Electromagnetic mass acceleration

Click For Summary
SUMMARY

The discussion focuses on the design and efficiency challenges of electromagnetic mass accelerators, specifically Gauss guns and coil guns. The user is utilizing 4 to 5 electrolytic capacitors rated for 400V each, a dual-stage coil, and an IGBT switch for optimal energy pulsing. The primary concern raised is the overall efficiency, which is noted to be around 8%. Suggestions for improvement include using low ESR aluminum electrolytic capacitors and addressing the air gap between the projectile and the iron shield to enhance efficiency.

PREREQUISITES
  • Understanding of electromagnetic principles and coil design
  • Familiarity with IGBT (Insulated Gate Bipolar Transistor) technology
  • Knowledge of capacitor specifications, particularly low ESR (Equivalent Series Resistance)
  • Basic concepts of magnetic fields and projectile dynamics
NEXT STEPS
  • Research low ESR aluminum electrolytic capacitors for improved performance
  • Explore mechanical knife switches as alternatives to semiconductor switches
  • Investigate methods to minimize air gaps in electromagnetic systems
  • Study the principles of reluctance in electromagnetic fields to enhance efficiency
USEFUL FOR

Engineers, hobbyists, and researchers interested in electromagnetic propulsion systems, particularly those focused on improving the efficiency of Gauss guns and coil guns.

oldunion
Messages
182
Reaction score
0
some of you may have heard of a Gauss gun, coil gun, or em mass accelerator. if not google has you covered. I am designing a system which will utilize 4 or 5 electrolytic capacitors rated for 400v per cap, a dual stage coil with ir photo gates, and some other things.

The principle is that a high voltage is discharged into a coil of copper wire (solenoid) which creates a strong magnetic field inside the coil. This in turn can launch a projectile sitting inside this coil.

The major problem with these devices is overal efficiency, 8% is the most I've ever heard of. I will be using an IGBT switch, which is the most efficient means of pulsing the energy from the capacitors.

I am also shielding the coil with a silencer looking tube of iron.

Does anyone else know of a way to further the efficiency in such a scenario
 
Physics news on Phys.org
yep, FBI will be very keen to be informed about it ;)
 
oldunion said:
some of you may have heard of a Gauss gun, coil gun, or em mass accelerator. if not google has you covered. I am designing a system which will utilize 4 or 5 electrolytic capacitors rated for 400v per cap, a dual stage coil with ir photo gates, and some other things.

The principle is that a high voltage is discharged into a coil of copper wire (solenoid) which creates a strong magnetic field inside the coil. This in turn can launch a projectile sitting inside this coil.

The major problem with these devices is overal efficiency, 8% is the most I've ever heard of. I will be using an IGBT switch, which is the most efficient means of pulsing the energy from the capacitors.

I am also shielding the coil with a silencer looking tube of iron.

Does anyone else know of a way to further the efficiency in such a scenario


Google finds

http://www.oz.net/~coilgun/mark2/home.htm
 
Last edited by a moderator:
pervect said:
Google finds

http://www.oz.net/~coilgun/mark2/home.htm

well the fbi can come kick in my door if they want, but considering how the local sports authority is selling bb guns at higher velocity than what i could make, they have better things to do.


I have already read half of the oznet. I am more or less into theory now, and I am nearly to the point of being able to pose an educated question to my physics professor.
 
Last edited by a moderator:
Your implication is that the resistance of the switch device is the culprit. If so, replace the semiconductor with a mechanical knife switch. Not fancy, byt effectively 'no' resistance.
Your problem may be the resistance of the capacitors.
Look for low ESR (Equivalent series resistance) capacitors.
Try aluminum electrolytic capacitors.
 
joe tomei said:
Your implication is that the resistance of the switch device is the culprit. If so, replace the semiconductor with a mechanical knife switch. Not fancy, byt effectively 'no' resistance.
Your problem may be the resistance of the capacitors.
Look for low ESR (Equivalent series resistance) capacitors.
Try aluminum electrolytic capacitors.

the internal gate bipolar transistor (igbt) is the most efficient switch they have for this application. Electrolytic capacitors will be used. i don't imply to know what the cause for poor efficiency is, but since youve sprung it on me, i would say that most efficiency is lost due to the air gap between the projectile and the external iron shield (which covers the coil) at the muzzle. So this would indicate that i believe the primary loss of efficiency has to do with overall reluctance of the em field.
 

Similar threads

Undergrad Why is my magnetic levitation experiment not working?
  • · Replies 22 ·
Replies
22
Views
4K
Undergrad Numerical calculations of a railgun yielded disappointing results
  • · Replies 4 ·
Replies
4
Views
1K
Can a 400V 2200µF capacitor propel 0.5g through a rail gun?
  • · Replies 2 ·
Replies
2
Views
2K
Electrical How to use capacitors in a Solenoid circuit
  • · Replies 32 ·
2
Replies
32
Views
9K
Undergrad Electromagnetic Fields and the manipulation of Space-Time
  • · Replies 9 ·
Replies
9
Views
3K
Help with simulation in ANSYS Maxwell, 3D electromagnetism simulator
  • · Replies 2 ·
Replies
2
Views
6K
Undergrad Railgun: Problems with reality check
  • · Replies 8 ·
Replies
8
Views
2K
Electromagnetics: Non-Symetrical coil with external iron
  • · Replies 4 ·
Replies
4
Views
3K
Please help designing a specific electromagnet
  • · Replies 3 ·
Replies
3
Views
2K
How Can I Safely Control an Electromagnet with a Microcontroller?
  • · Replies 7 ·
Replies
7
Views
15K