Combustion device with a side duct for measuring turbulent flows

The invention claimed is: 1. A combustion device comprising: a burner; a combustion chamber with a fluid connection to the burner; a side duct; and a feed duct with a connector for the side duct; the feed duct including an inlet and an outlet; wherein the inlet lets a fluid flow into the feed duct; the outlet lets the fluid flow out of the feed duct into the burner; wherein the side duct comprises: a mass flow sensor, an inlet, an outlet, and a flow resistance element; the inlet of the side duct connects to the connector so that the side duct and the feed duct have a fluid connection to one another; the mass flow sensor detects a signal corresponding to a mass flow of the fluid through the side duct; the resistance element subdivides the side duct into a first section facing away from the mass flow sensor and a second section facing towards the mass flow sensor; the resistance element includes an admittance surface for passage of the fluid between the first and the second section; the combustion device comprises an outer area arranged outside of the side duct, the feed duct, the burner, and the combustion chamber; wherein the mass flow sensor projects into the side duct; and the outlet of the side duct lets the fluid flow out of the side duct directly into the combustion chamber or directly into the outer area. 2. The combustion device as claimed in claim 1 , wherein: the connector comprises a probe having an inlet and an outlet; at least part of the probe projects into the feed duct and the inlet of the probe lets the fluid flow from the feed duct into the probe; the outlet of the probe lets the fluid flow out of the probe into the side duct; and the inlet of the probe has an admittance surface for the passage of the fluid between feed duct and the probe. 3. The combustion device as claimed in claim 2 , wherein: the inlet of the probe has a number of openings each for allowing passage of the fluid between the feed duct and an interior of the probe; and a diameter of each individual opening blocks suspended particles in a mass flow in the feed duct from entering the interior of the probe. 4. The combustion device in accordance with claim 1 , wherein: the side duct includes a bypass duct and a second flow resistance element; the second flow resistance element subdivides the side duct into a third section facing towards the at least one flow resistance element and a fourth section facing away from the flow resistance element; and the bypass duct branches off from the section of the side duct to form a fluid connection to the third section. 5. The combustion device as claimed in claim 4 , wherein the mass flow sensor projects into the bypass duct. 6. The combustion device as claimed in claim 4 , wherein the bypass duct includes a third flow resistance element arranged in the bypass duct. 7. The combustion device as claimed in claim 1 , wherein the outlet of the side duct provides a fluid connection to the combustion chamber. 8. The combustion device as claimed in claim 1 , further comprising an environment surrounding the burner and the combustion chamber from the outside; wherein the outlet of the side duct provides a fluid connection to the environment. 9. The combustion device as claimed in claim 1 , further comprising a signal-processing device with a lowpass filter connected to the mass flow sensor; wherein the lowpass filter filters the signal of the mass flow sensor. 10. The combustion device as claimed in claim 9 , wherein the lowpass filter is of an adaptive design. 11. The combustion device as claimed in claim 1 , comprising a fan and a control or monitoring device, wherein the control or monitoring device is connected to the mass flow sensor.