Only 1 inch longer than an average lighter.
Only 1 inch longer than an average lighter.
Anodized aircraft grade Aluminum alloy
304 Stainless Steel
Machined Borosilicate Glass
Quickly cools smoke by extending the path of travel.On average, the smoke travels an astounding 16 inches prior to being inhaled -- giving it plenty of time to cool off.
Once the smoke exits the 2nd cyclone -- it has already cooled down to ambient temperature. This helps ensure that the tar condenses in the pipe, not your throat.
[CFD transient thermal simulation shown]
Three mini-cyclones scrub out microscopic ash and tar particles -- leaving you with a cleaner, less cough-inducing hit.
Filters out 99% of ash and tar particles larger than 4 microns.
[CFD simulation of a 4 micron particle stream shown]
Only 1 inch longer than an average lighter.
Machined and Anodized aircraft-grade Aluminum alloy Frame.
Ultrasonically cleaned 304 Stainless Steel Screen
Precision Machined 3.3mm German Borosilicate Glass Panels
Quickly cools smoke by extending the path of travel.On average, the smoke travels an astounding 16 inches prior to being inhaled -- giving it plenty of time to cool off.
By the time the smoke exits the 2nd cyclone -- it has already cooled down to ambient temperature. This helps ensure that the tar condenses in the pipe, not your throat.
[CFD transient thermal simulation shown]
Quickly cools smoke by extending the path of travel.On average, the smoke travels an astounding 16 inches prior to being inhaled -- giving it plenty of time to cool off.
By the time the smoke exits the 2nd cyclone -- it has already cooled down to ambient temperature. This helps ensure that the tar condenses in the pipe, not your throat.
[CFD transient thermal simulation shown]
Removes 99% of ash and tar particles larger than 4 microns.Removes 92% of ash and tar particles in the 1 - 4 micron range.
Reduces that "everlasting harshness" feeling by filtering out the particles that typically stick to the back of your throat.
Optimized using Computational Fluid Dynamics to improve separation efficiency without sacrificing draw resistance. [picture shows a 4 micron CFD particle simulation]
Mouthpiece end-cap
Bowl end-cap
Pack a bowl and cap it for later so it's ready to go whenever you are.
Impact absorbing end caps minimize glass breakage during accidental drops.
Bowl end-cap
Mouthpiece end-cap
Pack a bowl and cap it for later so it's ready to go whenever you are.
Impact absorbing end caps minimize glass breakage during accidental drops.