Air flow rates in cyclonic particle separation chambers

The invention claimed is: 1. Air filtration apparatus comprising: a cyclonic particle separation chamber having a first inlet to draw air from a first region, second inlet to draw air from a second region, and an exhaust port; a pressure sensor to sense a pressure of the first region; and a cyclonic air flow controller to control an air inflow received via the second inlet in response to an output from the pressure sensor to maintain a total air flow rate via the exhaust port. 2. Air filtration apparatus according to claim 1 in which the second inlet comprises an inlet air flow regulator and the exhaust port comprises an exhaust air flow regulator and cyclonic air flow controller is to control the inlet air flow regulator. 3. Air filtration apparatus according to claim 2 in which at least one of the inlet air flow regulator and the exhaust air flow regulator is a fan. 4. Air filtration apparatus according to claim 2 in which the inlet air flow regulator is a valve. 5. Air filtration apparatus according to claim 1 in which the cyclonic air flow controller is to control the air inflow received via the second inlet such that the total air flow rate is within a predetermined value range. 6. Air filtration apparatus according to claim 1 in which the cyclonic air flow controller is to control the air inflow received via the second inlet such that the total air flow rate is substantially constant. 7. An object generation apparatus comprising: a fabrication chamber; a cyclonic separation apparatus; and a cyclonic air flow controller; wherein: the cyclonic separation apparatus comprises a cyclonic separation chamber to filter air extracted from the fabrication chamber, a first air inlet to receive a first air inflow from the fabrication chamber and a second air inlet to receive a second air inflow from outside the fabrication chamber, the first and second air inflows providing a cyclone air flow and the second air inlet comprising an air inflow regulator; and the cyclonic air flow controller is to control the second air inflow to compensate for changes in the first air inflow such that the cyclone air flow conforms to predetermined parameters. 8. An object generation apparatus according to claim 7 which comprises a plurality of cyclonic separation chambers. 9. An object generation apparatus according to claim 7 further comprising a pressure sensor disposed within the fabrication chamber. 10. An object generation apparatus according to claim 9 in which the fabrication chamber comprises an air outlet which is connected to the first air inlet of the cyclonic separation apparatus, wherein the pressure sensor is located away from the air outlet. 11. An object generation apparatus according to claim 7 in which the fabrication chamber comprises an air ingress port and the object generation apparatus further comprises a moveable component which, in use of the object generation apparatus, has a variable position within the fabrication chamber with respect to the air ingress port. 12. An object generation apparatus according to claim 7 further comprising an exhaust fan to draw air through the cyclonic separation chamber, wherein the cyclonic air flow controller is to control the exhaust fan. 13. A method comprising: receiving, into a cyclonic separation chamber, a first air flow from a fabrication chamber of an object generation apparatus and a second air flow from outside the fabrication chamber; determining a pressure in the fabrication chamber; and adjusting the second air flow in response to the determined pressure to maintain a total air flow through the cyclonic separation chamber. 14. A method according to claim 13 comprising adjusting the second air flow by controlling a speed of a fan. 15. A method according to claim 13 comprising adjusting the second air flow such that the total air flow is substantially constant.