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200 00$aContinuous monitoring for hazardous material release /$fCenter for Chemical Process Safety, American Industrial Hygiene Association
210   $aHoboken, N.J. $cWiley$dc2009
215   $a1 online resource (100 p.)
225 1 $aA CCPS concept book
300   $aDescription based upon print version of record.
311 08$a9780470148907 
311 08$a047014890X 
320   $aIncludes bibliographical references and index.
327   $aIntroduction -- Management -- Determining where gas detection may or may not be beneficial -- Sensor technology -- Approaches to detector placement and configuration -- Overall system management : commissioning, testing, and maintenance.
330   $aWhether occurring accidentally or through acts of terrorism, catastrophic chemical releases must be identified early in order to mitigate their consequences. Continuous sensor monitoring can detect catastrophic chemical releases early enough to curb extreme amounts of damage. In several notable instances, such monitors have not been used appropriately, or have fallen short of what they should have been capable of delivering. This book provides the technical background and guidance needed to get the most from this emerging technique and details the essentials of preparing any workplace from fal
410  0$aCCPS concept book.
606   $aContinuous emission monitoring
615  0$aContinuous emission monitoring.
676   $a660/.2804
676   $a628.5
686   $aWK 7400$2rvk
712 02$aAmerican Institute of Chemical Engineers.$bCenter for Chemical Process Safety.
712 02$aAmerican Industrial Hygiene Association.
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181   $ctxt$2rdacontent
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200 00$aThermal Analysis Kinetics for Understanding Materials Behavior
210   $aBasel, Switzerland$cMDPI - Multidisciplinary Digital Publishing Institute$d2020
215   $a1 online resource (230 p.)
311 08$a3-03936-559-2 
311 08$a3-03936-560-6 
330   $aChanging the temperature of a substance can stimulate dramatic changes of its state. These changes can be intermolecular (physical) and intramolecular (chemical) in nature. Physical changes occur without breaking intramolecular bonds, and lead to transitions between the four major phases: gas, liquid, crystal, and glass. Chemical changes are associated with chemical reactions that originate from breaking intramolecular bonds. Phase transitions as well as chemical reactions occur at finite rates. Measuring the rates of processes is the realm of kinetics. The kinetics of thermally stimulated processes is routinely measured using thermal analysis techniques such as differential scanning calorimetry (DSC) and thermogravimetric analysis (TGA). Knowing the process rates and their dependence on temperature is of vital importance for understanding the behavior of materials exposed to variations in temperature. In recent years, thermal analysis kinetics has made significant progress by developing computational tools for reliable kinetic analysis. It has also expanded its traditional application area to newly developed nano- and biomaterials. This Special Issue is a series of papers that reflect recent developments in the field and highlight the essential role of thermal analysis kinetics in understanding the processes responsible for the thermal behavior of various materials.
606   $aResearch and information: general$2bicssc
615  7$aResearch and information: general
700   $aVyazovkin$b Sergey$4edt$0860916
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