Digging deeply into the ground these days is a bit of a risk these days. With buried cables, pipes, and other items, anyone digging a hole in the ground needs to take care that they do not break or damage anything. When something under the ground breaks, it becomes a super duper challenging task to bring it back to the previous form, or fix it, I’d rather say. To avoid that potential damage below the ground, the process of hydro excavation
has turned out to be the most efficient procedure, especially the one offered at Greenfield Services. The above mentioned process involves air vacuum and highly pressurized water. Water is highly pressurized to the extent that it is strong enough to cut through the surface or ground, accurately and precisely. Once the water has the ability to break through the soil, the role of the vacuum which is used to gather the soil together and put it in a debris tank. This procedure provides a safer way to cut through the soil, accurately. Neither does it involve heavy machinery, nor harmful chemicals, so that makes it environmental friendly, and the one offered at Greenfield Services is quite efficient, too.
But our main point of focus here is hydrovac, and the safest procedures around to carry the process out. Hydrovac excavation is quite similar to the procedure we discussed above. It is a trenching technique in which high pressure water jet exerts extremely high water pressure on the soil causing it become super soft and loose. The point of difference here is that it has a heavy duty vacuum cleaner fixed in the machine and it removes the soil simultaneously from the site. This technique is widely used around the world in infrastructure projects; construction projects etc because it is the safer to use, as well as environmental friendly as compared to the other digging and trenching methods available in the market. Greenfield Services has very high quality machinery and a competent staff up their sleeve, to handle all such procedures.
While hydrovac excavation is a feeble and low impact method of trenching, this procedure comes with some innate health and safety hazards. The teams working around it, that are mostly engineering and construction teams, should make proper use of the safety equipment and generate health, safety and environmental plans (HSE) before the trenching procedure begins. Hydrovac technique needs expert handling and if it is not done following the safety protocols, it can turn into a disaster nobody was ready for.
When it comes to hydrovac excavation, it is crucial for the companies to take their time and identify the things or events that is hazardous and threatening to the property or the working team. They should take the necessary steps to minimize the occurrence of such events to avoid any kind of inconvenience. Greenfield Services takes into account all these points and design their services following all kinds of safety protocols. If you end up on the internet, searching for “Hydrovac excavation near me” or Hydro excavation near me, you will find Greenfield Services among the safest companies out there with a highly trained team.
Below are a few procedures that guarantee safe and sound handling of this tricky and technical procedure and mitigate the potential hydrovac risks.
1. Look for the Underground Utilities:
Hydrovac is a digging development action; along these lines, there is the chance of unintentionally striking or harming existing underground utilities. A few covered utilities, for example, telecom links, present almost no danger to development work force. However, based on the job site's location, underground framework might comprise of possibly hazardous utilities, for example, power lines and gaseous petrol lines. Harm to these lines can prompt electric shock, fires, and blasts, which can cause injuries or deaths. Hydrovac should look for the location of all the buried utilities preceding initiation of work. There are many effiecient, non-invasive locating techniques, such as ground-penetrating radar (GPR), X-ray, and electromagnetic location technology, may be used to identify existing buried utilities.
2. Utilize Proper Signage on Site:
Utilizing appropriate signage on a hydrovac place of work includes putting significant notification at work environment doorways and different regions that are easily seen will definitely help. Proper signage would not just warns the laborers about the potential harms on the job site, but they also enforce safe working penvironment.
The signs should warn the workers and nearby residents passing by the site, about the potential hazards the place or working might pose. They should also encourage the use personal protective gear when entering the construction site. They should also put up Danger sign when excavation is going on.
Greenfield Services always follow these protocols to ensure a safe working environment.
3. Make Sure that Workers are Trained:
The staff working at hydrovac facility must have some standardised and sufficient industrial training. They must be aware of the safety protocols. Workers should be familiar with the procedures and equipments used in the process. At Greenfield Services, all the employees are tested for their expertise and each employee is well trained in his/her job.
4. Beware of the Overhead Wires:
While hydrovac manages uncovering the ground surface, legitimate security practices ought to get stuck to while working close to overhead lines. This is especially significant when the boom movement is nearby electrical lines. Safe movement distances ought to check during hardware set up, while the boom is used, and when the gear repositioned. Whenever the voltage of the lines is not known, personnel and equipment ought to stay away from overhead wires.
5. Utilize the Right Pressure:
Hydrovac excavations are viewed as low effect since this procedure doesn't need mechanical cutting devices. However, if by chance that water pressures are excessively high, they can have the ability to break or slice through underground links.
While the actual suggested pressure relies upon a few site-related factors, water pressure of around 2000 psi is adequate for most applications.