A K De Environmental Chemistry Pdf

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The use of microwaves for heating is well established in society, being used in domestic and some industrial processes. However, there is potential for this technology to be introduced and applied to many other industrial heating processes, which offers unique advantages not attained with conventional heating. In this sense, microwave technology is being explored as one method to assist in.

Uranium as a lithophilic element of not negligible chemical toxicity and in the same time as a natural radioactive component of the environment occurs in the Earth’s crust reaching an average concentration almost 4 10−4 percent by mass. In spite of these facts the existence of uranium did not bring about significant environmental impacts – in whole of their context – until. Environmental Chemistry PART A: THE EARTH'S ATMOSPHERE 2. The Earth's Atmosphere 3. Stratospheric chemistry-ozone 4. Tropospheric chemistry-smog 5. Tropospheric chemistry-precipitation 6. Atmospheric aerosols 7. Chemistry of urban and indoor atmospheres 8. The chemistry of global climate PART B: THE HYDROSPHERE 9. The hydrosphere 10. Distribution of species in aquatic.

Shenandoah Valley Governor's School
The SVGS logo is a form of the Sierpinski triangle.
Address

,
22939

Information
TypeMagnet school
Established1993
School districtAugusta County Public Schools
DirectorLee Ann Whitesell
Grades11-12
Number of students175
Color(s)Teal, purple
WebsiteShenandoah Valley Governor's School

The Shenandoah Valley Governor's School is one of Virginia's 18 state-initiated magnetGovernor's Schools. It is a part-time school where 11th and 12th grade students take advanced classes in the morning (receiving their remaining classes from their home high school).

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Curriculum[edit]

There are two curricula at SVGS:

The curriculum for the Math Science and Technology program includes the following college prep and dual enrollment classes: Research and Engineering, Robotics, Advanced Technology, Astrophysics, AP Computer Science, Pre Calculus, AP Calculus, DE Calculus, DE Discrete Mathematics, AP Statistics, DE Molecular Biology, AP Environmental Science, DE Environmental Chemistry, DE Physics, and Modern Physics.

The curriculum for the Arts and Humanities program includes DE Acting I (through JMU), Acting II, DE Introduction to Theatre (through JMU), Advanced Dramatic Theories and Criticism, advanced art classes, DE Humanities 111/112, DE Communication, DE Psychology, and DE The Humanities in Western Culture (through BRCC).

Contributing schools[edit]

Extracurricular activities[edit]

Environmental
  • Electric Vehicle Team
  • Robotics Team
  • Network Team
  • Envirothon Team
  • Outreach (with elementary and middle schoolers)

External links[edit]

Coordinates: 38°6′55.8″N78°59′20″W / 38.115500°N 78.98889°W

Retrieved from 'https://en.wikipedia.org/w/index.php?title=Shenandoah_Valley_Governor%27s_School&oldid=991246995'
Water purification
  • Process
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Join Britannica's Publishing Partner Program and our community of experts to gain a global audience for your work! Stephen T. SchrothSee All ContributorsA K De Environmental Chemistry Pdf
Contributor to SAGE Publications's Green Technology: An A-to-Z Guide (2011) whose work for that encyclopedia formed the basis of his contributions to Britannica.
Alternative Title: water treatment

Water purification, process by which undesired chemical compounds, organic and inorganic materials, and biological contaminants are removed from water. That process also includes distillation (the conversion of a liquid into vapour to condense it back to liquid form) and deionization (ion removal through the extraction of dissolved salts). One major purpose of water purification is to provide clean drinking water. Water purification also meets the needs of medical, pharmacological, chemical, and industrial applications for clean and potable water. The purification procedure reduces the concentration of contaminants such as suspended particles, parasites, bacteria, algae, viruses, and fungi. Water purification takes place on scales from the large (e.g., for an entire city) to the small (e.g., for individual households).

Most communities rely on natural bodies of water as intake sources for water purification and for day-to-day use. In general, these resources can be classified as groundwater or surface water and commonly include underground aquifers, creeks, streams, rivers, and lakes. With recent technological advancements, oceans and saltwater seas have also been used as alternative water sources for drinking and domestic use.

Determining water quality

Historical evidence suggests that water treatment was recognized and practiced by ancient civilizations. Basic treatments for water purification have been documented in Greek and Sanskrit writings, and Egyptians used alum for precipitation as early as 1500 bce.

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In modern times, the quality to which water must be purified is typically set by government agencies. Whether set locally, nationally, or internationally, government standards typically set maximum concentrations of harmful contaminants that can be allowed in safe water. Since it is nearly impossible to examine water simply on the basis of appearance, multiple processes, such as physical, chemical, or biological analyses, have been developed to test contamination levels. Levels of organic and inorganic chemicals, such as chloride, copper, manganese, sulfates, and zinc, microbial pathogens, radioactive materials, and dissolved and suspended solids, as well as pH, odour, colour, and taste, are some of the common parameters analyzed to assess water quality and contamination levels.

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Regular household methods such as boiling water or using an activated-carbon filter can remove some water contaminants. Although those methods are popular because they can be used widely and inexpensively, they often do not remove more dangerous contaminants. For example, natural spring water from artesian wells was historically considered clean for all practical purposes, but it came under scrutiny during the first decade of the 21st century because of worries over pesticides, fertilizers, and other chemicals from the surface entering wells. As a result, artesian wells were subjected to treatment and batteries of tests, including tests for the parasite Cryptosporidium.

Not all people have access to safe drinking water. According to a 2017 report by the United Nations (UN) World Health Organization (WHO), 2.1 billion people lack access to a safe and reliable drinking water supply at home. Eighty-eight percent of the four billion annual cases of diarrhea reported worldwide have been attributed to a lack of sanitary drinking water. Each year approximately 525,000 children under age five die from diarrhea, the second leading cause of death, and 1.7 million are sickened by diarrheal diseases caused by unsafe water, coupled with inadequate sanitation and hygiene.

Process

Most water used in industrialized countries is treated at water treatment plants. Although the methods those plants use in pretreatment depend on their size and the severity of the contamination, those practices have been standardized to ensure general compliance with national and international regulations. The majority of water is purified after it has been pumped from its natural source or directed via pipelines into holding tanks. After the water has been transported to a central location, the process of purification begins.

Pretreatment

In pretreatment, biological contaminants, chemicals, and other materials are removed from water. The first step in that process is screening, which removes large debris such as sticks and trash from the water to be treated. Screening is generally used when purifying surface water such as that from lakes and rivers. Surface water presents a greater risk of having been polluted with large amounts of contaminants. Pretreatment may include the addition of chemicals to control the growth of bacteria in pipes and tanks (prechlorination) and a stage that incorporates sandfiltration, which helps suspended solids settle to the bottom of a storage tank.

Preconditioning, in which water with high mineral content (hard water) is treated with sodium carbonate (soda ash), is also part of the pretreatment process. During that step, sodium carbonate is added to the water to force out calciumcarbonate, which is one of the main components in shells of marine life and is an active ingredient in agricultural lime. Preconditioning ensures that hard water, which leaves mineral deposits behind that can clog pipes, is altered to achieve the same consistency as soft water.

Prechlorination, which is often the final step of pretreatment and a standard practice in many parts of the world, has been questioned by scientists. During the prechlorination process, chlorine is applied to raw water that may contain high concentrations of natural organic matter. This organic matter reacts with chlorine during the disinfection process and can result in the formation of disinfection by-products (DBPs), such as trihalomethanes, haloacetic acids, chlorite, and bromate. Exposure to DBPs in drinking water can lead to health issues. Worries stem from the practice’s possible association with stomach and bladdercancer and the hazards of releasing chlorine into the environment.

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