Analysis of Possibility of Repairing Welding of Selected of the Steam Turbines

AbstractThe article presents the results of the study on the possibilities of repair by welding methods of exploitation steam turbine bodies. Two hull were investigation after a lifetime of more than 200.000 hours. Repair welding study were carried out on the L17HMF cast steel body in the immediately after exploitation condition, whereas the L21HMF cast steel body underwent a revitalization after the exploitation, and then the welding repair research were performed. On the material taken from the L17HMF cast steel hull, welding repairs were made by welding the previously cut four grooves measuring 200 mm 50 mm 50 mm, which were simulations of material defected. All samples were made in areas where maximum steam temperatures were operating. Welds were tested with destructive and non-destructive methods to determine their quality and define non-compliances detected. The L21HMF cast steel was subjected to a revitalization process, which consisted the hull in subjecting heat treatment in order to obtain favourable structural changes and improve the strength properties. Non-destructive examinations and hardness tests were carried out on the remedial weld, indicating the required quality of repairing remedial weld. Comparative study is aimed at demonstrating the main welding problems during the repair welding of exploitation steam turbine hulls.

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The Possibility of Extending the Life of Cast Steel Hulls of the Steam Turbine

Journal of Konbin ◽

10.2478/jok-2019-0048 ◽

2019 ◽

Vol 49 (3) ◽

pp. 17-32

Author(s):

Adam Charchalis ◽

Tomasz Dyl ◽

Agata Wieczorska

Keyword(s):

Mechanical Properties ◽

Steam Turbine ◽

Cast Steel ◽

Non Destructive Testing ◽

Destructive Testing ◽

Cold Zone ◽

Last Stage ◽

The Impact ◽

Non Destructive ◽

Material Tests

Abstract The paper presents the analyze the lifetime of the HP steam turbine hull for the EC Gdynia TG1 combined heat and power plant as part of the renovation. The impact of exploitation on changes in mechanical properties of the steam turbine hulls was determined. At the preliminary material tests were carried out, qualifying the hull of the steam turbine to undertake the revitalization process. Then, after non-destructive testing, trepanation samples were taken from the cold zone and the hot hull, which were subjected to mechanical properties tests. The next stage of work was the revitalization process including hardening and tempering. The mechanical properties and metallographic were carried out testing. In the next stage of work, non-destructive testing was performed to detect cracks and a decision was made to repair these areas by welding. The last stage of the work includes an analysis of the vitality of the steam turbine hull after revitalization.

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The Process of Regenerative Heat Treatment of the Valve Chamber of the Steam Turbine

Journal of KONES ◽

10.2478/kones-2019-0079 ◽

2019 ◽

Vol 26 (3) ◽

pp. 243-248

Author(s):

Agata Wieczorska

Keyword(s):

Steam Turbine ◽

High Temperatures ◽

Elevated Temperatures ◽

Cast Steel ◽

Degradation Process ◽

Steam Turbines ◽

Regenerative Heat ◽

Plastic Properties ◽

Term Operation ◽

Dynamic Damage

Abstract Steel castings are often used in the construction of valve chambers of steam turbines. Stringent requirements are set due to the continuous operation of the material at elevated temperatures, in the order of 300°C to 600°C. The material of the valve chamber must be resistant to fatigue-creep changes as well as corrosion. This material must be also resistant to dynamic damage which occures when the turbine is starting and stopping. Dynamic damage is induced by a short-lasting but intense accumulation of localized stresses. The castings of the valve chambers of the steam turbine are usually made from the “three-component” type CrMoV-cast steel. Mentioned castings of the valve chamber are continuously subjected to high temperatures, either constant and periodically variable stresses. Due to this, the degradation process of material of the castings is taking place. It is caused by physicochemical processes such as: creep, relaxation, thermal fatigue, corrosion, erosion and changes in material properties, e.g. displacement of the critical point of brittleness. Finally, first cracks and deformations can be observed in the material during the operation. The art presents the process of revitalization technology of the steam turbine valve chamber which was subjected to long-term operation at high temperatures. The revitalization process is aimed at improving the plastic properties of the material and, as the result, extending its service life. The research presented in the article show that impact strength of the chamber material after revitalization is very high. Also the strength properties of the valve chamber, after revitalization, are high and in line with the requirements. The study show that the revitalization of the valve chamber was carried out correctly and restored the material to plastic deformation.

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Anisotropic radiation damage of potassium tetracyano platinate (KCP)

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100109100 ◽

1978 ◽

Vol 36 (1) ◽

pp. 392-393

Author(s):

N. Uyeda ◽

E. J. Kirkland ◽

B. M. Siegel

Keyword(s):

Electron Diffraction ◽

Radiation Damage ◽

Structural Changes ◽

High Resolution Electron Microscopy ◽

Radiation Sensitivity ◽

Resolution Electron ◽

Damage Process ◽

Diffraction Patterns ◽

Fading Rate

The direct observation of structural change by high resolution electron microscopy will be essential for the better understanding of the damage process and its mechanism. However, this approach still involves some difficulty in quantitative interpretation mostly being due to the quality of obtained images. Electron diffraction, using crystalline specimens, has been the method most frequently applied to obtain a comparison of radiation sensitivity of various materials on the quantitative base. If a series of single crystal patterns are obtained the fading rate of reflections during the damage process give good comparative measures. The electron diffraction patterns also render useful information concerning the structural changes in the crystal. In the present work, the radiation damage of potassium tetracyano-platinate was dealt with on the basis two dimensional observation of fading rates of diffraction spots. KCP is known as an ionic crystal which possesses “one dimensional” electronic properties and it would be of great interest to know if radiation damage proceeds in a strongly asymmetric manner.

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Economic Growth: New Problems and New Risks

Voprosy Ekonomiki ◽

10.32609/0042-8736-2006-12-20-37 ◽

2006 ◽

pp. 20-37 ◽

Cited By ~ 6

Author(s):

M. Ershov

Keyword(s):

Economic Growth ◽

Foreign Exchange ◽

Driving Force ◽

Structural Changes ◽

Rate Of Growth

The economic growth, which is underway in Russia, raises new questions to be addressed. How to improve the quality of growth, increasing the role of new competitive sectors and transforming them into the driving force of growth? How can progressive structural changes be implemented without hampering the rate of growth in general? What are the main external and internal risks, which may undermine positive trends of development? The author looks upon financial, monetary and foreign exchange aspects of the problem and comes up with some suggestions on how to make growth more competitive and sustainable.

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Economic Institutions and Growth Nexus: The Role of Governance and Democratic Institutions—Evidence from Time Varying Parameters’ (TVPs) Models

The Pakistan Development Review ◽

10.30541/v55i4i-iipp.675-688 ◽

2016 ◽

Vol 55 (4I-II) ◽

pp. 675-688

Author(s):

Ghulam Murtaza ◽

Muhammad Zahir Faridi

Keyword(s):

Structural Changes ◽

Jel Classification ◽

Economic Institutions ◽

Time Varying ◽

Democratic Institutions ◽

Main Hypothesis ◽

Dynamic Relationship ◽

Rolling Window

The present study has investigated the channels through which the linkage between economic institutions and growth is gauged, by addressing the main hypothesis of the study that whether quality of governance and democratic institutions set a stage for economic institutions to promote the long-term growth process in Pakistan. To test the hypothesis empirically, our study models the dynamic relationship between growth and economic institutions in a time varying framework in order to capture institutional developments and structural changes occurred in the economy of Pakistan over the years. Study articulates that, along with some customary specifics, the quality of government and democracy are the substantial factors that affect institutional quality and ultimately cause to promote growth in Pakistan. JEL Classification: O40; P16; C14; H10 Keywords: Economic Institutions, Growth, Governance and Democracy, Rolling Window Two-stage Least Squares, Pakistan

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