Day 3: Turbidity spiked from 120 NTU to 680 NTU as hops were added. Then, as yeast flocculated, turbidity dropped. Jenna watched the curve flatten at 210 NTU—perfect haze stability. She closed the dump valve exactly when the immersion probe showed clean separation , not by a timer. No more guessing.
"You don't pull a sample," he said. "You immerse this directly into your fermenter. Real-time. In-place." canty immersion turbidity
Then a sales engineer from visited. He didn’t hand her a catalog. He handed her a rugged, stainless-steel probe—the Canty Immersion Turbidity System . Day 3: Turbidity spiked from 120 NTU to
In a mid-sized craft brewery called Harbor & Hops , head brewer Jenna faced a recurring nightmare: inconsistent haze in their flagship New England IPA, "Fogcutter." Some batches were beautifully opaque, like fresh citrus juice. Others were disappointingly thin, almost clear. Customers noticed. Revenue dipped. She closed the dump valve exactly when the
Jenna installed one on Tank 7 (Fogcutter’s primary vessel). On her control screen, she now saw a live trend line, updating every second.
The problem wasn't recipe or yeast. It was turbidity measurement —the cloudiness caused by suspended particles. Jenna used a benchtop turbidimeter: draw a sample, run to the lab, wait for a reading, then adjust. By the time she had data, the tank conditions had shifted. She was always chasing yesterday's beer.
Now, when new brewers ask her, "How do you get such consistent haze?" she points to the probe and says: “Don’t sample the past. Immerse yourself in the present.” If you work with any liquid process where suspended solids matter (beer, wastewater, chemicals, pharmaceuticals), the Canty immersion turbidity probe offers real-time, in-situ measurement, eliminating sampling lag and errors from bubbles or color interference. It turns turbidity from a periodic QC test into a live process control variable.