This document provides a method statement for removing a landslide near Tower 9u to allow construction of an access track and transmission line towers. The work will be done in 3 zones using 2 excavators over 15 working days. Health and safety precautions include training staff, using proper equipment and PPE, conducting risk assessments, and having emergency response plans. The contractor's organization assigns roles to a project manager, construction manager, site engineer, and HSE lead to oversee the excavation team and contractor geologist. Attachments include location maps, photos of the site, and risk assessments.
Overhead crane, crane safety, lifting operation, EHS, Safety, Testing of Crane, Commissioning of Cranes,
for soft copy please email me at dawoodibrar@hotmail.com
1. Project Information:
Project Name: Checklist No.:
Sub-Contractor/Company:
Date:
2. Task Details:
Description of Task:
Location / Area :
Number of Workers:
Task Duration:
Time (from): _______Hrs.
Time (To): __________Hrs.
Date:
3. Prerequisites:
Checks Yes-No-NA Checks Yes-No-NA
Safety induction done. ☐ ☐ ☐
Safety tool box talk done. ☐ ☐ ☐
Method statement/Risk assessment in place. ☐ ☐ ☐
Training on Risk Assessment/ Method Statement done ☐ ☐ ☐
Job Safety Analysis done. ☐ ☐ ☐
3 Month Safety Look Ahead in place ☐ ☐ ☐
Permit to Work obtained ☐ ☐ ☐
Site Supervisor available ☐ ☐ ☐
PPE Available ☐ ☐ ☐
Working area is well lighted ☐ ☐ ☐
Tools and equipment inspected and tagged ☐ ☐ ☐
Unsafe conditions rectified ☐ ☐ ☐
Pre-Start Checks completed ☐ ☐ ☐
Emergency procedures communicated ☐ ☐ ☐
Unauthorized workers are cleared from the area.
☐ ☐ ☐
Other ( Specify): ☐ ☐ ☐
4. Acknowledgement by Sub-Contractor:
☐ Acknowledge that all above precautions/ controls measures have been taken. These have also been fully explained to the operatives, and I consider them competent to do it safely.
Initiator/Originator Name: Designation:
Signature: Date /Time:
Signature: Date /Time
Lifting operation, as a huge and complicated systems engineering, involves every aspects of enterprise production. This paper will briefly introduce some common problems and control procedures during operation for occupational safety and health .
Overhead crane, crane safety, lifting operation, EHS, Safety, Testing of Crane, Commissioning of Cranes,
for soft copy please email me at dawoodibrar@hotmail.com
1. Project Information:
Project Name: Checklist No.:
Sub-Contractor/Company:
Date:
2. Task Details:
Description of Task:
Location / Area :
Number of Workers:
Task Duration:
Time (from): _______Hrs.
Time (To): __________Hrs.
Date:
3. Prerequisites:
Checks Yes-No-NA Checks Yes-No-NA
Safety induction done. ☐ ☐ ☐
Safety tool box talk done. ☐ ☐ ☐
Method statement/Risk assessment in place. ☐ ☐ ☐
Training on Risk Assessment/ Method Statement done ☐ ☐ ☐
Job Safety Analysis done. ☐ ☐ ☐
3 Month Safety Look Ahead in place ☐ ☐ ☐
Permit to Work obtained ☐ ☐ ☐
Site Supervisor available ☐ ☐ ☐
PPE Available ☐ ☐ ☐
Working area is well lighted ☐ ☐ ☐
Tools and equipment inspected and tagged ☐ ☐ ☐
Unsafe conditions rectified ☐ ☐ ☐
Pre-Start Checks completed ☐ ☐ ☐
Emergency procedures communicated ☐ ☐ ☐
Unauthorized workers are cleared from the area.
☐ ☐ ☐
Other ( Specify): ☐ ☐ ☐
4. Acknowledgement by Sub-Contractor:
☐ Acknowledge that all above precautions/ controls measures have been taken. These have also been fully explained to the operatives, and I consider them competent to do it safely.
Initiator/Originator Name: Designation:
Signature: Date /Time:
Signature: Date /Time
Lifting operation, as a huge and complicated systems engineering, involves every aspects of enterprise production. This paper will briefly introduce some common problems and control procedures during operation for occupational safety and health .
PROJECT HEALTH, SAFETY, AND ENVIRONMENTAL PLAN
Table of Content
1. INTRODUCTION
1.1. PURPOSE
1.2. REVISIONS
1.3. DISTRIBUTION LIST
1.4. PROJECT DETAILS
1.5. PROJECT LOCATION
2. COMPLIANCE WITH LAWS AND REGULATIONS
3. DEFINITIONS & ABBREVIATION
3.1. DEFINITIONS
3.2. ABBREVIATION
4 ARABTEC HSEQ POLICIES & CERTIFICATES HSE POLICY STATEMENT
NO SMOKING POLICY
SAFE DRIVING POLICY
WASTE MANAGEMENT POLICY
WELFARE MANAGEMENT POLICIES
ISO CERTIFICATES
ABU DHABI EHSMS CERTIFICATE OF COMPLIANCE
5 PROJECT HSE OBJECTIVES
6 ORGANIZATION RESPONSIBILITIES AND ACCOUNTABILITIES
7 HSE COMMUNICATION ORIENTATION AND TRAINING
7.1.1 SITE RULES
7.1.2 GENERAL SITE RULES
7.1.3 PERSONAL SAFETY SITE RULES
7.1.4 SAFETY REFRESHER - TRAINING
8 Lifting Operations with mobile crane Risk Assessment Templates
Crane checks on arrival to site
PRIOR TO USE
Access of crane to work areas
Siting and setting up of crane
Lifting of equipment and material
(Mobile crane Operator)
Crane supervision
Crane Maintenance
(revised 06-06-2018)
Permit To Work
Types of Permit To Work
Hot Work Permit
Confined Space Entry Permit
Electrical Permit
Excavation Permit
Radiography Permit
Crane Critical Lifts Permit
Man Basket Operation
Permit Issuer Responsibilities
Permit Receiver Responsibilities
HSE Permit Coordinator
Responsibilities
Revalidation of the Permit
Work Permit Flow Chart
Project Information
Project Name: Tiara Hotel Auxiliary Crane No: 4/3.06/1
Location: Level 3 Date :
3rd Party Inspection of Auxiliary crane valid till: 26 August 2018 3rd Party certificate of operator valid till:
Shift: (This checklist to be completed for both Shifts)
Sr. Description S
(Satisfactory) D
(Deficiency) N/A Comments
1. Availability of Operators Manual and load chart
2. Maintenance Records
3. Operator Competency
4. Rigger Competency
5. Auxiliary Crane Section Condition
6. Structural Welds Physical Condition
7. Tie Bars and Pins
8. Foundation/Ballast
9. Earthing Condition
10. Hoist limits and breaks functioning
11. Slewing Gear
12. Drum and Wire Rope
13. Hook and Safety Latches
14. Main/luffing boom
15. Counter Jib
16. Counter weight secured
17. Pin and Bolts
18. Rope Sheaves
19. Safe Load Indicator
20. Radius Angle Indicator
21. Overload Cut-off device
22. Limit switches
23. Foundation bolts/ anchors
24. Effective means of communication
25. Fire extinguisher
26. Anti-collision system working
27. Valid Third Party Test and Inspection Certificates
28. Others ( Specify)
Remarks:
This checklist to be completed for both Shifts
Operator Name: Signature:
Reviewed By HSE Manager / In charge : Signature:
Noted by Project Leader Signature:
PROJECT HEALTH, SAFETY, AND ENVIRONMENTAL PLAN
Table of Content
1. INTRODUCTION
1.1. PURPOSE
1.2. REVISIONS
1.3. DISTRIBUTION LIST
1.4. PROJECT DETAILS
1.5. PROJECT LOCATION
2. COMPLIANCE WITH LAWS AND REGULATIONS
3. DEFINITIONS & ABBREVIATION
3.1. DEFINITIONS
3.2. ABBREVIATION
4 ARABTEC HSEQ POLICIES & CERTIFICATES HSE POLICY STATEMENT
NO SMOKING POLICY
SAFE DRIVING POLICY
WASTE MANAGEMENT POLICY
WELFARE MANAGEMENT POLICIES
ISO CERTIFICATES
ABU DHABI EHSMS CERTIFICATE OF COMPLIANCE
5 PROJECT HSE OBJECTIVES
6 ORGANIZATION RESPONSIBILITIES AND ACCOUNTABILITIES
7 HSE COMMUNICATION ORIENTATION AND TRAINING
7.1.1 SITE RULES
7.1.2 GENERAL SITE RULES
7.1.3 PERSONAL SAFETY SITE RULES
7.1.4 SAFETY REFRESHER - TRAINING
8 Lifting Operations with mobile crane Risk Assessment Templates
Crane checks on arrival to site
PRIOR TO USE
Access of crane to work areas
Siting and setting up of crane
Lifting of equipment and material
(Mobile crane Operator)
Crane supervision
Crane Maintenance
(revised 06-06-2018)
Permit To Work
Types of Permit To Work
Hot Work Permit
Confined Space Entry Permit
Electrical Permit
Excavation Permit
Radiography Permit
Crane Critical Lifts Permit
Man Basket Operation
Permit Issuer Responsibilities
Permit Receiver Responsibilities
HSE Permit Coordinator
Responsibilities
Revalidation of the Permit
Work Permit Flow Chart
Project Information
Project Name: Tiara Hotel Auxiliary Crane No: 4/3.06/1
Location: Level 3 Date :
3rd Party Inspection of Auxiliary crane valid till: 26 August 2018 3rd Party certificate of operator valid till:
Shift: (This checklist to be completed for both Shifts)
Sr. Description S
(Satisfactory) D
(Deficiency) N/A Comments
1. Availability of Operators Manual and load chart
2. Maintenance Records
3. Operator Competency
4. Rigger Competency
5. Auxiliary Crane Section Condition
6. Structural Welds Physical Condition
7. Tie Bars and Pins
8. Foundation/Ballast
9. Earthing Condition
10. Hoist limits and breaks functioning
11. Slewing Gear
12. Drum and Wire Rope
13. Hook and Safety Latches
14. Main/luffing boom
15. Counter Jib
16. Counter weight secured
17. Pin and Bolts
18. Rope Sheaves
19. Safe Load Indicator
20. Radius Angle Indicator
21. Overload Cut-off device
22. Limit switches
23. Foundation bolts/ anchors
24. Effective means of communication
25. Fire extinguisher
26. Anti-collision system working
27. Valid Third Party Test and Inspection Certificates
28. Others ( Specify)
Remarks:
This checklist to be completed for both Shifts
Operator Name: Signature:
Reviewed By HSE Manager / In charge : Signature:
Noted by Project Leader Signature:
Plant checks on arrival to site
PRIOR TO SITE ACCESS • Use of heavy plant for demolition;
Demolition of concrete structure • Excavator breaker operation
• (Operator)Plant / pedestrian interaction;
• Operator visibility;
Demolition (supervision) • Plant operations around workers;
• Workers in plant operating radius;
Undertaking breaking Works – Manual operation using compressed air jack hammers; • Use of hand held breakers;
Removal of waste concrete and rebar • Truck operations around workers;
RISK SCORE CALCULATOR
Use the Risk Score Calculator to Determine the Level of Risk of each Hazard
What would be the
CONSEQUENCE
of an occurrence be? What is the LIKELIHOOD of an occurrence? Hierarchy of Controls
Frequent/Almost certain (5)
Continuous or will happen frequently Often (4)
6 to 12 times a year Likely (3)
1 to 5 times a year Possible (2)
Once every 5 years Rarely (1)
Less than once every 5 years Can the hazard be Eliminated or removed from the work place?
Catastrophic (5)
Multiple Fatalities High 25 High 20 High 15 Medium 10 Medium 5 Can the product or process be substituted for a less hazardous alternative?
Serious (4)
Class 1 single fatality High 20 High 16 High 12 Medium 8 Low 4 Can the hazard be engineered away with guards or barriers?
Moderate (3)
Class2 (AWI or LTI) or Class 1 Permanently disabling effects High 15 High 12 Medium 9 Medium 6 Low 3 Can Administration Controls be adopted
I.e. procedures, job rotation etc.
Minor (2)
Medical attention needed, no work restrictions. MTI Medium10 Medium 8 Medium 6 Low 4 Low 2 Can Personal Protective Equipment & Clothing be worn to safe guard against hazards?
Insignificant (1)
FAI Medium10 Medium 4 Low 3 Low 2 Low 1
Project Name: xxx
RA Ref No.: xxx
RA compilation Date: Review date:
Date:
Compiled by:
Reviewed by:
Approved by:
Overall Task Details
Trial Trenches on site to locate/expose underground services. Use of excavator
Note: Wherever practicable trial trenches shall be hand dug to expose cables
Classed as Temporary Works Relevant Applicable MAS:
• 00246 – Excavations;
• 01413 – Underground services;
• 00940 – Plant Operators. Additional Training required:
Temporary Works Coordinator to be designated NOC’s Required for task:
Dubai Municipality
No Specific Task Step
(In sequence of works) Hazard Details Consequence/Risk Initial Risk Rating Control Measures Residual Risks Additional Control Measures RR
P S RR
1 Planned shallow Excavation (Trial Trench) in areas where live services may be present including:
• Electrical;
• Water;
• Sewerage;
• Gas;
• Telecoms;
PRIOR TO WORKS • Presence of live underground services;
• Services not in area specified on drawings;
• Heavy plant or vehicles accessing work area;
• Presence of unmarked services;
• Risk of explosion due to gas line rupture;
• Risk of flooding of trenches and adjacent areas due to water main damage;
• Risk of electrocution or fire due to cable strike;
• Risk of hazardous waste entering trenches or water systems due to live sewerage damage;
• Risk of damage to low depth underground services from heavy vehicles;
• Risk of vehicles / Plant entering open trenches; 4 3 12
HIGH i. All existing utility service drawings reviewed for known service details and position;
ii. NOC and Utility provider and ATC Excavation permits to be completed, unique number added and recorded in log;
iii. Work Area, including access route for plant, to be CAT scanned to locate exact position of service by competent per
5 Trial Trenches (Temporary Works) Risk Assessment Templates
Planned shallow Excavation (Trial Trench) in areas where live services may be present including:
• Electrical;
• Water;
• Sewerage;
• Gas;
• Telecoms;
PRIOR TO WORKS
Use of Excavator for trial trenches and backfilling
Note:
Wherever practicable trial trenches shall be hand dug to expose services.
Trench (shallow excavation) open in site area
Maintenance of Trenches
Worker exposure to direct sun
(as applicable)
Project Name: xxx
RA Ref No.: xxx
RA compilation Date: Review date:
Date:
Compiled by:
Reviewed by:
Approved by:
Overall Task Details
Use of mechanical breakers – excavator – for demolition of concrete structure Relevant Applicable MAS:
• 00940 – Plant Operators; Additional Training required:
NOC’s Required for task:
RISK SCORE CALCULATOR
Use the Risk Score Calculator to Determine the Level of Risk of each Hazard
What would be the
CONSEQUENCE
of an occurrence be? What is the LIKELIHOOD of an occurrence? Hierarchy of Controls
Frequent/Almost certain (5)
Continuous or will happen frequently Often (4)
6 to 12 times a year Likely (3)
1 to 5 times a year Possible (2)
Once every 5 years Rarely (1)
Less than once every 5 years Can the hazard be Eliminated or removed from the work place?
Catastrophic (5)
Multiple Fatalities High 25 High 20 High 15 Medium 10 Medium 5 Can the product or process be substituted for a less hazardous alternative?
Serious (4)
Class 1 single fatality High 20 High 16 High 12 Medium 8 Low 4 Can the hazard be engineered away with guards or barriers?
Moderate (3)
Class2 (AWI or LTI) or Class 1 Permanently disabling effects High 15 High 12 Medium 9 Medium 6 Low 3 Can Administration Controls be adopted
I.e. procedures, job rotation etc.
Minor (2)
Medical attention needed, no work restrictions. MTI Medium10 Medium 8 Medium 6 Low 4 Low 2 Can Personal Protective Equipment & Clothing be worn to safe guard against hazards?
Insignificant (1)
FAI Medium10 Medium 4 Low 3 Low 2 Low 1
No Specific Task Step
(In sequence of works) Hazard Details Consequence/Risk Initial Risk Rating Control Measures Residual Risks Additional Control Measures RR
L C RR
1 Plant checks on arrival to site
PRIOR TO SITE ACCESS • Use of heavy plant for demolition; • Unauthorized operation of the plant resulting in incident;
• Failure due to use of un-certificated plant;
3 4 12
HIGH i. All plant to be Third Party Certificated by a DM approved inspector, documentation available on arrival to site;
ii. Operators to have in-date Third Party certificate by approved body, available for review on arrival to site;
iii. Visual inspection of plant undertaken by competent person; Documentation unavailable for review Plant quarantined until evidence provided Low
2 Demolition of concrete structure • Excavator breaker operation
• (Operator)Plant / pedestrian interaction;
• Operator visibility; • Incident due to use of defective plant or associated equipment;
• Plant reversing – risk of serious injury to pedestrians;
• Unauthorized use of plant by untrained personnel;
• Collision with plant and live traffic within site boundary;
• Workers struck by working plant, very high risk of fatality;
• Noise;
• Exposed rebar – risk of injury;
• Possible contamination of asbestos in structure;
• Proximity to public areas;
4 4 16 HIGH i. Demolition Method statement to be submitted and adhered to. Demolition to be undertaken in a sequential, controlled
Overview of the fundamental roles in Hydropower generation and the components involved in wider Electrical Engineering.
This paper presents the design and construction of hydroelectric dams from the hydrologist’s survey of the valley before construction, all aspects and involved disciplines, fluid dynamics, structural engineering, generation and mains frequency regulation to the very transmission of power through the network in the United Kingdom.
Author: Robbie Edward Sayers
Collaborators and co editors: Charlie Sims and Connor Healey.
(C) 2024 Robbie E. Sayers
Hierarchical Digital Twin of a Naval Power SystemKerry Sado
A hierarchical digital twin of a Naval DC power system has been developed and experimentally verified. Similar to other state-of-the-art digital twins, this technology creates a digital replica of the physical system executed in real-time or faster, which can modify hardware controls. However, its advantage stems from distributing computational efforts by utilizing a hierarchical structure composed of lower-level digital twin blocks and a higher-level system digital twin. Each digital twin block is associated with a physical subsystem of the hardware and communicates with a singular system digital twin, which creates a system-level response. By extracting information from each level of the hierarchy, power system controls of the hardware were reconfigured autonomously. This hierarchical digital twin development offers several advantages over other digital twins, particularly in the field of naval power systems. The hierarchical structure allows for greater computational efficiency and scalability while the ability to autonomously reconfigure hardware controls offers increased flexibility and responsiveness. The hierarchical decomposition and models utilized were well aligned with the physical twin, as indicated by the maximum deviations between the developed digital twin hierarchy and the hardware.
Welcome to WIPAC Monthly the magazine brought to you by the LinkedIn Group Water Industry Process Automation & Control.
In this month's edition, along with this month's industry news to celebrate the 13 years since the group was created we have articles including
A case study of the used of Advanced Process Control at the Wastewater Treatment works at Lleida in Spain
A look back on an article on smart wastewater networks in order to see how the industry has measured up in the interim around the adoption of Digital Transformation in the Water Industry.
CW RADAR, FMCW RADAR, FMCW ALTIMETER, AND THEIR PARAMETERSveerababupersonal22
It consists of cw radar and fmcw radar ,range measurement,if amplifier and fmcw altimeterThe CW radar operates using continuous wave transmission, while the FMCW radar employs frequency-modulated continuous wave technology. Range measurement is a crucial aspect of radar systems, providing information about the distance to a target. The IF amplifier plays a key role in signal processing, amplifying intermediate frequency signals for further analysis. The FMCW altimeter utilizes frequency-modulated continuous wave technology to accurately measure altitude above a reference point.
Saudi Arabia stands as a titan in the global energy landscape, renowned for its abundant oil and gas resources. It's the largest exporter of petroleum and holds some of the world's most significant reserves. Let's delve into the top 10 oil and gas projects shaping Saudi Arabia's energy future in 2024.
Using recycled concrete aggregates (RCA) for pavements is crucial to achieving sustainability. Implementing RCA for new pavement can minimize carbon footprint, conserve natural resources, reduce harmful emissions, and lower life cycle costs. Compared to natural aggregate (NA), RCA pavement has fewer comprehensive studies and sustainability assessments.
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NUMERICAL SIMULATIONS OF HEAT AND MASS TRANSFER IN CONDENSING HEAT EXCHANGERS...ssuser7dcef0
Power plants release a large amount of water vapor into the
atmosphere through the stack. The flue gas can be a potential
source for obtaining much needed cooling water for a power
plant. If a power plant could recover and reuse a portion of this
moisture, it could reduce its total cooling water intake
requirement. One of the most practical way to recover water
from flue gas is to use a condensing heat exchanger. The power
plant could also recover latent heat due to condensation as well
as sensible heat due to lowering the flue gas exit temperature.
Additionally, harmful acids released from the stack can be
reduced in a condensing heat exchanger by acid condensation. reduced in a condensing heat exchanger by acid condensation.
Condensation of vapors in flue gas is a complicated
phenomenon since heat and mass transfer of water vapor and
various acids simultaneously occur in the presence of noncondensable
gases such as nitrogen and oxygen. Design of a
condenser depends on the knowledge and understanding of the
heat and mass transfer processes. A computer program for
numerical simulations of water (H2O) and sulfuric acid (H2SO4)
condensation in a flue gas condensing heat exchanger was
developed using MATLAB. Governing equations based on
mass and energy balances for the system were derived to
predict variables such as flue gas exit temperature, cooling
water outlet temperature, mole fraction and condensation rates
of water and sulfuric acid vapors. The equations were solved
using an iterative solution technique with calculations of heat
and mass transfer coefficients and physical properties.
NUMERICAL SIMULATIONS OF HEAT AND MASS TRANSFER IN CONDENSING HEAT EXCHANGERS...
Specific method of statmeents risk assessment -job hazard analysis for land slide
1. DV 1x400 kV, 2x400 kV
TRANSMISSIONLINES WORKS
Contract Number:
Client:
Contractor Engineer:
Sub-Contractor:
CLEANING OF LAND SLIDE
ACCES TRACK AT 10
Method of Statement (Specific)
Document Number:
00 23/01/201 8 Approval Arber Dogani
REV DATE ISSUED FOR ISSUED BY HSE CHECKED BY QA/QC TD PM
Contractor
Engineer
□ □ □
DATE BY APPROVED REJECTED NA COMMENTS
Present document is property of the Ow ner and it is prohibited any copy and/or convey of its original copy w ith any means, before the w ritten
confirmation and approvalof the Company's legal representative.
2. Method of Statement
Removal of land slide at
AT10
ISSUING DATE: 22/01/2018
Revision: 01
Page 2 of 22
REVISION TRACKING PAGE
Revision
Number
Revised
Page
Revision Date Description of Revision Prepared by
00 all 23/01/2018 Prepared and Published A.Dogani
Rev No. 01 02 03 04 05
Date
3. Method of Statement
Removal of land slide at
AT10
ISSUING DATE: __/01/2018
State ofissue: 00
Page 3 of 22
CONTENTS
1 PURPOSE..................................................................................................................................................................................5
2 SCOPE.......................................................................................................................................................................................5
3 DEFINITIONS ...........................................................................................................................................................................6
4 REFERENCES ............................................................................................................................................................................6
5 HEALTH, SAFETY, AND ENVIRONMENT CONSIDERATION.............................................................................................6
5.1 Requirements......................................................................................................................6
5.2 Team Members Trainings.....................................................................................................7
5.3 Tools and Equipment...........................................................................................................7
5.4 Weather Condition ..............................................................................................................8
5.5 Personal Protective Equipment(PPE)....................................................................................8
5.6 Communication...................................................................................................................8
5.7 Working time.......................................................................................................................8
5.8 First Aid and First Aider........................................................................................................8
5.9 Environmental Measures......................................................................................................9
5.10 Visitors or Vendor on site.....................................................................................................9
6 METHODOLOGY .....................................................................................................................................................................9
6.1 Description..........................................................................................................................9
6.2 Clearing and excavation Operations....................................................................................10
7 CONTRACTOR'S ORGANIZATION FOR ACCESS ROAD CONSTRUCTION....................................................................11
8 ATTACHMENT A - LOCATION MAP...................................................................................................................................12
9 ATTACHMENT B – PHOTOS................................................................................................................................................13
PHOTO 1 ..........................................................................................................................................................................................13
10 ATTACHMENT B/2 – PHOTOS ...........................................................................................................................................14
11 ATTACHMENT B/3 – PHOTOS ...........................................................................................................................................15
4. Method of Statement
Removal of land slide at
AT10
ISSUING DATE: __/01/2018
State ofissue: 00
Page 4 of 22
12 ATTACHMENT C - RISK ASSESSMENT SPECIFIC..............................................................................................................16
13 ATTACHMENT D - JOB HAZARD ANALYSIS .....................................................................................................................19
14 ATTACHMENT E – LAST MINUTE RISK ASSESSMENT....................................................................................................21
5. Method of Statement
Removal of land slide at
AT10
ISSUING DATE: __/01/2018
State ofissue: 00
Page 5 of 22
1 PURPOSE
To establish methodology on cleaning of land slide at at 10 required for construction of AT 10 and
towers 8 I, 8 u, 9 u (Appendix A - LOCATION MAP)
2 SCOPE
This procedure establishes description and guidelines for works performed during the removal of the
land slide near tower 9u.
Duration of the works is estimated to be 15 working days starting from receiving confirmation for
starting of the works. However final duration of the works, will be determined by field performance.
Will be used for these work:
Company:
2 Excavators, 2 operators, 2 workers (Wachman’s), 1 Lead Civil Engineer
Contractor:
1 Geologist
6. Method of Statement
Removal of land slide at
AT10
ISSUING DATE: __/01/2018
State ofissue: 00
Page 6 of 22
3 DEFINITIONS
- -Contractor Inginieria y Construccion
PM- Project Manager
DPM- Deputy Project Manager
4 REFERENCES
Health Safety and Environmental (HSE) Plan
Chapter 6:
Point 6.1 ; Point 6.2 ;
Chapter 10:
Point 10.1
Chapter 11: Point 11.1.
Chapter 12:Point 12,1
Chapter 13: Points 13.1, 13.2, 13.3, 13.4, 13.5, 13.6, 13.8, 13.10.
Quality Assurance / Quality Control (QA/QC) Plan
5 HEALTH, SAFETY, AND ENVIRONMENT CONSIDERATION
5.1 Requirements
Before the Contractorstart constructionof access roadto towerlocationsthe requirements listedbelow
must be followed and completed.
1. All the crew must be trained for such activity;
2. RiskAssessment(RA)(Appendix C- RISKASSESSMENT) andJobHazardAnalysis(JHA) (Appendix
D - JOB HAZARDANALYSIS) mustbe prepared before any start of activity. JHA must be read and
signed by all the members of the crew before the activity starts;
3. Equipmentmustbe ingoodconditionandall safetydevices mustbe functional andactive during
all the time;
4. Last Minute Risk Assessment will be prepared and signed from HSE Lead and Lead Engineer
every day(No Works will be performed without LMRA)
5. Tools must be in good shape and not damaged or modified;
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6. Housekeeping and working area must be clean in order to protect the Environment;
7. Communication (Radio);
8. Working time (8Hours).
5.2 Team Members Trainings
Team members must be trained in different disciplines to perform this activity.
General induction training;
o HS&E Induction
o Environmental Awareness
o Emergency Response Plan Training
o Fire Fighting Training
o First Aid Training
o JHA/Risk Assessment
o HS&E Leadership
o Stop Works
o HS&E Assessments
o Accident/Incident Reporting & Investigation
o Near Miss Reporting
o Cost of Accidents
Tools and equipment training;
Watchman Daily Instruction
PPE training;
Equipments,
Only this category of workers should be working in Cleaning of Land Slide at AT 10 construction.
5.3 Tools and Equipment
Tools must be in good condition and free from any damage;
Only proper tool are allowed to use in this activity;
Homemade tools are not allowed to use on site;
Equipment must be in good condition and checked periodically;
Only authorized operator must use them and to be shore that the equipment to be well
maintained;
Radio communication
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Acoustic High Signal
Where the equipmentissettle, the areashouldbe barricade byhighvisible safetytape andalso
warning signs must be put in order to inform the public about the work activity.
5.4 Weather Condition
It is not allowed to perform any activity during bad weather condition like;
storm
snow
No activity will be performed if equipment are not able to perform safe work because of weather
condition.
5.5 Personal Protective Equipment (PPE)
In order to prevent any injury or accident during the working time, we are forced by the HSE plan and
the AlbanianLaborLow to use the followingpersonal protective equipment during all the time on site.
hard hat;
gloves;
safetyshoes;
highvisible vest;
Reflectivesigns.
Acousticsignalization
All these PPEswill be usedandwearbyeveryone thatwill be partonthe workingsite.Visitorsshall wear
these PPEs (except reflective sign), as well.
5.6 Communication
In orderto have a safe working activity, the communication is a very important issue to be considered.
Workers are not allowed to use or talk on the phone when they are operating or guiding equipment.
Visible and acoustic signs must be used on site.
5.7 Working time
In order to have a safe work condition, road access activity will be performed only during day time. If
proper lighting is provided works can be performed by management decision.
5.8 First Aid and First Aider
Emergency numbers must be place in a visible table from everyone. First aid kit will be put in a place
where everyone may have access.
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5.9 Environmental Measures
In order to keep a good environment on site, spill prevention must be present on site, garbage and
waste of food will be removed from site and deposited in safe waste area. All the area must be clean
and in good environment condition after work activity.
5.10 Visitors or Vendor on site
Visitors or Vendors are not allowed to enter on site until they have permission, however, visitors and
vendormust have a brief training before they go on site and also they should sign the attendance list.
6 METHODOLOGY
6.1 Description
Cleaning of land slide at access track at 10 will be done with these steps:
We will beginthe excavationinzone 1, as it is rocky area during excavator work, it will create a
vibrationthatwill affectthe provocation of the surrounding area to see if there is any possible
movement,thisareaisthe safestpartcompact rockerwhere the excavatorwill work and in this
way does not endanger the vehicle and maneuver.
If the terrain does not show any sign of new displacing, and after the Contractor Geologist
checks and gives OK we will continue with the second phase.
Afteritwill be continuedwithZone 3 excavation, this area consists of dislocated rock material,
no compact rock,there are soil layers between the rock layers and vegetation and about 60-70
cm of soli above the surface.
Excavationinthiszone will startfromtowerNo.8 inthe directionof landslidebyharassingandrelieving
by 3m created by the land sliding, to see if we will have any possible slide or not.
If everythinggoeswellandthe Geologisttogetherwiththe Engineeragreesthat the structure is
stable and there is certainty to enter that already cleaned area on both sides then we can
proceed with the cleansing of the rock massive.
Excavatorsshouldworkwith interchange, only one at the same time during the excavations of
Zone 1 and 3, to avoid any possible incident and to react on time.
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For these typesof workwhere the dangerishigh,the escortingteamshave tobe equippedwith
acoustic signalizations and radio to signal the excavator maneuverer to immediately pull back
with the vehicle in case of sliding terrain.
Picture 1: Map of landslide and zones of work
6.2 Clearing and excavation Operations
1. Main contractor shall ensure all required permits are in place prior to the start of clearing and
excavation work operations.
2. Main contractor Geologistshall be presentduringall time toestablishif terrainconditionsallow
to proceed further with the works of clearing and excavations.l
3. The Contractor shall ensure compliance with environmental requirements such as silt fencing,
run-off protection, or dust limitations during clearing and grubbing operation.
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7 CONTRACTOR'S ORGANIZATION FOR ACCESS ROAD CONSTRUCTION
ProjectManager (ErlirCompany)
Construction Manager (Klevi Kalemi)
Site Engineer (Anil Company)
Excavation Team (Surveyor,
Forman, Operator)
HSE Lead (Arber
Dogani)
Geologist(Contractor)
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8 ATTACHMENT A - LOCATION MAP
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9 ATTACHMENT B – PHOTOS
PHOTO1
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10 ATTACHMENT B/2 – PHOTOS
PHOTO 2
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11 ATTACHMENT B/3 – PHOTOS
PHOTO 3
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12 ATTACHMENT C - RISK ASSESSMENT SPECIFIC
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14 ATTACHMENT E – LAST MINUTE RISK ASSESSMENT