Electrical power systemshttp://powertech.blog.co.uk/en-EUhourly82000-01-01T12:00+00:00Electrical power systemshttp://powertech.blog.co.uk/http://data5.blog.de/design/preview/c4/6c657e961a68734a8b89111ed383b8_160x200.jpgShort transmission lines: phaser diagramshttp://powertech.blog.co.uk/2007/06/23/short_transmission_lines_phaser_diagrams~2505091/2007-06-23T13:42:59+02:00 <p class="MsoNormal"><strong><u>Short transmission lines:</u><br></strong></p> <p class="MsoNormal"><img src="http://data4.blog.de/media/032/1719032_8195caa2f6_m.jpeg" alt="shortline2" hspace="5" vspace="5" width="384" height="105"></p> <p class="MsoNormal"><strong><br></strong></p> <p class="MsoNormal"><strong><br></strong></p> <p class="MsoNormal"><strong>Here sending current is equal to receiving current .But sending & receiving voltages are not equal to due to impedance voltage drop in the transmission line.</strong></p> <p class="MsoNormal"><strong>Vs=Vr+IZ</strong></p> <p class="MsoNormal"><strong>Receiving end voltage lag by </strong><strong><span></span> angle with respect to sending end voltage. In practical situation step-up and step &ndash;down transformer is used at sending end and receiving end of the transmission line as below.</strong></p> <br><img src="http://data4.blog.de/media/031/1719031_98fe511142_m.jpeg" alt="shotline1" hspace="5" vspace="5" width="383" height="111"></p> <p class="MsoNormal"><strong>Therefore total impedance can be implemented as Z=Z<sub>T1</sub>+Z<sub>L</sub>+Z<sub>T2</sub></strong></p> <p class="MsoNormal"><strong>This can be equivalent to single phase circuit as below and transformer impedance can be assumed as series impedance.</strong></p> <img src="http://data4.blog.de/media/033/1719033_5d488dfb5f_m.jpeg" alt="shortline3" hspace="5" vspace="5" width="364" height="159"></p> <p><br> <a href="http://www.addthis.com/feed.php?pub=gayanefac&h1=http%3A%2F%2Fgeneralpower.blogspot.com%2F&t1=" title="Subscribe using any feed reader!"><img src="http://s9.addthis.com/button1-fd.gif" width="125" height="16" border="0" alt="AddThis Feed Button"></a><br> </p> <p> <small> <a href="http://powertech.blog.co.uk/2007/06/23/short_transmission_lines_phaser_diagrams~2505091/#comments">Comments</a> </small> </p>Short transmission lines:

shortline2



Here sending current is equal to receiving current .But sending & receiving voltages are not equal to due to impedance voltage drop in the transmission line.

Vs=Vr+IZ

Receiving end voltage lag by angle with respect to sending end voltage. In practical situation step-up and step –down transformer is used at sending end and receiving end of the transmission line as below.


shotline1

Therefore total impedance can be implemented as Z=ZT1+ZL+ZT2

This can be equivalent to single phase circuit as below and transformer impedance can be assumed as series impedance.

shortline3


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]]>google analytichttp://powertech.blog.co.uk/2007/06/18/google_analytic~2472100/2007-06-18T05:47:16+02:00 <p>google analytic is a another way of tracking your web site statistics. It shows the country , network , location , no of views, etc who came to your site.<br> <br> _uacct = "UA-1944987-3"; urchinTracker(); </p> <p> <small> <a href="http://powertech.blog.co.uk/2007/06/18/google_analytic~2472100/#comments">Comments</a> </small> </p>google analytic is a another way of tracking your web site statistics. It shows the country , network , location , no of views, etc who came to your site.

_uacct = "UA-1944987-3"; urchinTracker();

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]]>page rankhttp://powertech.blog.co.uk/2007/06/17/page_rank~2470650/2007-06-17T20:24:38+02:00 <p>page rank buttons will display your site rank on web!</p> <p> </p> <p> <small> <a href="http://powertech.blog.co.uk/2007/06/17/page_rank~2470650/#comments">Comments</a> </small> </p>page rank buttons will display your site rank on web!

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]]>staticshttp://powertech.blog.co.uk/2007/06/17/title~2470594/2007-06-17T20:14:28+02:00 <p><a href="http://www.mypagerank.net"><img src="http://www.mypagerank.net/services/seostats/seostats.php?s=d9490953bdfb71970acffc975e225b015e0b1f3fea&bg=FFFFFF&textcolor=000000&bordercolor=999999&indicatorcolor=5EAA5E&ugo=1&uho=1&umo=1&amo=1&upr=1&tuv=1&tpv=1&yuv=1&ypv=1&ttuv=1&ttpv=1&uonline=1&f=49734" title="SEO Stats powered by MyPagerank.Net" border="0"></a> </p> <p> <small> <a href="http://powertech.blog.co.uk/2007/06/17/title~2470594/#comments">Comments</a> </small> </p>

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]]>Moderatively long lineshttp://powertech.blog.co.uk/2007/06/17/moderatively_long_lines~2470411/2007-06-17T19:48:30+02:00 <p><strong><u>Morderately long lines:</u></strong></p> <p>*Transmission lines between 80km and 240km can be assumed under this category.<br> *These transmission lines represented by T or π.<br> <img src="http://data4.blog.de/media/771/1700771_2ad520975a_s.jpeg" alt="lastscan" vspace="5" hspace="5"></p> <p>Vs=Sending end voltage for single phase<br> Vr=Receiving end voltage for single phase<br> Is=Sending end current<br> Ir=Receiving end current for single phase<br> Z=R+jX<br> Y=G+jB<br> G=leakage conductance per phase<br> B=Capacitive susceptance</p> <p><img src="http://data4.blog.de/media/792/1700792_0be3e124c5_s.jpeg" alt="lastscan2" vspace="5" hspace="5"></p> <p>Normally moderately long lines leakage may also be ignored. Therefore Y=G+jB=jwc0<br> W=Radian frequency of the power supply<br> C0=Capacitance to neutral of the transmission line.</p> <p><u><strong>Long lines:</strong></u><br> *Te lines beyond 240km can be named as long lines.<br> *In Sri lanka, long lines cannot be seen yet!<br> *In long lines impedance & admittance assumed uniformly distributed. </p> <p> <small> <a href="http://powertech.blog.co.uk/2007/06/17/moderatively_long_lines~2470411/#comments">Comments</a> </small> </p>Morderately long lines:

*Transmission lines between 80km and 240km can be assumed under this category.
*These transmission lines represented by T or π.
lastscan

Vs=Sending end voltage for single phase
Vr=Receiving end voltage for single phase
Is=Sending end current
Ir=Receiving end current for single phase
Z=R+jX
Y=G+jB
G=leakage conductance per phase
B=Capacitive susceptance

lastscan2

Normally moderately long lines leakage may also be ignored. Therefore Y=G+jB=jwc0
W=Radian frequency of the power supply
C0=Capacitance to neutral of the transmission line.

Long lines:
*Te lines beyond 240km can be named as long lines.
*In Sri lanka, long lines cannot be seen yet!
*In long lines impedance & admittance assumed uniformly distributed.

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]]>Introduction to power systemshttp://powertech.blog.co.uk/2007/06/17/introduction_to_power_systems~2469984/2007-06-17T18:35:20+02:00 <p><strong><u>Electrical Power Systems</u></strong></p> <p>Power system engineering is special branch of electrical engineering. Power engineering can be mostly touch with transmission, distribution &technology.<br> The special responsibility of a power system is that, in addition to maintain the generation of electrical power at adequate level, the power has to be transmitted to the various load levels.<br> Power system engineer should have a knowledge regarding the operation & control of inter connected power systems, specially when inter connecting the local grid to form an integrated power pool.<br> Power engineering never falls down, because of energy crises all over the world. But lots of connecting problems , energy (voltage) converting problems , & planning operation problems may occur in the field while working.<br> There are three major classification in transmission lines.<br> 1. Short lines<br> 2. Moderately long lines<br> 3. long lines</p> <p> <small> <a href="http://powertech.blog.co.uk/2007/06/17/introduction_to_power_systems~2469984/#comments">Comments</a> </small> </p>Electrical Power Systems

Power system engineering is special branch of electrical engineering. Power engineering can be mostly touch with transmission, distribution &technology.
The special responsibility of a power system is that, in addition to maintain the generation of electrical power at adequate level, the power has to be transmitted to the various load levels.
Power system engineer should have a knowledge regarding the operation & control of inter connected power systems, specially when inter connecting the local grid to form an integrated power pool.
Power engineering never falls down, because of energy crises all over the world. But lots of connecting problems , energy (voltage) converting problems , & planning operation problems may occur in the field while working.
There are three major classification in transmission lines.
1. Short lines
2. Moderately long lines
3. long lines

Comments

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