, indicating concentrations that should not be exceeded during a workday.

European Union Occupational Exposure Limits (OELs):

Each EU member state establishes its own occupational exposure limits based on European Union directives. These limits are similar to OSHA PELs and ACGIH TLVs.

International Occupational Exposure Limits:

Some international organizations, such as the World Health Organization (WHO), may provide guidance on exposure limits for specific gases.

It's important for employers and employees to be aware of the specific exposure limits for the gases present in their work environment. Monitoring equipment, such as gas detectors, may be used to measure concentrations and ensure compliance with these limits. Regular training on gas safety, proper ventilation, and the use of personal protective equipment are also essential components of a comprehensive workplace safety program. Always refer to local regulations and guidelines for the most accurate and up-to-date information

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MULTIPLE METHOD STATEMENTS FOR HVAC SYSTEM-QHSE DOCUMENTS

MULTIPLE METHOD STATEMENTS FOR HVAC SYSTEM-QHSE DOCUMENTS

The following is a brief outline for each of the mentioned method statements uploaded by the QHSE Documents:

1. Method Statement for Air Cooled Chillers:

1.1. Introduction and Project Overview

1.2. Scope of Work

1.3. Safety Precautions

1.4. Installation Procedures

1.5. Testing and Commissioning

1.6. Quality Control Measures

1.7. Environmental Considerations

2. Method Statement for Fan Coil Unit (FCU):

2.1. Project Information

2.2. Scope of Work

2.3. Health and Safety Procedures

2.4. Installation Process

2.5. Testing and Commissioning

2.6. Quality Assurance

2.7. Environmental Considerations

3. Method Statement for AHU (Air Handling Unit):

3.1. Project Overview

3.2. Scope of Work

3.3. Safety Measures

3.4. Installation Procedures

3.5. Testing and Commissioning

3.6. Quality Control

3.7. Environmental Considerations

4. Method Statement for AC Split Unit:

4.1. Project Introduction

4.2. Scope of Work

4.3. Health and Safety Precautions

4.4. Installation Steps

4.5. Testing Procedures

4.6. Quality Assurance

4.7. Environmental Impact Considerations

5. Method Statement for Package Unit:

5.1. Project Overview

5.2. Scope of Work

5.3. Safety Protocols

5.4. Installation Procedures

5.5. Testing and Commissioning

5.6. Quality Control Measures

5.7. Environmental Impact Considerations

6. Method Statement for Window AC:

6.1. Project Introduction

6.2. Scope of Work

6.3. Health and Safety Measures

6.4. Installation Steps

6.5. Testing Procedures

6.6. Quality Assurance

6.7. Environmental Considerations

7. Method Statement for Electric Duct Heater:

7.1. Project Overview

7.2. Scope of Work

7.3. Safety Precautions

7.4. Installation Procedures

7.5. Testing and Commissioning

7.6. Quality Control Measures

7.7. Environmental Considerations

8. Method Statement for Fresh Air-Extract Air Fan Maintenance:

8.1. Project Information

8.2. Scope of Maintenance

8.3. Safety Measures

8.4. Maintenance Procedures

8.5. Testing and Inspection

8.6. Quality Control

8.7. Environmental Considerations

9. Method Statement for Pump:

9.1. Project Overview

9.2. Scope of Work

9.3. Safety Protocols

9.4. Installation Procedures

9.5. Testing and Commissioning

9.6. Quality Control Measures

9.7. Environmental Impact Considerations

These method statements provide a structured approach to various HVAC (Heating, Ventilation, and Air Conditioning) and mechanical systems installations and maintenance. They cover essential aspects such as safety, procedures, testing, and environmental considerations specific to each system. Each method statement should be tailored to the specific project requirements and conditions.

Now click on the following link for your required method statement uploaded by the QHSE Documents for free and in editable format:

1- METHOD STATEMENT FOR AIR-COOLED CHILLERS

2- METHOD STATEMENT FOR FAN COIL UNIT FCU

3- METHOD STATEMENT FOR AHU AIR HANDLING UNIT

4- METHOD STATEMENT FOR AC SPLIT UNIT

5- METHOD STATEMENT FOR PACKAGE UNIT

6- METHOD STATEMENT FOR WINDOWS AC

7- METHOD STATEMENT FOR ELECTRIC DUCT HEATER

8- METHOD STATEMENT FOR FRESH AIR-EXTRACT AIR FAN MAINTENANCE

9- METHOD STATEMENT FOR PUMP

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