Testing technologies fundamentals

A.A. Tracton, in Coatings Technology Fundamentals, Testing and Processing Techniques (CRC Press, Boca Raton, 2007)... 

To facilitate the use of methanol synthesis in examples, the UCKRON and VEKRON test problems (Berty et al 1989, Arva and Szeifert 1989) will be applied. In the development of the test problem, methanol synthesis served as an example. The physical properties, thermodynamic conditions, technology and average rate of reaction were taken from the literature of methanol synthesis. For the kinetics, however, an artificial mechanism was created that had a known and rigorous mathematical solution. It was fundamentally important to create a fixed basis of comparison with various approximate mathematical models for kinetics. These were derived by simulated experiments from the test problems with added random error. See Appendix A and B, Berty et al, 1989. 

Fig. 1. An overview of the DCLD tier/triage flow chart Boxes 1, 2, and 3 are taken from the Office of Device Evaluation decision tree, which is routinely used to determine whether a product can be reviewed as a 510(k) and found substantially equivalent to a predicate (currently marked) device or whether the product must be handled as a fundamentally new product and submitted to a PMA review. Box 4 determines the novelty of the product in terms of analyte, matrix, and/or technology. If new issues of safety and effectiveness are raised, a highly novel product might require review as a PMA. If the issues of safety and effectiveness are not new but require high-level scrutiny, then a tier III review is warranted. Examples of products requiring a tier III review would include 1. Analyte troponin for diagnosis of MI (with creatinine kinase as the predicate) 2. Matrix sweat patches for drugs of abuse (with urine drugs of abuse tests as the predicate) and 3. Technology nucleic acid...

This chapter addresses the fundamentals of zeolite separation, starting with (i) impacts of adsorptive separation, a description of liquid phase adsorption, (ii) tools for adsorption development such as isotherms, pulse and breakthrough tests and (iii) requirements for appropriate zeolite characteristics in adsorption. Finally, speculative adsorption mechanisms are discussed. It is the author s intention that this chapter functions as a bridge to connect the readers to Chapters 7 and 8, Liquid Industrial Aromatics Adsorptive Separation and Liquid Industrial Non-Aromatics Adsorptive Separation, respectively. The industrial mode of operation, the UOP Sorbex technology, is described in Chapters 7 and 8. 

Randomness, independence and trend (upward, or downward) are fundamental concepts in a statistical analysis of observations. Distribution-free observations, or observations with unknown probability distributions, require specific nonparametric techniques, such as tests based on Spearman s D - type statistics (i.e. D, D, D, Z)k) whose application to various electrochemical data sets is herein described. The numerical illustrations include surface phenomena, technology, production time-horizons, corrosion inhibition and standard cell characteristics. The subject matter also demonstrates cross fertilization of two major disciplines. 

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