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A panel of respected air pollution control educators and practicing
professionals critically survey the both principles and practices
underlying control processes, and illustrate these with a host of
detailed design examples for practicing engineers. The authors
discuss the performance, potential, and limitations of the major
control processes-including fabric filtration, cyclones,
electrostatic precipitation, wet and dry scrubbing, and
condensation-as a basis for intelligent planning of abatement
systems, . Additional chapters critically examine flare processes,
thermal oxidation, catalytic oxidation, gas-phase activated carbon
adsorption, and gas-phase biofiltration. The contributors detail
the Best Available Technologies (BAT) for air pollution control and
provide cost data, examples, theoretical explanations, and
engineering methods for the design, installation, and operation of
air pollution process equipment. Methods of practical design
calculation are illustrated by numerous numerical calculations.
Leading pollution control educators and practicing professionals
describe how various combinations of different cutting-edge process
systems can be arranged to solve air, noise, and thermal pollution
problems. Each chapter discusses in detail a variety of process
combinations, along with technical and economic evaluations, and
presents explanations of the principles behind the designs, as well
as numerous variant designs useful to practicing engineers. The
emphasis throughout is on developing the necessary engineering
solutions from fundamental principles of chemistry, physics, and
mathematics.
The authors also include extensive references, cost data, design
methods, guidance on the installation and operation of various air
pollution control process equipment and systems, and Best Available
Technologies (BAT) for air thermal and noise pollution control.
The past few years have seen the emergence of a growing, widespread
desire in this country, and indeed everywhere, that positive
actions be taken to restore the quality of our environment, and to
protect it from the degrading effects of all forms of
pollution-air, noise, solid waste, and water. Since pollution is a
direct or indirect consequence of waste, if there is no waste,
there can be no pollution, and the seemingly idealistic demand for
"zero discharge" can be construed as a demand for zero waste.
However, as long as there is waste, we can only attempt to abate
the consequent pollution by converting it to a less noxious form.
In those instances in which a particular type of pollution has been
recognized, three major questions usually arise: (1) How serious is
the pollution? (2) Is the technology to abate it available? and (3)
Do the costs of abatement justify the degree of abatement achieved?
The principal intention of this series of books on environmental
engineering is to help the reader formu late useful answers to the
second and third of these questions, i. e., to outline the best
currently available engineering solutions, and to examine their
costs in the light of the real level of benefits afforded."
The past few years have seen the emergence of a growing, widespread
desire in this country, and indeed everywhere, that positive
actions be taken to restore the quality of our environment, and to
protect it from the degrading effects of all forms of
pollution-air, noise, solid waste, and water. Since pollution is a
direct or" indirect consequence of waste, if there is no waste,
there can be no pollution, and the seemingly idealistic demand for"
zero discharge" can be construed as a demand for zero waste.
However, as long as there is waste, we can only attempt to abate
the consequent pollution by converting it to a less noxious form.
In those instances in which a particular type of pollution has been
recognized, three major questions usually arise: 1, How serious is
the pollution? 2, Is the technology to abate it available? and 3,
Do the costs of abatement justify the degree of abatement achieved?
The principal intention of this series of books is to help the
reader to formulate answers to the last two of the above three
questions. The traditional approach of applying tried-and-true
solutions to specific pollution problems has been a major factor
contributing to the success of environmental engineering, and in
large measure has accounted for the establishing ofa "methodology
of pollution control.
The past few years have seen the emergence of a growing, widespread
desire in this country, and indeed everywhere, that positive
actions be taken to restore the quality of our environment, and to
protect it from the degrading effects of all forms of
pollution-air, noise, solid waste, and water. Since pollution is a
direct or" indirect consequence of waste, if there is no waste,
there can be no pollution, and the seemingly idealistic demand for"
zero discharge" can be construed as a demand for zero waste.
However, as long as there is waste, we can only attempt to abate
the consequent pollution by converting it to a less noxious form.
In those instances in which a particular type of pollution has been
recognized, three major questions usually arise: 1, How serious is
the pollution? 2, Is the technology to abate it available? and 3,
Do the costs of abatement justify the degree of abatement achieved?
The principal intention of this series of books is to help the
reader to formulate answers to the last two of the above three
questions. The traditional approach of applying tried-and-true
solutions to specific pollution problems has been a major factor
contributing to the success of environmental engineering, and in
large measure has accounted for the establishing of a "methodology
of pollution control.
The past few years have seen the emergence of a growing, widespread
desire in this country, and indeed everywhere, that positive
actions be taken to restore the quality of our environment, and to
protect it from the degrading effects of all forms of
pollution-air, noise, solid waste, and water. Since pollution is a
direct or" indirect consequence of waste, if there is no waste,
there can be no pollution, and the seemingly idealistic demand for"
zero discharge" can be construed as a demand for zero waste.
However, as long as there is waste, we can only attempt to abate
the consequent pollution by converting it to a less noxious form.
In those instances in which a particular type of pollution has been
recognized, three major questions usually arise: 1, How serious is
the pollution? 2, Is the technology to abate it available? and 3,
Do the costs of abatement justify the degree of abatement achieved?
The principal intention of this series of books is to help the
reader to formulate answers to the last two of the above three
questions. The traditional approach of applying tried-and-true
solutions to specific pollution problems has been a major factor
contributing to the success of environmental engineering, and in
large measure has accounted for the establishing of a "methodology
of pollution control.
The past few years have seen the emergence of a growing, widespread
desire in this country, and indeed everywhere, that positive
actions be taken to restore the quality of our environment, and to
protect it from the degrading effects of all forms of
pollution-air, noise, solid waste, and water. Since pollution is a
direct or" indirect consequence of waste, if there is no waste,
there can be no pollution, and the seemingly idealistic demand for"
zero discharge" can be construed as a demand for zero waste.
However, as long as there is waste, we can only attempt to abate
the consequent pollution by converting it to a less noxious form.
In those instances in which a particular type of pollution has been
recognized, three major questions usually arise: 1, How serious is
the pollution? 2, Is the technology to abate it available? and 3,
Do the costs of abatement justify the degree of abatement achieved?
The principal intention of this series of books is to help the
reader to formulate answers to the last two of the above three
questions. The traditional approach of applying tried-and-true
solutions to specific pollution problems has been a major factor
contributing to the success of environmental engineering, and in
large measure has accounted for the establishing ofa "methodology
of pollution control.
The past few years have seen the emergence of a growing, widespread
desire in this country, and indeed everywhere, that positive
actions be taken to restore the quality of our environment, and to
protect it from the degrading effects of all forms of
pollution-air, noise, solid waste, and water. Since pollution is a
direct or indirect consequence of waste, if there is no waste,
there can be no pollution, and the seemingly idealistic demand for
"zero discharge" can be construed as a demand for zero waste.
However, as long as there is waste, we can only attempt to abate
the consequent pollution by converting it to a less noxious form.
In those instances in which a particular type of pollution has been
recognized, three major questions usually arise: (1) How serious is
the pollution? (2) Is the technology to abate it available? and (3)
Do the costs of abatement justify the degree of abatement achieved?
The principal intention of this series of books on environmental
engineering is to help the reader formu late useful answers to the
second and third of these questions, i. e., to outline the best
currently available engineering solutions, and to examine their
costs in the light of the real level of benefits afforded."
The past few years have seen the emergence of a growing, widespread
desire in this country, and indeed everywhere, that positive
actions be taken to restore the quality of our environment, and to
protect it from the degrading effects of all forms of
pollution-air, noise, solid waste, and water. Since pollution is a
direct or indirect consequence of waste, if there is no waste,
there can be no pollution, and the seemingly idealistic demand for
"zero discharge" can be construed as a demand for zero waste.
However, as long as there is waste, we can only attempt to abate
the consequent pollution by converting it to a less noxious form.
In those instances in which a particular type of pollution has been
recognized, three major questions usually arise: (1) How serious is
the pollution? (2) Is the technology to abate it available? and (3)
Do the costs of abatement justify the degree of abatement achieved?
The principal intention of this series of books on environmental
engineering is to help the reader formu late useful answers to the
second and third of these questions, i. e., to outline the best
currently available engineering solutions, and to examine their
costs in the light of the real level of benefits afforded. The
traditional approach of applying tried-and-true solutions to
specific pollution problems has been a major factor contributing to
the success of environmental engineering, and in large measure has
ac counted for the establishment of a "methodology of pollution
control."
A panel of respected air pollution control educators and practicing
professionals critically survey the both principles and practices
underlying control processes, and illustrate these with a host of
detailed design examples for practicing engineers. The authors
discuss the performance, potential, and limitations of the major
control processes-including fabric filtration, cyclones,
electrostatic precipitation, wet and dry scrubbing, and
condensation-as a basis for intelligent planning of abatement
systems, . Additional chapters critically examine flare processes,
thermal oxidation, catalytic oxidation, gas-phase activated carbon
adsorption, and gas-phase biofiltration. The contributors detail
the Best Available Technologies (BAT) for air pollution control and
provide cost data, examples, theoretical explanations, and
engineering methods for the design, installation, and operation of
air pollution process equipment. Methods of practical design
calculation are illustrated by numerous numerical calculations
Leading pollution control educators and practicing professionals
describe how various combinations of different cutting-edge process
systems can be arranged to solve air, noise, and thermal pollution
problems. Each chapter discusses in detail a variety of process
combinations, along with technical and economic evaluations, and
presents explanations of the principles behind the designs, as well
as numerous variant designs useful to practicing engineers. The
emphasis throughout is on developing the necessary engineering
solutions from fundamental principles of chemistry, physics, and
mathematics.
The authors also include extensive references, cost data, design
methods, guidance on the installation and operation of various air
pollution control process equipment and systems, and Best Available
Technologies (BAT) for air thermal and noise pollution control.
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