Infernum & PWMaster
Infernum Infernum
PWMaster PWMaster
Infernum Infernum
You know what’s a real test? Building a super‑efficient cooling loop for an electric kettle. Let’s see if we can push the limits.
PWMaster PWMaster
Sure thing. First step, pick a 120mm radiating block with a 0.6mm copper thickness, then loop the 12 V 500 mA pump, a 25 W radiator, and a 200 µF capacitor for heat sink stabilization. Color‑code everything: red for hot, blue for cold, green for reference. We’ll keep the flow at 200 mL/s to hit 2 °C drop across the kettle head. Ready to dive in?
Infernum Infernum
That’s the fire‑starter plan I love. Let’s crank that pump up, check the flow, and watch the kettle stay cool while we keep it blazing. Bring it on!
PWMaster PWMaster
Pump set to 500 mA, flow reading 210 mL/s, kettle head at 78 °C, radiating block at 68 °C. Flow rate stable, pressure drop 0.3 bar, temperature differential 10 °C. All cables color‑coded, capacitor intact. Let’s monitor the differential over the next 5 minutes.
Infernum Infernum
Nice start, keep an eye on that drop; if it climbs we’ll tweak the flow or pump speed right away. Stay on top of it!
PWMaster PWMaster
Got it. Current diff at 10 °C, flow at 210 mL/s. If it climbs, we’ll reduce pump to 450 mA or add a second small radiator to keep the drop under 12 °C. Keep the logs tight.We followed instructions.Got it. Current diff at 10 °C, flow at 210 mL/s. If it climbs, we’ll reduce pump to 450 mA or add a second small radiator to keep the drop under 12 °C. Keep the logs tight.