BEP Shaft Rescue Robot (2022/2023, Q3): Difference between revisions
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== Borehole/Well Analysis == | ==Borehole/Well Analysis== | ||
During the analysis of the different incidents, it was found that most of the cases involved either wells or boreholes. Thus further research into the specifications of these holes should be done. | During the analysis of the different incidents, it was found that most of the cases involved either wells or boreholes. Thus further research into the specifications of these holes should be done. | ||
Wells can be classified into three types : | Wells can be classified into three types<span> </span>: | ||
* hand-dug wells | *hand-dug wells | ||
* driven wells | *driven wells | ||
* drilled wells or boreholes | *drilled wells or boreholes | ||
In this section the different types of wells will be explained and there will be a analysis on the dept, diameter and the change of collapse. | In this section the different types of wells will be explained and there will be a analysis on the dept, diameter and the change of collapse. | ||
=== Hand-dug Wells === | ===Hand-dug Wells=== | ||
With the exception of modern wells, these wells are manually dug holes in the ground using shovels, picks, and similar tools. Typically, they are not very deep and range from 8 to 20 meters. There are two main catogrories of Hand dug wells these are traditional wells and modern wells. | With the exception of modern wells, these wells are manually dug holes in the ground using shovels, picks, and similar tools. Typically, they are not very deep and range from 8 to 20 meters. There are two main catogrories of Hand dug wells these are traditional wells and modern wells. | ||
==== Traditinal wells ==== | ====Traditinal wells==== | ||
Traditional wells are constructed using local resources and traditional methods, often with the assistance of professional well-diggers. These wells are dug by hand without concrete spouts, and the walls are supported only by wood or branches. The diameter of these wells varies, but they tend to be smaller than modern wells. Traditional wells can be split up into two subsections, temporary wells and permantent wells. | Traditional wells are constructed using local resources and traditional methods, often with the assistance of professional well-diggers. These wells are dug by hand without concrete spouts, and the walls are supported only by wood or branches. The diameter of these wells varies, but they tend to be smaller than modern wells. Traditional wells can be split up into two subsections, temporary wells and permantent wells. | ||
===== Temporary wells ===== | =====Temporary wells===== | ||
Temporary wells are quickly constructed with simple linings of branches or straw and are typically less than 10 meters deep. However, they require regular reinforcement to prevent collapse, and the amount of water they can supply is limited. | Temporary wells are quickly constructed with simple linings of branches or straw and are typically less than 10 meters deep. However, they require regular reinforcement to prevent collapse, and the amount of water they can supply is limited. | ||
===== Permanent wells ===== | =====Permanent wells===== | ||
Permanent wells are dug deeper, often reaching depths of 10-20 meters or more. Experienced well-diggers construct these wells, and the diameter typically ranges from 0.8 to 1 meter. Although they have a longer lifespan than temporary wells, the walls of permanent wells may deteriorate over time if not supported adequately. | Permanent wells are dug deeper, often reaching depths of 10-20 meters or more. Experienced well-diggers construct these wells, and the diameter typically ranges from 0.8 to 1 meter. Although they have a longer lifespan than temporary wells, the walls of permanent wells may deteriorate over time if not supported adequately. | ||
==== | ====Modern wells==== | ||
Modern wells are often constructed with mechanical digging equipment, although hand digging may also be used. The diameter of these wells varies from 1 to 1.8 meters, and the walls are firmly supported by a metal or concrete casing. The wells are topped with a margelle (coping) and protected from animals. | Modern wells are often constructed with mechanical digging equipment, although hand digging may also be used. The diameter of these wells varies from 1 to 1.8 meters, and the walls are firmly supported by a metal or concrete casing. The wells are topped with a margelle (coping) and protected from animals. | ||
==== Change of Collapsing ==== | ====Change of Collapsing==== | ||
Temporary digging wells are typically shallow and used for short periods. These wells have a higher chance of collapsing due to their lack of structural stability, which can result in injuries and fatalities. The walls of these wells are not lined with any materials, which increases the risk of collapse. Additionally, temporary wells may be dug in areas with soft soils, which can quickly erode, further increasing the risk of collapse. | Temporary digging wells are typically shallow and used for short periods. These wells have a higher chance of collapsing due to their lack of structural stability, which can result in injuries and fatalities. The walls of these wells are not lined with any materials, which increases the risk of collapse. Additionally, temporary wells may be dug in areas with soft soils, which can quickly erode, further increasing the risk of collapse. | ||
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There are different driving techniques for driven wells: | There are different driving techniques for driven wells: | ||
* Percussion driving | *Percussion driving | ||
* Water injection driving | *Water injection driving | ||
* Undercutting driving | *Undercutting driving | ||
Depending on the driving technique used, driven wells can have varying diameters and depths, with the desired flow rate also playing a role. | Depending on the driving technique used, driven wells can have varying diameters and depths, with the desired flow rate also playing a role. | ||
Revision as of 14:50, 15 February 2023
Borehole/Well Analysis
During the analysis of the different incidents, it was found that most of the cases involved either wells or boreholes. Thus further research into the specifications of these holes should be done.
Wells can be classified into three types :
- hand-dug wells
- driven wells
- drilled wells or boreholes
In this section the different types of wells will be explained and there will be a analysis on the dept, diameter and the change of collapse.
Hand-dug Wells
With the exception of modern wells, these wells are manually dug holes in the ground using shovels, picks, and similar tools. Typically, they are not very deep and range from 8 to 20 meters. There are two main catogrories of Hand dug wells these are traditional wells and modern wells.
Traditinal wells
Traditional wells are constructed using local resources and traditional methods, often with the assistance of professional well-diggers. These wells are dug by hand without concrete spouts, and the walls are supported only by wood or branches. The diameter of these wells varies, but they tend to be smaller than modern wells. Traditional wells can be split up into two subsections, temporary wells and permantent wells.
Temporary wells
Temporary wells are quickly constructed with simple linings of branches or straw and are typically less than 10 meters deep. However, they require regular reinforcement to prevent collapse, and the amount of water they can supply is limited.
Permanent wells
Permanent wells are dug deeper, often reaching depths of 10-20 meters or more. Experienced well-diggers construct these wells, and the diameter typically ranges from 0.8 to 1 meter. Although they have a longer lifespan than temporary wells, the walls of permanent wells may deteriorate over time if not supported adequately.
Modern wells
Modern wells are often constructed with mechanical digging equipment, although hand digging may also be used. The diameter of these wells varies from 1 to 1.8 meters, and the walls are firmly supported by a metal or concrete casing. The wells are topped with a margelle (coping) and protected from animals.
Change of Collapsing
Temporary digging wells are typically shallow and used for short periods. These wells have a higher chance of collapsing due to their lack of structural stability, which can result in injuries and fatalities. The walls of these wells are not lined with any materials, which increases the risk of collapse. Additionally, temporary wells may be dug in areas with soft soils, which can quickly erode, further increasing the risk of collapse.
Permanent wells are designed for long-term use and are more structurally stable than temporary digging wells. These wells are typically lined with concrete, stone, or brick to prevent collapse, and often have a mechanical pumping system in place to draw water. Although permanent wells are less likely to collapse than temporary wells, they still require regular maintenance to ensure their structural integrity.
Modern hand-dug wells are a more recent development and use modern materials and techniques. These wells are typically lined with precast concrete rings or PVC casing, which makes them more structurally sound and less likely to collapse. Modern hand-dug wells are also designed to allow for easy installation of pumps and other accessories, making them more convenient to use and maintain.
Driven Wells
A driven well, also known as an instantaneous well or sand-point well, is a capture-engineered structure that is dug vertically by driving a perforated pipe with a pointed end directly into the ground using a variety of techniques until it reaches the water table. This technique is suitable for soft or medium-hard ground.
Driving Techniques
There are different driving techniques for driven wells:
- Percussion driving
- Water injection driving
- Undercutting driving
Depending on the driving technique used, driven wells can have varying diameters and depths, with the desired flow rate also playing a role.
Small-diameter wells with depths of less than 15-20 meters can be dug using percussion driving. Water injection driving can dig wells up to around 30-40 meters deep, while large-diameter wells with depths of 15-20 meters can be dug using undercutting driving. However, driven wells are generally limited to shallow or average depths of less than 40-45 meters and are more exposed to contamination and drying out during periods of drought.
Change of collapsing
The manufacturing method of a driven well can have different effects on the surrounding ground, depending on the driving technique used.
Percussion driving involves driving a pipe into the ground using a heavy tool and has the potential to cause the ground to collapse. This technique is not suitable for hard ground and requires the ground to be free of stones or rocks. If the ground is at risk of collapsing, a preliminary well casing must be inserted and removed when the final pipe is installed.
Water injection driving involves injecting water under pressure to create a hole in the ground. The water wells up at the bottom of the hole outside the pipe walls and rises to the surface of the ground as mud containing the ground cuttings. This mud can stabilize the walls of the well, reducing the risk of collapse.
Undercutting driving involves constructing a large-diameter pipe and digging inside it to lower it gradually. The weight of the pipe pushes it downwards as the digging progresses, and the earth is dug out from inside either manually or with a mechanized bucket that empties the inside of the pipe. Due to the large diameter of the pipe, this method has a lower risk of collapse than percussion driving. However, it may not be suitable for hard ground or areas with rocks or large stones.
TEAM:
- Luke Alkemade (l.n.alkemade@student.tue.nl)
- Arif Ashworth (a.j.ashworth@student.tue.nl)
- Guillem Ribes Espurz (g.ribes.espurz@student.tue.nl)
- Stijn Michiels (s.f.h.michiels@student.tue.nl / +31 6 12871230)
- Vadims Kisels (v.kisels@student.tue.nl)
- Thomas Leniere (t.leniere@student.tue.nl)