Write a essay on clean India clean water
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heya guys
clean India and clean water is must important for our health .
because u know sometimes we are having many garbage in our surrounding so childrens and people will be ill by garbage .
and we drink uncleaned water source u see the people will by also water.
we should must know about that the garbage is so dirty. and wants to be clean.
you know people will not live without water we must clean our water.
hope it's help you dear
and Mark as brainliest
and follow me.
clean India and clean water is must important for our health .
because u know sometimes we are having many garbage in our surrounding so childrens and people will be ill by garbage .
and we drink uncleaned water source u see the people will by also water.
we should must know about that the garbage is so dirty. and wants to be clean.
you know people will not live without water we must clean our water.
hope it's help you dear
and Mark as brainliest
and follow me.
ekta55:
how's my answer
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7
The Importance of Clean Water
Fresh water is one of our most vital resources, and when our water is polluted it is not only devastating to the environment, but also to human health. The US relies on public water systems to treat and deliver just over 44 billion gallons of clean water each day to our homes, schools and businesses. Much of that water comes from rivers, lakes and other surface water sources. Before it is delivered to our homes it is treated to remove chemicals, particulates (e.g., soot and silt) and bacteria. This clean, potable water is then used for cooking, drinking, cleaning, bathing, watering our lawns and so forth.
Those that are served by public sanitation systems rely on sewers to keep untreated wastewater from being released into the environment where it could potentially contaminate our drinking water sources and the natural environment. When the water goes down the drain or is flushed down the toilet, it usually enters a sewer system where it travels to a wastewater treatment plant. The plant treats the wastewater and removes solid waste and other contaminants before releasing the treated water it into the environment. Depending on the type of treatment the wastewater receives, water that is released could have different levels of quality from the water body into which it is released.
Even though our local and federal governments make large investments each year to keep our water clean and safe, our water systems still do not receive the amount of funding needed to keep them working properly. A 2007 EPA survey found that water and wastewater infrastructure projects across the country will need a total of $334.8 billion for the 20-year period from January 2007 through December 2027. Unfortunately, during fiscal year 2012, allotments from the Clean Water State Revolving Fund totaled only $1.5 billion for all states. As a result of underfunding, much of our aging infrastructure either doesn’t work properly or is in need of upgrades, all while strained by a growing population, economic development and climate change variability.
One result of underfunding water infrastructure is massive water main breaks. For example, in 2010, a massive main break in Boston led to an order for the public to boil water that affected 2 million people. According to a 2012 report by The American Water Works Association, restoring, replacing and expanding our existing water systems to accommodate a growing population will cost at least $1 trillion over the next 25 years, if we expect to simply tread water and maintain current levels of service.
Fresh water is one of our most vital resources, and when our water is polluted it is not only devastating to the environment, but also to human health. The US relies on public water systems to treat and deliver just over 44 billion gallons of clean water each day to our homes, schools and businesses. Much of that water comes from rivers, lakes and other surface water sources. Before it is delivered to our homes it is treated to remove chemicals, particulates (e.g., soot and silt) and bacteria. This clean, potable water is then used for cooking, drinking, cleaning, bathing, watering our lawns and so forth.
Those that are served by public sanitation systems rely on sewers to keep untreated wastewater from being released into the environment where it could potentially contaminate our drinking water sources and the natural environment. When the water goes down the drain or is flushed down the toilet, it usually enters a sewer system where it travels to a wastewater treatment plant. The plant treats the wastewater and removes solid waste and other contaminants before releasing the treated water it into the environment. Depending on the type of treatment the wastewater receives, water that is released could have different levels of quality from the water body into which it is released.
Even though our local and federal governments make large investments each year to keep our water clean and safe, our water systems still do not receive the amount of funding needed to keep them working properly. A 2007 EPA survey found that water and wastewater infrastructure projects across the country will need a total of $334.8 billion for the 20-year period from January 2007 through December 2027. Unfortunately, during fiscal year 2012, allotments from the Clean Water State Revolving Fund totaled only $1.5 billion for all states. As a result of underfunding, much of our aging infrastructure either doesn’t work properly or is in need of upgrades, all while strained by a growing population, economic development and climate change variability.
One result of underfunding water infrastructure is massive water main breaks. For example, in 2010, a massive main break in Boston led to an order for the public to boil water that affected 2 million people. According to a 2012 report by The American Water Works Association, restoring, replacing and expanding our existing water systems to accommodate a growing population will cost at least $1 trillion over the next 25 years, if we expect to simply tread water and maintain current levels of service.
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