�ݺ�ߣshows by User: ddhakar9

�ݺ�ߣshows by User: ddhakar9 / http://www.slideshare.net/images/logo.gif �ݺ�ߣshows by User: ddhakar9 / Fri, 06 Dec 2019 11:15:11 GMT �ݺ�ߣShare feed for �ݺ�ߣshows by User: ddhakar9 Power System Modeling and Simulation lab manual /slideshow/power-system-modeling-and-simulation-lab-manual/202257785 psmslabmanual-191206111511
The coding is also given in the manuals]]>
The coding is also given in the manuals]]> Fri, 06 Dec 2019 11:15:11 GMT /slideshow/power-system-modeling-and-simulation-lab-manual/202257785 ddhakar9@slideshare.net(ddhakar9) Power System Modeling and Simulation lab manual ddhakar9 The coding is also given in the manuals <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/psmslabmanual-191206111511-thumbnail.jpg?width=120&height=120&fit=bounds" /> The coding is also given in the manuals

Power System Modeling and Simulation lab manual from DHEERAJ DHAKAR

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0 A detailed review of technology of hybrid electric vehicle /slideshow/a-detailed-review-of-technology-of-hybrid-electric-vehicle/104801970 adetailedreviewoftechnologyofhybridelectricvehicle-180708044722
This paper presents the development of hybrid electric vehicles, classifications of hybrid electric vehicles based on the arrangement of the internal combustion engine and the electric motor for traction.]]>
This paper presents the development of hybrid electric vehicles, classifications of hybrid electric vehicles based on the arrangement of the internal combustion engine and the electric motor for traction.]]> Sun, 08 Jul 2018 04:47:22 GMT /slideshow/a-detailed-review-of-technology-of-hybrid-electric-vehicle/104801970 ddhakar9@slideshare.net(ddhakar9) A detailed review of technology of hybrid electric vehicle ddhakar9 This paper presents the development of hybrid electric vehicles, classifications of hybrid electric vehicles based on the arrangement of the internal combustion engine and the electric motor for traction. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/adetailedreviewoftechnologyofhybridelectricvehicle-180708044722-thumbnail.jpg?width=120&height=120&fit=bounds" /> This paper presents the development of hybrid electric vehicles, classifications of hybrid electric vehicles based on the arrangement of the internal combustion engine and the electric motor for traction.

A detailed review of technology of hybrid electric vehicle from DHEERAJ DHAKAR

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0 Facts controllers for power flow control a brief review /slideshow/facts-controllers-for-power-flow-control-a-brief-review/104801527 factscontrollersforpowerflowcontrolabriefreview-180708044014
This paper provides a review of FACTS devices. The value of these FACTS is the improvement of security and efficiency of power transmission networks. Fast controllability in emergency situation provides increased flexibility and therefore stability and security advantages. The flexibility in control allows operating closer to stability limits and improve the efficiency of existing networks]]>
This paper provides a review of FACTS devices. The value of these FACTS is the improvement of security and efficiency of power transmission networks. Fast controllability in emergency situation provides increased flexibility and therefore stability and security advantages. The flexibility in control allows operating closer to stability limits and improve the efficiency of existing networks]]> Sun, 08 Jul 2018 04:40:14 GMT /slideshow/facts-controllers-for-power-flow-control-a-brief-review/104801527 ddhakar9@slideshare.net(ddhakar9) Facts controllers for power flow control a brief review ddhakar9 This paper provides a review of FACTS devices. The value of these FACTS is the improvement of security and efficiency of power transmission networks. Fast controllability in emergency situation provides increased flexibility and therefore stability and security advantages. The flexibility in control allows operating closer to stability limits and improve the efficiency of existing networks <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/factscontrollersforpowerflowcontrolabriefreview-180708044014-thumbnail.jpg?width=120&height=120&fit=bounds" /> This paper provides a review of FACTS devices. The value of these FACTS is the improvement of security and efficiency of power transmission networks. Fast controllability in emergency situation provides increased flexibility and therefore stability and security advantages. The flexibility in control allows operating closer to stability limits and improve the efficiency of existing networks

Facts controllers for power flow control a brief review from DHEERAJ DHAKAR

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0 Power factor correction using bridgeless boost topology /slideshow/power-factor-correction-using-bridgeless-boost-topology-86061117/86061117 powerfactorcorrectionusingbridgelessboosttopology-180112045428
Power quality is becoming a major concern for many electrical users. The high power non linear loads (such as adjustable speed drives, arc furnace, static power converter etc) and low power loads (such as computer, fax machine etc) produce voltage fluctuations, harmonic currents and an inequality in network system which results into low power factor operation of the power system. The devices commonly used in industrial, commercial and residential applications need to go through rectification for their proper functioning and operation. Due to the increasing demand of these devices, the line current harmonics create a major problem by degrading the power factor of the system thus affecting the performance of the devices. Hence there is a need to reduce the input line current harmonics so as to improve the power factor of the system. This has led to designing of Power Factor Correction circuits. Power Factor Correction (PFC) involves two techniques, Active PFC and Passive PFC. An active power factor circuit using Boost Converter is used for improving the power factor. This thesis work analyzes the procedural approach and benefits of applying Bridgeless Boost Topology for improving the power factor over Boost Converter Topology. A traditional design methodology Boost Converter Topology is initially analyzed and compared with the Bridgeless Boost topology and the overall Power Factor (PF) can be improved to the expectation. Method of re-shaping the input current waveform to be similar pattern as the sinusoidal input voltage is done by the Boost converter and the related controls that act as a Power Factor Correction (PFC) circuit. Higher efficiency can be achieved by using the Bridgeless Boost Topology. In this paper simulation of Boost Converter topology and Bridgeless PFC boost Converter is presented. Performance comparisons between the conventional PFC boost Converter and the Bridgeless PFC Boost Converter is done.]]>
Power quality is becoming a major concern for many electrical users. The high power non linear loads (such as adjustable speed drives, arc furnace, static power converter etc) and low power loads (such as computer, fax machine etc) produce voltage fluctuations, harmonic currents and an inequality in network system which results into low power factor operation of the power system. The devices commonly used in industrial, commercial and residential applications need to go through rectification for their proper functioning and operation. Due to the increasing demand of these devices, the line current harmonics create a major problem by degrading the power factor of the system thus affecting the performance of the devices. Hence there is a need to reduce the input line current harmonics so as to improve the power factor of the system. This has led to designing of Power Factor Correction circuits. Power Factor Correction (PFC) involves two techniques, Active PFC and Passive PFC. An active power factor circuit using Boost Converter is used for improving the power factor. This thesis work analyzes the procedural approach and benefits of applying Bridgeless Boost Topology for improving the power factor over Boost Converter Topology. A traditional design methodology Boost Converter Topology is initially analyzed and compared with the Bridgeless Boost topology and the overall Power Factor (PF) can be improved to the expectation. Method of re-shaping the input current waveform to be similar pattern as the sinusoidal input voltage is done by the Boost converter and the related controls that act as a Power Factor Correction (PFC) circuit. Higher efficiency can be achieved by using the Bridgeless Boost Topology. In this paper simulation of Boost Converter topology and Bridgeless PFC boost Converter is presented. Performance comparisons between the conventional PFC boost Converter and the Bridgeless PFC Boost Converter is done.]]> Fri, 12 Jan 2018 04:54:28 GMT /slideshow/power-factor-correction-using-bridgeless-boost-topology-86061117/86061117 ddhakar9@slideshare.net(ddhakar9) Power factor correction using bridgeless boost topology ddhakar9 Power quality is becoming a major concern for many electrical users. The high power non linear loads (such as adjustable speed drives, arc furnace, static power converter etc) and low power loads (such as computer, fax machine etc) produce voltage fluctuations, harmonic currents and an inequality in network system which results into low power factor operation of the power system. The devices commonly used in industrial, commercial and residential applications need to go through rectification for their proper functioning and operation. Due to the increasing demand of these devices, the line current harmonics create a major problem by degrading the power factor of the system thus affecting the performance of the devices. Hence there is a need to reduce the input line current harmonics so as to improve the power factor of the system. This has led to designing of Power Factor Correction circuits. Power Factor Correction (PFC) involves two techniques, Active PFC and Passive PFC. An active power factor circuit using Boost Converter is used for improving the power factor. This thesis work analyzes the procedural approach and benefits of applying Bridgeless Boost Topology for improving the power factor over Boost Converter Topology. A traditional design methodology Boost Converter Topology is initially analyzed and compared with the Bridgeless Boost topology and the overall Power Factor (PF) can be improved to the expectation. Method of re-shaping the input current waveform to be similar pattern as the sinusoidal input voltage is done by the Boost converter and the related controls that act as a Power Factor Correction (PFC) circuit. Higher efficiency can be achieved by using the Bridgeless Boost Topology. In this paper simulation of Boost Converter topology and Bridgeless PFC boost Converter is presented. Performance comparisons between the conventional PFC boost Converter and the Bridgeless PFC Boost Converter is done. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/powerfactorcorrectionusingbridgelessboosttopology-180112045428-thumbnail.jpg?width=120&height=120&fit=bounds" /> Power quality is becoming a major concern for many electrical users. The high power non linear loads (such as adjustable speed drives, arc furnace, static power converter etc) and low power loads (such as computer, fax machine etc) produce voltage fluctuations, harmonic currents and an inequality in network system which results into low power factor operation of the power system. The devices commonly used in industrial, commercial and residential applications need to go through rectification for their proper functioning and operation. Due to the increasing demand of these devices, the line current harmonics create a major problem by degrading the power factor of the system thus affecting the performance of the devices. Hence there is a need to reduce the input line current harmonics so as to improve the power factor of the system. This has led to designing of Power Factor Correction circuits. Power Factor Correction (PFC) involves two techniques, Active PFC and Passive PFC. An active power factor circuit using Boost Converter is used for improving the power factor. This thesis work analyzes the procedural approach and benefits of applying Bridgeless Boost Topology for improving the power factor over Boost Converter Topology. A traditional design methodology Boost Converter Topology is initially analyzed and compared with the Bridgeless Boost topology and the overall Power Factor (PF) can be improved to the expectation. Method of re-shaping the input current waveform to be similar pattern as the sinusoidal input voltage is done by the Boost converter and the related controls that act as a Power Factor Correction (PFC) circuit. Higher efficiency can be achieved by using the Bridgeless Boost Topology. In this paper simulation of Boost Converter topology and Bridgeless PFC boost Converter is presented. Performance comparisons between the conventional PFC boost Converter and the Bridgeless PFC Boost Converter is done.

Power factor correction using bridgeless boost topology from DHEERAJ DHAKAR

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0 Review ijaet /ddhakar9/review-ijaet reviewijaet-180112045242
Modern FACTS controllers are being used to control the power through the current power transmission system. The power transfer can be controlled by using these devices in an efficient and effective manner in transmission lines. FACTS controllers are having some downsides i.e. their bulky size, higher cost, reliability and break-in the transmission line, which makes it obsolete to use in modern power system network. These downsides can be fulfilled by a new compound which is scalable, light weighted and cost effective devices that are distributed- FACTS (D-FACTS). D-FACTS controllers are distributed version of conventional lumped FACTS controllers and their cost is low due to lower ratings of component and reliability also increases due to redundancy of devices. Enhanced Power Flow Controller (EPFC) is all a D-FACTS device which is a distributed version of thyristor controlled series controller. This paper discusses extensive review about the EPFC and its application.]]>
Modern FACTS controllers are being used to control the power through the current power transmission system. The power transfer can be controlled by using these devices in an efficient and effective manner in transmission lines. FACTS controllers are having some downsides i.e. their bulky size, higher cost, reliability and break-in the transmission line, which makes it obsolete to use in modern power system network. These downsides can be fulfilled by a new compound which is scalable, light weighted and cost effective devices that are distributed- FACTS (D-FACTS). D-FACTS controllers are distributed version of conventional lumped FACTS controllers and their cost is low due to lower ratings of component and reliability also increases due to redundancy of devices. Enhanced Power Flow Controller (EPFC) is all a D-FACTS device which is a distributed version of thyristor controlled series controller. This paper discusses extensive review about the EPFC and its application.]]> Fri, 12 Jan 2018 04:52:42 GMT /ddhakar9/review-ijaet ddhakar9@slideshare.net(ddhakar9) Review ijaet ddhakar9 Modern FACTS controllers are being used to control the power through the current power transmission system. The power transfer can be controlled by using these devices in an efficient and effective manner in transmission lines. FACTS controllers are having some downsides i.e. their bulky size, higher cost, reliability and break-in the transmission line, which makes it obsolete to use in modern power system network. These downsides can be fulfilled by a new compound which is scalable, light weighted and cost effective devices that are distributed- FACTS (D-FACTS). D-FACTS controllers are distributed version of conventional lumped FACTS controllers and their cost is low due to lower ratings of component and reliability also increases due to redundancy of devices. Enhanced Power Flow Controller (EPFC) is all a D-FACTS device which is a distributed version of thyristor controlled series controller. This paper discusses extensive review about the EPFC and its application. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/reviewijaet-180112045242-thumbnail.jpg?width=120&height=120&fit=bounds" /> Modern FACTS controllers are being used to control the power through the current power transmission system. The power transfer can be controlled by using these devices in an efficient and effective manner in transmission lines. FACTS controllers are having some downsides i.e. their bulky size, higher cost, reliability and break-in the transmission line, which makes it obsolete to use in modern power system network. These downsides can be fulfilled by a new compound which is scalable, light weighted and cost effective devices that are distributed- FACTS (D-FACTS). D-FACTS controllers are distributed version of conventional lumped FACTS controllers and their cost is low due to lower ratings of component and reliability also increases due to redundancy of devices. Enhanced Power Flow Controller (EPFC) is all a D-FACTS device which is a distributed version of thyristor controlled series controller. This paper discusses extensive review about the EPFC and its application.

Review ijaet from DHEERAJ DHAKAR

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0 Psms lab manual /slideshow/psms-lab-manual/78691414 psmslabmanual-170809085023
Rajasthan technical uniersity, kota]]>
Rajasthan technical uniersity, kota]]> Wed, 09 Aug 2017 08:50:22 GMT /slideshow/psms-lab-manual/78691414 ddhakar9@slideshare.net(ddhakar9) Psms lab manual ddhakar9 Rajasthan technical uniersity, kota <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/psmslabmanual-170809085023-thumbnail.jpg?width=120&height=120&fit=bounds" /> Rajasthan technical uniersity, kota

Psms lab manual from DHEERAJ DHAKAR

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0 A REVIEW PAPER ON A D-FACTS CONTROLLER: ENHANCED POWER FLOW CONTROLLER /slideshow/a-review-paper-on-a-dfacts-controller-enhanced-power-flow-controller/73192512 ijaetreview-170315232505
Research paper on epfc controller which is a distributed FACTS controller]]>
Research paper on epfc controller which is a distributed FACTS controller]]> Wed, 15 Mar 2017 23:25:05 GMT /slideshow/a-review-paper-on-a-dfacts-controller-enhanced-power-flow-controller/73192512 ddhakar9@slideshare.net(ddhakar9) A REVIEW PAPER ON A D-FACTS CONTROLLER: ENHANCED POWER FLOW CONTROLLER ddhakar9 Research paper on epfc controller which is a distributed FACTS controller <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/ijaetreview-170315232505-thumbnail.jpg?width=120&height=120&fit=bounds" /> Research paper on epfc controller which is a distributed FACTS controller

A REVIEW PAPER ON A D-FACTS CONTROLLER: ENHANCED POWER FLOW CONTROLLER from DHEERAJ DHAKAR

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0 Control systems /slideshow/control-systems-43819196/43819196 controlsystems-150123054411-conversion-gate01
Control system engineering book]]>
Control system engineering book]]> Fri, 23 Jan 2015 05:44:11 GMT /slideshow/control-systems-43819196/43819196 ddhakar9@slideshare.net(ddhakar9) Control systems ddhakar9 Control system engineering book <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/controlsystems-150123054411-conversion-gate01-thumbnail.jpg?width=120&height=120&fit=bounds" /> Control system engineering book

Control systems from DHEERAJ DHAKAR

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0 Chapter8 /slideshow/chapter8-43819164/43819164 chapter8-150123054318-conversion-gate02
nptel power system engineeri]]>
nptel power system engineeri]]> Fri, 23 Jan 2015 05:43:18 GMT /slideshow/chapter8-43819164/43819164 ddhakar9@slideshare.net(ddhakar9) Chapter8 ddhakar9 nptel power system engineeri <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/chapter8-150123054318-conversion-gate02-thumbnail.jpg?width=120&height=120&fit=bounds" /> nptel power system engineeri

Chapter8 from DHEERAJ DHAKAR

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0 Chapter5 /slideshow/chapter5-43819160/43819160 chapter5-150123054312-conversion-gate01
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]]> Fri, 23 Jan 2015 05:43:12 GMT /slideshow/chapter5-43819160/43819160 ddhakar9@slideshare.net(ddhakar9) Chapter5 ddhakar9 <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/chapter5-150123054312-conversion-gate01-thumbnail.jpg?width=120&height=120&fit=bounds" />

Chapter5 from DHEERAJ DHAKAR

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0 Current affairs-june-2014 /slideshow/current-affairsjune2014-43818707/43818707 current-affairs-june-2014-150123052910-conversion-gate01
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Current affairs-june-2014 from DHEERAJ DHAKAR

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0 Current affairs-july-2014 /slideshow/current-affairsjuly2014/43818705 current-affairs-july-2014-150123052909-conversion-gate02
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]]> Fri, 23 Jan 2015 05:29:09 GMT /slideshow/current-affairsjuly2014/43818705 ddhakar9@slideshare.net(ddhakar9) Current affairs-july-2014 ddhakar9 <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/current-affairs-july-2014-150123052909-conversion-gate02-thumbnail.jpg?width=120&height=120&fit=bounds" />

Current affairs-july-2014 from DHEERAJ DHAKAR

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0 Current affairs-december-2014 /slideshow/current-affairsdecember2014/43818703 current-affairs-december-2014-150123052907-conversion-gate02
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]]> Fri, 23 Jan 2015 05:29:07 GMT /slideshow/current-affairsdecember2014/43818703 ddhakar9@slideshare.net(ddhakar9) Current affairs-december-2014 ddhakar9 <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/current-affairs-december-2014-150123052907-conversion-gate02-thumbnail.jpg?width=120&height=120&fit=bounds" />

Current affairs-december-2014 from DHEERAJ DHAKAR

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0 Ca questions /slideshow/ca-questions/43818700 caquestions-150123052904-conversion-gate01
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]]> Fri, 23 Jan 2015 05:29:04 GMT /slideshow/ca-questions/43818700 ddhakar9@slideshare.net(ddhakar9) Ca questions ddhakar9 <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/caquestions-150123052904-conversion-gate01-thumbnail.jpg?width=120&height=120&fit=bounds" />

Ca questions from DHEERAJ DHAKAR

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0 Bank exam-study-material-2014 /slideshow/bank-examstudymaterial2014/43818698 bank-exam-study-material-2014-150123052903-conversion-gate02
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]]> Fri, 23 Jan 2015 05:29:03 GMT /slideshow/bank-examstudymaterial2014/43818698 ddhakar9@slideshare.net(ddhakar9) Bank exam-study-material-2014 ddhakar9 <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/bank-exam-study-material-2014-150123052903-conversion-gate02-thumbnail.jpg?width=120&height=120&fit=bounds" />

Bank exam-study-material-2014 from DHEERAJ DHAKAR

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0 Electrical machine lab /ddhakar9/electrical-machine-lab electricalmachinelab-150123052706-conversion-gate01
Machine lab manual for rajasthan technical university,kota]]>
Machine lab manual for rajasthan technical university,kota]]> Fri, 23 Jan 2015 05:27:06 GMT /ddhakar9/electrical-machine-lab ddhakar9@slideshare.net(ddhakar9) Electrical machine lab ddhakar9 Machine lab manual for rajasthan technical university,kota <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/electricalmachinelab-150123052706-conversion-gate01-thumbnail.jpg?width=120&height=120&fit=bounds" /> Machine lab manual for rajasthan technical university,kota

Electrical machine lab from DHEERAJ DHAKAR

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0 Microprocessorlabmanual ee0310 /slideshow/microprocessorlabmanual-ee0310/42633280 microprocessorlabmanual-ee0310-141212025005-conversion-gate02
Engineering microprocessor lab manual]]>
Engineering microprocessor lab manual]]> Fri, 12 Dec 2014 02:50:05 GMT /slideshow/microprocessorlabmanual-ee0310/42633280 ddhakar9@slideshare.net(ddhakar9) Microprocessorlabmanual ee0310 ddhakar9 Engineering microprocessor lab manual <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/microprocessorlabmanual-ee0310-141212025005-conversion-gate02-thumbnail.jpg?width=120&height=120&fit=bounds" /> Engineering microprocessor lab manual

Microprocessorlabmanual ee0310 from DHEERAJ DHAKAR

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0 Machine lab manual /slideshow/machine-lab-manual/42633217 machinelabmanual-141212024739-conversion-gate02
Electrical engineering machine lab manual.]]>
Electrical engineering machine lab manual.]]> Fri, 12 Dec 2014 02:47:39 GMT /slideshow/machine-lab-manual/42633217 ddhakar9@slideshare.net(ddhakar9) Machine lab manual ddhakar9 Electrical engineering machine lab manual. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/machinelabmanual-141212024739-conversion-gate02-thumbnail.jpg?width=120&height=120&fit=bounds" /> Electrical engineering machine lab manual.

Machine lab manual from DHEERAJ DHAKAR

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