Cryogenic Process Engineering
Klaus D. Timmerhaus
Reading Time
at 250 WPM10h 12m
The average reader, reading at a speed of 250 WPM, would take 10h 12m to read Cryogenic Process Engineering.
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21
days at 30 min/day
612
total minutes
Cryogenic Process Engineering
Published
1989
Publisher
Springer US
Pages
612
ISBN-13
9781468487565
ISBN-10
1468487566
Description
Cryogenics, a term commonly used to refer to very low temperatures, had its beginning in the latter half of the last century when man learned, for the first time, how to cool objects to a temperature lower than had ever existed na tu rally on the face of the earth. The air we breathe was first liquefied in 1883 by a Polish scientist named Olszewski. Ten years later he and a British scientist, Sir James Dewar, liquefied hydrogen. Helium, the last of the so-caBed permanent gases, was finally liquefied by the Dutch physicist Kamerlingh Onnes in 1908. Thus, by the beginning of the twentieth century the door had been opened to astrange new world of experimentation in which aB substances, except liquid helium, are solids and where the absolute temperature is only a few microdegrees away. However, the point on the temperature scale at which refrigeration in the ordinary sense of the term ends and cryogenics begins has ne ver been weB defined. Most workers in the field have chosen to restrict cryogenics to a tem perature range below -150°C (123 K). This is a reasonable dividing line since the normal boiling points of the more permanent gases, such as helium, hydrogen, neon, nitrogen, oxygen, and air, lie below this temperature, while the more common refrigerants have boiling points that are above this temperature. Cryogenic engineering is concerned with the design and development of low-temperature systems and components.
Subjects
Chemistry
The golden bough
[William Wheeler Hubbell, authorized to apply for patents.]
Chemistry, A Molecular Approach
Fundamentals Of Electricity And Magnetism
Introductory Chemistry
Frequently Asked Questions
How many pages are in Cryogenic Process Engineering?
This edition of Cryogenic Process Engineering has approximately 612 pages. Please note, this is an estimate and the exact page count can vary between hardcover, paperback, and e-book versions.
How long does it take to read Cryogenic Process Engineering?
For most readers, Cryogenic Process Engineering typically takes between 12h 45m and 8h 30m to complete. This is based on the book's length of approximately 153,000 words and common reading speeds.
Here's a detailed breakdown: • Continuous reading at 250 WPM: approximately 10h 12m of focused reading • Casual reading (30 minutes/day): you could finish in roughly 21 days • Estimated word count: 153,000 words
Your individual reading time will vary based on your personal reading pace, the amount of daily reading time, and your familiarity with the subject matter.
What is the word count of Cryogenic Process Engineering?
The estimated word count for Cryogenic Process Engineering is approximately 153,000 words. This figure is calculated using industry-standard methods that consider genre-specific word density patterns, typical formatting and layout characteristics, and standard words-per-page ratios for published books.
This is an approximation — actual word count may vary based on font size, formatting, edition, and the presence of illustrations or charts.
Who is the author of Cryogenic Process Engineering?
Cryogenic Process Engineering was written by Klaus D. Timmerhaus.
When was Cryogenic Process Engineering published?
The publication date for this specific edition is 1989. The original work may have been published on a different date.