Technology Department 2 April 2015A.Adraktas1 MKD 3D field calculations A. Adraktas Acknowledgments: V. Senaj MKD meeting, 2 April 2015.

Slides:

Advertisements

Similar presentations

Earthquake Dynamic Triggering and Ground Motion Scaling J. Gomberg, K. Felzer, E. Brodsky.

Advertisements

We have looked at the magnetic field from a single loop of wire

Chapter 22--Examples.

CONDUCTORS + CAPACITORS

Electric Charges and Electric Fields

Magnetic Field Measurement & Simulation of A 230 kV Substation I.O. Habiballah (KFUPM), M.M. Dawoud (KFUPM), K. Al-Balawi (KFUPM), A.S. Farag (UTN) October,

Exam One will be handed back at the end of class on W05D1 Mon and Tuesday. Students can take the exam home and compare with solutions. Regrading Requests:

Applied Electricity and Magnetism

Lecture 02 – PPT and I-Clicker Questions Which picture best represents the movement of changes as a negatively charged object comes near a neutral sphere?

Conductors in Electrostatic Equilibrium. Electrostatic Equilibrium No net flow of electric charge No current.

Ch 25.5 – Potential due to Continuous Distribution We have an expression for the E-potential of a point charge. Now, we want to find the E-potential due.

Chapter 26A - Capacitance

Conductors and Dielectrics in Static Electric Fields

Dielectrics Experiment: Place dielectrics between plates of capacitor at Q=const condition Observation: potential difference decreases to smaller value.

Electric Potential Electric forces are conservative. Work done by an electric force is W=-q o Ed  U=-W.

Objectives: 1. Define and calculate the capacitance of a capacitor. 2. Describe the factors affecting the capacitance of the capacitor. 3. Calculate the.

Capacitance and Dielectrics AP Physics C. Applications of Electric Potential Is there any way we can use a set of plates with an electric field? YES!

1/30/07184 Lecture 131 PHY 184 Spring 2007 Lecture 13 Title: Capacitors.

A Charged, Thin Sheet of Insulating Material

A sphere of radius A has a charge Q uniformly spread throughout its volume. Find the difference in the electric potential, in other words, the voltage.

Capacitors in series: Capacitors in parallel: Capacitors Consider two large metal plates which are parallel to each other and separated by a distance.

Electrostatic field painted by Simulation School of Electronics & Applied Physics, Hefei University of Technology.

I-6 Capacitance and Capacitors Main Topics An Example of Storing a Charge. Capacity x Voltage = Charge. Various Types of Capacitors.

1) If a 4-  F capacitor and an 8-  F capacitor are connected in parallel, which has the larger potential difference across it? Which has the larger.

4. Electrostatics with Conductors

Example: a radio station on the surface of the earth radiates a sinusoidal wave with an average total power of 50 kW.* Assuming the wave is radiated equally.

Interaction of Charged Objects Attraction: can happen also for like-charged objects! Repulsion: can happen only for like-charged objects! Intervening matter.

Applied Electricity and Magnetism

+ E Force due to E created by positive charge shifts electron cloud and nucleus in opposite directions: electric dipole. An atom is said to be polarized.

Density vs Hot Spot Analysis. Density Density analysis takes known quantities of some phenomenon and spreads them across the landscape based on the quantity.

MKD stack upgrade MKD generator meeting Viliam Senaj 23/06/2015.

MKI Magnet Design, PT100 Sensor Locations & Heating Observations in 2011 M.J. Barnes Acknowledgements: H. Day, L. Ducimetiere, N. Garrel 23 November 20111M.J.

Gauss’s Law The electric flux through a closed surface is proportional to the charge enclosed The electric flux through a closed surface is proportional.

My office change was not reflected on the syllabus. It is now ESCN Our first exam is a week from next Tuesday - Sep 27. It will cover everything.

Lecture 6 Development of Transmission Line Models Professor Tom Overbye Department of Electrical and Computer Engineering ECE 476 POWER SYSTEM ANALYSIS.

Chapter 25 Capacitors Capacitor and Capacitance A capacitor consists of two isolated conductors (the plates) with charges + q and - q. Its capacitance.

Electric charge, electric field, static charge an charge by induction.

S-113 Define these terms A.Charge B.Potential Difference (Voltage) C.Current (Amps) D.Resistance.

Electric Potential Energy of the System of Charges

Day 4: Electric Field Calculations for Continuous Charge Distributions A Uniform Distribution of Surface charge A Ring of Continuous Charge A Long Line.

Do Now (9/23/13): What is the voltage of a proton moving at a constant speed of 3 m/s over 1 s in an electric field of 300 N/C?What is the voltage of.

Electrostatics.

Electric Charge and Electric Field

-Electric Potential due to Continuous Charge Distributions AP Physics C Mrs. Coyle.

Physics 212 Lecture 7, Slide 1 Physics 212 Lecture 7 Today's Concept: Conductors and Capacitance How are charges distributed on conductors? What is capacitance.

Capillary Rise.

By: Savannah Dotterman.  A physical amount of matter that makes it go through an electric reaction when its around or near other electrically charged.

EKT 101 Electric Circuit Theory

Waves from the Sun Electromagnetic Wave Electric field – The electric field E at a point is defined as the force per unit charge experienced by a small.

Technology Department 7 May 2015A.Adraktas1 MKD 3D field calculations A. Adraktas Acknowledgments: V. Senaj MKD meeting, 7 May 2015.

Halliday/Resnick/Walker Fundamentals of Physics

Prof. David R. Jackson ECE Dept. Spring 2016 Notes 16 ECE 3318 Applied Electricity and Magnetism 1.

1 Mid-term review Charges and current. Coulomb’s Law. Electric field, flux, potential and Gauss’s Law. Passive circuit components.  Resistance and resistor,

1 Mid-term review Charges and current. Coulomb’s Law. Electric field, flux, potential and Gauss’s Law. Passive circuit components.  Resistance and resistor,

Objectives: 1. Define and calculate the capacitance of a capacitor. 2. Describe the factors affecting the capacitance of the capacitor. 3. Calculate the.

Chapter 28 Sources of Magnetic Field Ampère’s Law Example 28-6: Field inside and outside a wire. A long straight cylindrical wire conductor of radius.

There are only two charges, positive and negative.

MKDV upgrade LIU-SPS ABT meeting V. Senaj, L. Ducimetiere, P. Faure November 4 th 2014.

Conductors and Insulators

Proposition of MKD & MKBH modification with the goal to reduce maximum voltage (and risk of erratic) Viliam Senaj, 05/05/2017.

Electric Fields & Forces

EKT 101 Electric Circuit Theory

Applied Electricity and Magnetism

التعلم بالإكتشاف المراجع:

Charged Isolated Conductor

Properties of Electric Charge

Charging by Magnetism Since you can create a magnetic field by running electricity through a wire, can you create electricity using a magnetic field?

Electricity Electric Charge.

Dielectrics Experiment: Place dielectrics between

Presentation transcript:

Technology Department 2 April 2015A.Adraktas1 MKD 3D field calculations A. Adraktas Acknowledgments: V. Senaj MKD meeting, 2 April 2015

Technology Department 2 April 2015A.Adraktas2 MKD 3D field calculations 3D field calculations for the existing GTO stack

Technology Department 2 April 2015A.Adraktas3 MKD 3D field calculations 3D field calculations for the existing GTO stack

Technology Department 2 April 2015A.Adraktas4 MKD 3D field calculations 3D field calculations for the existing GTO stack

Technology Department 2 April 2015A.Adraktas5 MKD 3D field calculations Calculation of inductance of model Based on previously existing models in opera 2d the inductance of the gto was calculated to L≈132nH

Technology Department 2 April 2015A.Adraktas6 MKD 3D field calculations Conclusions According to the simulations high electric field is predicted near the surface of the araldite around the ground busbar where the discharges have benn observed. There is also a high field near the surface of the capacitor stack. Moving the ground busbar in a larger distance from the HV conductor will probably reduce the field significantly The inductance prediction is based on a previously existing model. If we assume current density to be in a larger radius than before this would give us a lower inductance of the model(ongoing)