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Industrial chemical process analysis and design

Record Type:	Language materials, printed : Monograph/item
Title/Author:	Industrial chemical process analysis and design/ Mariano Martín Martín.
Author:	Martín, Mariano Martín.
Published:	Amsterdam :Elsevier, : 2016.,
Description:	1 online resource (598 p.).
Notes:	Includes index.
Subject:	Chemical processes. -
Online resource:	https://www.sciencedirect.com/science/book/9780081010938
ISBN:	0081012330 (electronic bk.)

Industrial chemical process analysis and design
Martín, Mariano Martín.

Industrial chemical process analysis and design[electronic resource] /Mariano Martín Martín. - Amsterdam :Elsevier,2016. - 1 online resource (598 p.).

Includes index.

1.- Introduction: Historical view of the evolution of the chemical Industry 2.-Principles of process design 2.1.-Process Engineering 2.2.-Process design principles 2.3.-Flowsheeting 2.4.-Mass and energy balances review 2.5.-Process optimization and control 2.6.-Process safety 2.7.-Sustainability in process design 2.8.-Problems 2.9.-References 3.- Air 3.1.-Introduction 3.2.-Air separation 3.3.-Atmospheric contamination 3.4.-Humid air 3.5.-Problems 3.6.- References 4.-Water 4.1.-Introduction 4.2.-Water as a raw material 4.3.-Water -- energy link 4.4.-Problems 4.5.- References 5.-Synthesis gases 5.1.-Introduction. Sources of carbon: Natural gas, Crude oil and Coal 5.2.-Gas production. A) Hydrogen production. B) H2 CO mixtures. C) H2 N2 mixtures. Gasification, reforming, partial oxidation 5.3.-Syn gas purification. CO2 capture, H2S removal, (Claus process). Methanation 5.4.-Synthesis 5.5.-Problems 5.6.- References 6.-Nitric acid 6.1.-Introduction 6.2.-Production 6.3.-Emissions control 6.4.-Problems 6.5.- References 7.- Sulfuric acid 7.1.-Introduction: History of Sulfuric acid 7.2.-Pyrite roasting 7.3.-Sulfuric acid production 7.4.-Problems 7.5.- References 8.-Biomass 8.1.-Biomass types to fuels and energy: Grain, Lignocellulosic biomass, seeds, algae. 8.2.-Biomass processing to sugars, oil and syngas 8.3.-Product purification 8.4.-Power production 8.5.-Problems 8.6.- References

Industrial Chemical Process Analysis and Design uses chemical engineering principles to explain the transformation of basic raw materials into major chemical products. The book discusses traditional processes to create products like nitric acid, sulphuricacid, ammonia, and methanol, as well as more novel products like bioethanol and biodiesel. Historical perspectives show how current chemical processes have developed over years or even decades to improve their yields, from the discovery of the chemical reaction or physico-chemical principle to the industrial process needed to yield commercial quantities. Starting with an introduction to process design, optimization, and safety, Martin then provides stand-alone chapters-in a case study fashion-for commercially important chemical production processes. Computational software tools like MATLAB, Excel, and Chemcad are used throughout to aid process analysis.

ISBN: 0081012330 (electronic bk.)Subjects--Topical Terms:

780506
Chemical processes.
Index Terms--Genre/Form:

554714
Electronic books.

LC Class. No.: TP155.7

Dewey Class. No.: 660/.2842

Industrial chemical process analysis and design
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020 $a 9780081012338 (electronic bk.)
020 $a 9780081010938 (pbk.)
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100 1 $a Martín, Mariano Martín. $3 1292559
245 1 0 $a Industrial chemical process analysis and design $h [electronic resource] / $c Mariano Martín Martín.
260 $a Amsterdam : $b Elsevier, $c 2016.
300 $a 1 online resource (598 p.).
500 $a Includes index.
505 0 $a 1.- Introduction: Historical view of the evolution of the chemical Industry 2.-Principles of process design 2.1.-Process Engineering 2.2.-Process design principles 2.3.-Flowsheeting 2.4.-Mass and energy balances review 2.5.-Process optimization and control 2.6.-Process safety 2.7.-Sustainability in process design 2.8.-Problems 2.9.-References 3.- Air 3.1.-Introduction 3.2.-Air separation 3.3.-Atmospheric contamination 3.4.-Humid air 3.5.-Problems 3.6.- References 4.-Water 4.1.-Introduction 4.2.-Water as a raw material 4.3.-Water -- energy link 4.4.-Problems 4.5.- References 5.-Synthesis gases 5.1.-Introduction. Sources of carbon: Natural gas, Crude oil and Coal 5.2.-Gas production. A) Hydrogen production. B) H2 CO mixtures. C) H2 N2 mixtures. Gasification, reforming, partial oxidation 5.3.-Syn gas purification. CO2 capture, H2S removal, (Claus process). Methanation 5.4.-Synthesis 5.5.-Problems 5.6.- References 6.-Nitric acid 6.1.-Introduction 6.2.-Production 6.3.-Emissions control 6.4.-Problems 6.5.- References 7.- Sulfuric acid 7.1.-Introduction: History of Sulfuric acid 7.2.-Pyrite roasting 7.3.-Sulfuric acid production 7.4.-Problems 7.5.- References 8.-Biomass 8.1.-Biomass types to fuels and energy: Grain, Lignocellulosic biomass, seeds, algae. 8.2.-Biomass processing to sugars, oil and syngas 8.3.-Product purification 8.4.-Power production 8.5.-Problems 8.6.- References
520 $a Industrial Chemical Process Analysis and Design uses chemical engineering principles to explain the transformation of basic raw materials into major chemical products. The book discusses traditional processes to create products like nitric acid, sulphuricacid, ammonia, and methanol, as well as more novel products like bioethanol and biodiesel. Historical perspectives show how current chemical processes have developed over years or even decades to improve their yields, from the discovery of the chemical reaction or physico-chemical principle to the industrial process needed to yield commercial quantities. Starting with an introduction to process design, optimization, and safety, Martin then provides stand-alone chapters-in a case study fashion-for commercially important chemical production processes. Computational software tools like MATLAB, Excel, and Chemcad are used throughout to aid process analysis.
588 0 $a Print version record.
650 0 $a Chemical processes. $3 780506
650 0 $a Chemical process control. $3 655505
655 4 $a Electronic books. $2 local $3 554714
856 4 0 $u https://www.sciencedirect.com/science/book/9780081010938