Mining and Water Quality

Software mining , quality , water https://www.aquaread.com/blog/mining-and-water-quality/
In order to access the minerals underground, we have to mine for them. For many years, the priority of finding these materials greatly outweighed any thoughts of negative environmental impact. However, a growing concern over the effects of mining, particularly how it may pollute water supplies, has caused an industry-wide rethink of dangerous mining practices. Learn more about the effects of mining on water quality, and what can be done to minimise the impact, here. The effects of mining on water quality During the practice of mining, rocks and minerals that were once trapped underground are exposed to the air. This often leads to acid rock drainage (ARD), and acid mine drainage (AMD). When acid rock drainage occurs, the sulphides in rocks come into contact with air and water, creating sulphuric acid. After rainfall or surface drainage, the sulphuric acid is carried into streams, and onto other water sources. The acid then renders the water undrinkable, and can destroy marine life. Due to waste rocks and open pits, acid rock drainage occurs on a large scale during mining. This is known as acid mine drainage. As the process keeps happening until all the sulphide is leached, one pit can result in thousands of years of AMD. Acid mine drainage is just one way that mining can degrade water quality. Chemical leaching can occur from both exposed rocks and chemical run-off during the ore separating process. And even the sediment disturbed and created during mining can lead to water pollution. What is the mining industry doing to minimise the issue? The very nature of mining itself means an impact on the environment is unavoidable. What the mining industry can do, however, is try to minimise this impact. Preventing and treating acid mine drainage should be a key concern of the industry. Treating AMD focuses on removing leached acids from the water, adjusting the pH back to an acceptable level. One method being actively employed is chemical treatment. Chemical treatment involves adding alkali chemicals to a contaminated water supply. Common chemicals used include limestone and soda ash, but organic decomposing materials such as newspaper have also been effective. Physical treatment is another potential treatment. Artificial waterfalls are used to disturb affected water and add oxygen, which then creates an iron hydroxide sludge. The sludge is heavy, so can be removed from the water and treated. Cost-effective methods of prevention, rather than treatment, are also being trialled. Covering the exposed rocks in waste piles has proved to be an effective but expensive control method. Mining and water monitoring Monitoring water quality near a mine is crucial. Correct and consistent water monitoring can help find an issue, and ensure pollution is dealt with immediately. As treatment often involves using other chemicals to establish a balance, thorough monitoring must be employed. Mining has a huge effect on the environment, and correcting past mistakes often feels like a game of catch-up. However, the impact of mining on water quality can be minimised ֠as long as the correct measures are employed, and action is taken. Here at Aquaread, we have the tools you need to reliably monitor water quality in the mining industry נtake a look at ourMining Applications page to see some of our suitablemonitoring equipment. The postMining and Water Quality appeared first onAquaread.
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Water makes the world go round. Itҳ crucial that we protect it, and one such way to do that is through water quality testing. There are so many reasons why you might need to test water quality, and so many factors that make up ѱualityҠin the first place. So in this blog, we wanted to dive into the basics of water quality testing נthe whys and hows. Read on to discover more. 1. Establish which water source you need to test The water source that you need to test will determine the kind of test you should carry out. Typical applications include: Surface water testing נlakes, rivers, and coastal waters Groundwater testing נwater that has seeped into the earth and into underground aquifers Aquaculture testing נareas for farming aquatic organisms Mining &construction monitoring Marine water monitoring 2. Decide on the parameters to test for Depending on your application, there are a range of factors and contaminants that you might want to test for in establishing water quality. Here at Aquaread, our water monitoring equipment can be installed with a range of sensors. Here are some factors you may consider: pH levels This is one of the most common water quality measurements taken, establishing how acid or alkaline water is נand for good reason. ThepH of water can impact the nutrient density, microbial activity, chemical behaviour, and the lives of aquatic organisms. PH is found by measuring the amount of free hydrogen and hydroxyl ions in the water. The higher the concentration of free hydrogen, the more acidic the water, while a higher level of hydroxyl ions indicates alkalinity. Dissolved oxygen (DO) Thelevel of DO in water correlates to the health of aquatic life therein נsimply because, well, oxygen is crucial for all life forms. Low levels of DO can harm aquatic life, and the opposite is also true. If the water is too saturated with oxygen, nothing much will thrive there. Salinity Thesalinity of water refers to the concentration of salt and is measured by testing the waterҳ electrical conductivity. Saltwater is more conductive than water with low or no salt content. Ammonia/ammonium Testing for ammonia in water can provide another crucial indicator of water quality. High levels of ammonia can indicate contamination with pollutants such as fertiliser and industrial waste from the manufacturing of plastics, rubber, and more. Blue-green algae This photosynthetic bacteria can grow in both fresh and marine water where water is warm and rich in nutrients. If toxic algal blooms form, they can limit the growth of other plants below and lead to the water becoming hypoxic (starved of oxygen) and uninhabitable.Testing for blue-green algae, therefore, is an important indicator of the health of a body of water. A range of other parameters These are just some of the factors you may want to test for when establishing water quality. Take alook at our sensors page to discover more, from Chloride to Nitrate! 3. Choose your water testing tool Now you know the parameters you are looking to test, youҬl have a better idea of what sort of equipment you need. There are many effective at-home tests you can do to begin learning more about water quality. For example, you canuse pH sticks if youҲe just looking for a simple, educational test of pH levels. Other at-home test kits commonly measure lead, bacteria, nitrates, and chlorine. But if youҲe looking for a more in-depth water quality test for commercial, industrial, or environmental monitoring purposes,browse our range of water quality monitoring products. Take ourAP-600 as an example. This multiparameter probe can measure: Optical DO Specific EC Absolute EC pH ORP TDS Resistivity Salinity SSG Temperature Depth Not only that, but it has 4 spare auxiliary sockets so that you can add further sensors of your choosing. Used in combination with one of ourlogging tools, the Aquaprobe is a powerful water quality measuring device. 4. Ensure your equipment is installed & calibrated correctly When you get your water quality measuring equipment, youҬl need to install and calibrate your sensors before use. Installation is simple: first, unscrew the blanking cap from the aux socket, apply the provided silicone grease to the thread, and screw in your sensor. From there, calibration is made as easy and automated as possible נin a few short steps, your sensor will be calibrated and ready to use. View each individualsensor page for information on the calibration requirements, and discover more about thecalibration process in our video. 5. Test, test, test From here, youҲe ready to test water quality to your heartҳ content נwhether itҳ to establish the impact ofurban runoff on local lakes or the quality of drinking water in underground aquifers. Discover more aboutAquaread here and, if you have any questions about water quality testing, donҴ hesitate toget in touch with our team! The postThe Basics: How to Test Water Quality appeared first onAquaread.
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Water makes the world go round. Itҳ crucial that we protect it, and one such way to do that is through water quality testing. There are so many reasons why you might need to test water quality, and so many factors that make up ѱualityҠin the first place. So in this blog, we wanted to dive into the basics of water quality testing נthe whys and hows. Read on to discover more. 1. Establish which water source you need to test The water source that you need to test will determine the kind of test you should carry out. Typical applications include: Surface water testing נlakes, rivers, and coastal waters Groundwater testing נwater that has seeped into the earth and into underground aquifers Aquaculture testing נareas for farming aquatic organisms Mining &construction monitoring Marine water monitoring 2. Decide on the parameters to test for Depending on your application, there are a range of factors and contaminants that you might want to test for in establishing water quality. Here at Aquaread, our water monitoring equipment can be installed with a range of sensors. Here are some factors you may consider: pH levels This is one of the most common water quality measurements taken, establishing how acid or alkaline water is נand for good reason. ThepH of water can impact the nutrient density, microbial activity, chemical behaviour, and the lives of aquatic organisms. PH is found by measuring the amount of free hydrogen and hydroxyl ions in the water. The higher the concentration of free hydrogen, the more acidic the water, while a higher level of hydroxyl ions indicates alkalinity. Dissolved oxygen (DO) Thelevel of DO in water correlates to the health of aquatic life therein נsimply because, well, oxygen is crucial for all life forms. Low levels of DO can harm aquatic life, and the opposite is also true. If the water is too saturated with oxygen, nothing much will thrive there. Salinity Thesalinity of water refers to the concentration of salt and is measured by testing the waterҳ electrical conductivity. Saltwater is more conductive than water with low or no salt content. Ammonia/ammonium Testing for ammonia in water can provide another crucial indicator of water quality. High levels of ammonia can indicate contamination with pollutants such as fertiliser and industrial waste from the manufacturing of plastics, rubber, and more. Blue-green algae This photosynthetic bacteria can grow in both fresh and marine water where water is warm and rich in nutrients. If toxic algal blooms form, they can limit the growth of other plants below and lead to the water becoming hypoxic (starved of oxygen) and uninhabitable.Testing for blue-green algae, therefore, is an important indicator of the health of a body of water. A range of other parameters These are just some of the factors you may want to test for when establishing water quality. Take alook at our sensors page to discover more, from Chloride to Nitrate! 3. Choose your water testing tool Now you know the parameters you are looking to test, youҬl have a better idea of what sort of equipment you need. There are many effective at-home tests you can do to begin learning more about water quality. For example, you canuse pH sticks if youҲe just looking for a simple, educational test of pH levels. Other at-home test kits commonly measure lead, bacteria, nitrates, and chlorine. But if youҲe looking for a more in-depth water quality test for commercial, industrial, or environmental monitoring purposes,browse our range of water quality monitoring products. Take ourAP-600 as an example. This multiparameter probe can measure: Optical DO Specific EC Absolute EC pH ORP TDS Resistivity Salinity SSG Temperature Depth Not only that, but it has 4 spare auxiliary sockets so that you can add further sensors of your choosing. Used in combination with one of ourlogging tools, the Aquaprobe is a powerful water quality measuring device. 4. Ensure your equipment is installed & calibrated correctly When you get your water quality measuring equipment, youҬl need to install and calibrate your sensors before use. Installation is simple: first, unscrew the blanking cap from the aux socket, apply the provided silicone grease to the thread, and screw in your sensor. From there, calibration is made as easy and automated as possible נin a few short steps, your sensor will be calibrated and ready to use. View each individualsensor page for information on the calibration requirements, and discover more about thecalibration process in our video. 5. Test, test, test From here, youҲe ready to test water quality to your heartҳ content נwhether itҳ to establish the impact ofurban runoff on local lakes or the quality of drinking water in underground aquifers. Discover more aboutAquaread here and, if you have any questions about water quality testing, donҴ hesitate toget in touch with our team! The postThe Basics: How to Test Water Quality appeared first onAquaread.
In order to access the minerals underground, we have to mine for them. For many years, the priority of finding these materials greatly outweighed any thoughts of negative environmental impact. However, a growing concern over the effects of mining, particularly how it may pollute water supplies, has caused an industry-wide rethink of dangerous mining practices. Learn more about the effects of mining on water quality, and what can be done to minimise the impact, here. The effects of mining on water quality During the practice of mining, rocks and minerals that were once trapped underground are exposed to the air. This often leads to acid rock drainage (ARD), and acid mine drainage (AMD). When acid rock drainage occurs, the sulphides in rocks come into contact with air and water, creating sulphuric acid. After rainfall or surface drainage, the sulphuric acid is carried into streams, and onto other water sources. The acid then renders the water undrinkable, and can destroy marine life. Due to waste rocks and open pits, acid rock drainage occurs on a large scale during mining. This is known as acid mine drainage. As the process keeps happening until all the sulphide is leached, one pit can result in thousands of years of AMD. Acid mine drainage is just one way that mining can degrade water quality. Chemical leaching can occur from both exposed rocks and chemical run-off during the ore separating process. And even the sediment disturbed and created during mining can lead to water pollution. What is the mining industry doing to minimise the issue? The very nature of mining itself means an impact on the environment is unavoidable. What the mining industry can do, however, is try to minimise this impact. Preventing and treating acid mine drainage should be a key concern of the industry. Treating AMD focuses on removing leached acids from the water, adjusting the pH back to an acceptable level. One method being actively employed is chemical treatment. Chemical treatment involves adding alkali chemicals to a contaminated water supply. Common chemicals used include limestone and soda ash, but organic decomposing materials such as newspaper have also been effective. Physical treatment is another potential treatment. Artificial waterfalls are used to disturb affected water and add oxygen, which then creates an iron hydroxide sludge. The sludge is heavy, so can be removed from the water and treated. Cost-effective methods of prevention, rather than treatment, are also being trialled. Covering the exposed rocks in waste piles has proved to be an effective but expensive control method. Mining and water monitoring Monitoring water quality near a mine is crucial. Correct and consistent water monitoring can help find an issue, and ensure pollution is dealt with immediately. As treatment often involves using other chemicals to establish a balance, thorough monitoring must be employed. Mining has a huge effect on the environment, and correcting past mistakes often feels like a game of catch-up. However, the impact of mining on water quality can be minimised ֠as long as the correct measures are employed, and action is taken. Here at Aquaread, we have the tools you need to reliably monitor water quality in the mining industry נtake a look at ourMining Applications page to see some of our suitablemonitoring equipment. The postMining and Water Quality appeared first onAquaread.
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Mining and Water Quality

Software mining , quality , water https://www.aquaread.com/blog/mining-and-water-quality/
In order to access the minerals underground, we have to mine for them. For many years, the priority of finding these materials greatly outweighed any thoughts of negative environmental impact. However, a growing concern over the effects of mining, particularly how it may pollute water supplies, has caused an industry-wide rethink of dangerous mining practices. Learn more about the effects of mining on water quality, and what can be done to minimise the impact, here. The effects of mining on water quality During the practice of mining, rocks and minerals that were once trapped underground are exposed to the air. This often leads to acid rock drainage (ARD), and acid mine drainage (AMD). When acid rock drainage occurs, the sulphides in rocks come into contact with air and water, creating sulphuric acid. After rainfall or surface drainage, the sulphuric acid is carried into streams, and onto other water sources. The acid then renders the water undrinkable, and can destroy marine life. Due to waste rocks and open pits, acid rock drainage occurs on a large scale during mining. This is known as acid mine drainage. As the process keeps happening until all the sulphide is leached, one pit can result in thousands of years of AMD. Acid mine drainage is just one way that mining can degrade water quality. Chemical leaching can occur from both exposed rocks and chemical run-off during the ore separating process. And even the sediment disturbed and created during mining can lead to water pollution. What is the mining industry doing to minimise the issue? The very nature of mining itself means an impact on the environment is unavoidable. What the mining industry can do, however, is try to minimise this impact. Preventing and treating acid mine drainage should be a key concern of the industry. Treating AMD focuses on removing leached acids from the water, adjusting the pH back to an acceptable level. One method being actively employed is chemical treatment. Chemical treatment involves adding alkali chemicals to a contaminated water supply. Common chemicals used include limestone and soda ash, but organic decomposing materials such as newspaper have also been effective. Physical treatment is another potential treatment. Artificial waterfalls are used to disturb affected water and add oxygen, which then creates an iron hydroxide sludge. The sludge is heavy, so can be removed from the water and treated. Cost-effective methods of prevention, rather than treatment, are also being trialled. Covering the exposed rocks in waste piles has proved to be an effective but expensive control method. Mining and water monitoring Monitoring water quality near a mine is crucial. Correct and consistent water monitoring can help find an issue, and ensure pollution is dealt with immediately. As treatment often involves using other chemicals to establish a balance, thorough monitoring must be employed. Mining has a huge effect on the environment, and correcting past mistakes often feels like a game of catch-up. However, the impact of mining on water quality can be minimised ֠as long as the correct measures are employed, and action is taken. Here at Aquaread, we have the tools you need to reliably monitor water quality in the mining industry נtake a look at ourMining Applications page to see some of our suitablemonitoring equipment. The postMining and Water Quality appeared first onAquaread.
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