A New Concept On Sampling Systems By Air Cannon Application

Yunel, Ufuk

01 January 2004

The most important criterion in industrial production processes is to control the required product quality and comply with the standards pre-described for the application during any stage of the process. This control begins from the entry of raw material to the plant and continues with pre-determined points. Mainly two different types of inspection and analyses are used to examine the material quality and content. These are physical and chemical analysis.In most of the production plants above mentioned analyses are made in related laboratories of the plant. Therefore, it is necessary to have &amp / #65533 / sample&amp / #65533 / to be analyzed. This &amp / #65533 / sample&amp / #65533 / should have a real &amp / #65533 / representative&amp / #65533 / property, which must carry all of the physical and chemical characteristics of the material at the point where this &amp / #65533 / sample&amp / #65533 / is taken.The present methods and systems used to take samples from any required point have some disadvantages and present some problems especially for not being &amp / #65533 / representative&amp / #65533 / . These problems are discussed in detail within this thesis study and aimed to reach a new concept and system with: - Low cost of investment - Low cost of operation - Less requirement of maintenance and calibration - The achievement of &amp / #65533 / correct&amp / #65533 / and &amp / #65533 / representative&amp / #65533 / sample As a result of the theoretical studies together with practical application works and experiments, a new concept in sampling, namely &amp / #65533 / Sampling System with Air Cannons&amp / #65533 / was introduced. The new system of sampling was tested to give better performance and practical use.

TN Mining Engineering, Metallurgy. 1-997

Robust Control of Uncertain Input-Delayed Sample Data Systems through Optimization of a Robustness Bound

Kratz, Jonathan L.

22 May 2015

No description available.

Aerospace Engineering

Multivariate spectroscopic methods for the analysis of solutions

Wiberg, Kent

January 2004

<p>In this thesis some multivariate spectroscopic methods for the analysis of solutions are proposed. Spectroscopy and multivariate data analysis form a powerful combination for obtaining both quantitative and qualitative information and it is shown how spectroscopic techniques in combination with chemometric data evaluation can be used to obtain rapid, simple and efficient analytical methods. These spectroscopic methods consisting of spectroscopic analysis, a high level of automation and chemometric data evaluation can lead to analytical methods with a high analytical capacity, and for these methods, the term high-capacity analysis (HCA) is suggested. It is further shown how chemometric evaluation of the multivariate data in chromatographic analyses decreases the need for baseline separation. </p><p>The thesis is based on six papers and the chemometric tools used are experimental design, principal component analysis (PCA), soft independent modelling of class analogy (SIMCA), partial least squares regression (PLS) and parallel factor analysis (PARAFAC). The analytical techniques utilised are scanning ultraviolet-visible (UV-Vis) spectroscopy, diode array detection (DAD) used in non-column chromatographic diode array UV spectroscopy, high-performance liquid chromatography with diode array detection (HPLC-DAD) and fluorescence spectroscopy. The methods proposed are exemplified in the analysis of pharmaceutical solutions and serum proteins.</p><p>In Paper I a method is proposed for the determination of the content and identity of the active compound in pharmaceutical solutions by means of UV-Vis spectroscopy, orthogonal signal correction and multivariate calibration with PLS and SIMCA classification. Paper II proposes a new method for the rapid determination of pharmaceutical solutions by the use of non-column chromatographic diode array UV spectroscopy, i.e. a conventional HPLC-DAD system without any chromatographic column connected. In Paper III an investigation is made of the ability of a control sample, of known content and identity to diagnose and correct errors in multivariate predictions something that together with use of multivariate residuals can make it possible to use the same calibration model over time. In Paper IV a method is proposed for simultaneous determination of serum proteins with fluorescence spectroscopy and multivariate calibration. Paper V proposes a method for the determination of chromatographic peak purity by means of PCA of HPLC-DAD data. In Paper VI PARAFAC is applied for the decomposition of DAD data of some partially separated peaks into the pure chromatographic, spectral and concentration profiles. </p>

Chemometrics

UV-Vis spectroscopy

Multivariate calibration

Lidocaine

Identity

Content

PLS

SIMCA

Non-column

Diode array UV spectroscopy

DAD

Control sample

High Capacity Analysis (HCA)

Fluorescence spectroscopy

Albumin

Immunoglobulin G

HPLC-DAD

Prilocaine

Peak purity determination

PCA

PARAFAC

Partial separation

Curve resolution

Analytical chemistry

Analytisk kemi

Multivariate spectroscopic methods for the analysis of solutions

Wiberg, Kent

January 2004

In this thesis some multivariate spectroscopic methods for the analysis of solutions are proposed. Spectroscopy and multivariate data analysis form a powerful combination for obtaining both quantitative and qualitative information and it is shown how spectroscopic techniques in combination with chemometric data evaluation can be used to obtain rapid, simple and efficient analytical methods. These spectroscopic methods consisting of spectroscopic analysis, a high level of automation and chemometric data evaluation can lead to analytical methods with a high analytical capacity, and for these methods, the term high-capacity analysis (HCA) is suggested. It is further shown how chemometric evaluation of the multivariate data in chromatographic analyses decreases the need for baseline separation. The thesis is based on six papers and the chemometric tools used are experimental design, principal component analysis (PCA), soft independent modelling of class analogy (SIMCA), partial least squares regression (PLS) and parallel factor analysis (PARAFAC). The analytical techniques utilised are scanning ultraviolet-visible (UV-Vis) spectroscopy, diode array detection (DAD) used in non-column chromatographic diode array UV spectroscopy, high-performance liquid chromatography with diode array detection (HPLC-DAD) and fluorescence spectroscopy. The methods proposed are exemplified in the analysis of pharmaceutical solutions and serum proteins. In Paper I a method is proposed for the determination of the content and identity of the active compound in pharmaceutical solutions by means of UV-Vis spectroscopy, orthogonal signal correction and multivariate calibration with PLS and SIMCA classification. Paper II proposes a new method for the rapid determination of pharmaceutical solutions by the use of non-column chromatographic diode array UV spectroscopy, i.e. a conventional HPLC-DAD system without any chromatographic column connected. In Paper III an investigation is made of the ability of a control sample, of known content and identity to diagnose and correct errors in multivariate predictions something that together with use of multivariate residuals can make it possible to use the same calibration model over time. In Paper IV a method is proposed for simultaneous determination of serum proteins with fluorescence spectroscopy and multivariate calibration. Paper V proposes a method for the determination of chromatographic peak purity by means of PCA of HPLC-DAD data. In Paper VI PARAFAC is applied for the decomposition of DAD data of some partially separated peaks into the pure chromatographic, spectral and concentration profiles.

Chemometrics

UV-Vis spectroscopy

Multivariate calibration

Lidocaine

Identity

Content

PLS

SIMCA

Non-column

Diode array UV spectroscopy

DAD

Control sample

High Capacity Analysis (HCA)

Fluorescence spectroscopy

Albumin

Immunoglobulin G

HPLC-DAD

Prilocaine

Peak purity determination

PCA

PARAFAC

Partial separation

Curve resolution

Analytical chemistry

Analytisk kemi