Difference between revisions of "High Voltage"

From SlugWiki
Jump to: navigation, search
Line 1: Line 1:
 
==Cooking with high voltage==
 
==Cooking with high voltage==
 
 
This is based on resistive heating of food when current passes through it. Since the resistance of most foods is large, high voltage is needed to get any appreciable power dissipation.
 
This is based on resistive heating of food when current passes through it. Since the resistance of most foods is large, high voltage is needed to get any appreciable power dissipation.
  
Line 6: Line 5:
  
 
This technique was sucessfully demonstrated by [[Walker Chan]] to win the "what a way to die" category in the 2005 EC Apple Bakeoff.
 
This technique was sucessfully demonstrated by [[Walker Chan]] to win the "what a way to die" category in the 2005 EC Apple Bakeoff.
 +
 +
==Jacob's Ladder==
 +
For CPW 2006, slugs built a Jacob's Ladder out of two microwave transformers and two pieces of copper pipe. The transformers were connected with their primaries in parallel and their secondaries in series. In order to keep the line current below 15A, a large electromagnet was wired in series with the transformers.
 +
 +
The Jacob's Ladder could be electrically triggered by applying a high current pulse to a third winding (originally intended for the filament heater in the microwave) on one of the transformers.
  
 
[[Category: Slugfest Culture]]
 
[[Category: Slugfest Culture]]

Revision as of 23:51, 9 April 2006

Cooking with high voltage

This is based on resistive heating of food when current passes through it. Since the resistance of most foods is large, high voltage is needed to get any appreciable power dissipation.

The aparatus is composed of a high voltage transformer removed from a broken microwave and two electrodes which are inserted into the food. The setup can deliver 1.8kW of power.

This technique was sucessfully demonstrated by Walker Chan to win the "what a way to die" category in the 2005 EC Apple Bakeoff.

Jacob's Ladder

For CPW 2006, slugs built a Jacob's Ladder out of two microwave transformers and two pieces of copper pipe. The transformers were connected with their primaries in parallel and their secondaries in series. In order to keep the line current below 15A, a large electromagnet was wired in series with the transformers.

The Jacob's Ladder could be electrically triggered by applying a high current pulse to a third winding (originally intended for the filament heater in the microwave) on one of the transformers.