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MY PERSONAL OPINION
Let's first look into the typical construction methodology (excerpt from a method statement)
TYPICAL RISK, DANGERS AND HAZARDS DURING U-BOX CULVER INSTALLATION
1) Trench Collapse
The sides of the trench may collapse, especially if the soil is unstable or the trench is deep.
1.1 Preventive Measures
Use trench shoring, trench boxes, or sloping to prevent collapse. Workers should avoid working in trenches without proper protective systems.
2) Heavy Equipment Hazards
Risks associated with the operation of heavy machinery like cranes, excavators, and trucks. These include crushing, falling objects, and equipment malfunction.
Note : Please be aware that limited working space between heavy equipment, such as a crane, and the excavation area can impact the soil load and potentially lead to a collapse.
2.1 Preventive Measures
Ensure proper training and certification of operators, maintain equipment, and establish clear communication and signaling protocols.
Ensure the placement of heavy equipment such as cranes are placed at the appropriate position during excavation. The working space between the crane and the excavation area must be adequate.
3) Falls
Workers can fall into the trench or off equipment.
3.1 Preventive Measures
Install guardrails, barriers, or fencing around open trenches, and ensure workers use harnesses or fall protection gear when necessary.
4) Water Accumulation
Water can accumulate in the trench, leading to slippery conditions or creating a drowning hazard.
4.1 Preventive Measures
Ensure proper drainage and dewatering systems are in place before excavation begins.
5) Exposure to Hazardous Materials
Workers may be exposed to hazardous materials such as contaminated soil or underground utilities.
5.1 Preventive Measures
Conduct a site survey for potential hazards and use appropriate personal protective equipment (PPE).
6) Utility Interference
Risk of damaging underground utilities (like gas, water, or electrical lines) during excavation.
6.2 Preventive Measures
Conduct a utility survey and mark utility locations before excavation. Follow local regulations for safe digging.
INCLEMENT WEATHER
During the rainy season, the ground becomes saturated with water, which can reduce soil stability. This makes the soil more prone to collapsing, especially if the trench walls are not properly supported or shored. Saturated soil can be heavier and less cohesive, increasing the risk of a trench collapse, which poses a safety hazard and can delay the installation process.
Water Accumulation in Trenches
Rainwater can accumulate in the open trenches, creating additional challenges for the installation of the culvert. Waterlogged trenches may require dewatering before installation can proceed, which can add time, effort, and cost to the project.
Difficulties in Compaction and Backfilling
Proper compaction of the backfill material is essential for ensuring the structural stability and longevity of the culvert. However, wet conditions make it difficult to achieve the required compaction levels. Wet or muddy soil may not compact well, potentially leading to settlement issues in the future.
Logistical Challenges
Heavy rain can disrupt transportation of materials and equipment, affect worker safety, and make the construction site more challenging to navigate.
Damage to Installed Structures
Rain can cause erosion around the newly installed culvert if drainage and runoff are not adequately managed, potentially undermining the structure before it is fully set.
DO IT DURING DRY SEASON
Benefits
Reduced Water Interference During the dry season, there is minimal or no water flow in the drainage channel, making it easier to excavate, place, and align the culvert without the risk of flooding or waterlogging.
Improved Safety
Lower water levels reduce the risk of trench collapse and other water-related hazards, such as slippery conditions or equipment getting stuck in mud.
Better Soil Conditions
Dry soil is generally more stable, making excavation and backfilling easier and more effective. It also reduces the risk of soil erosion or settling, which could compromise the culvert's installation.
Efficient Construction
Work can proceed faster in dry conditions since there are fewer weather-related delays, allowing for a more efficient and timely installation.
Typical Safety Slope for Trench Walls
To prevent trench collapse, especially in deeper trenches or in unstable soil conditions, the trench walls should be sloped or benched according to safety standards. The appropriate angle of the slope depends on soil type:
Stable soil
A slope of 1:1 (45 degrees) is typically used.
Less stable soil: A slope of 1.5:1 or even 2:1 (about 33 to 27 degrees) may be necessary.