Method of observing a change of mass inside a grinding unit

The invention claimed is: 1. A method for observing a change of mass inside a grinding unit as a part of a grinding process, the method comprising: determining a first mass flow (m 1 ) of input material feed along a process input path to the grinding unit, the feed input material to be grinded by the grinding unit; determining a second mass flow (m 5 ) of grinded material removed from a storage unit along a process output path, the storage unit storing grinded material from the grinding unit; determining a change of mass of the grinded material inside the storing unit; deriving a change of mass inside the grinding unit from the determined change of mass inside the storing unit and the determined first and second mass flows, and based on a previously established mass balance for the storing unit; and adjusting a grinding process operation based on the derived change of mass inside the grinding unit. 2. The method of claim 1 , further comprising: controlling the grinding process in response to the observed change of mass inside the grinding unit. 3. The method of claim 2 , wherein the step of deriving the change of mass inside the grinding unit is further based on a previously established mass balance for the grinding unit, and wherein the change of mass inside the grinding unit is derived using state estimation techniques of a Kalman filter or a moving horizon estimation. 4. The method of claim 3 , wherein the step of deriving the change of mass inside the grinding unit is further based on a previously established mass balance for a sizing unit and a previously established mass balance for a return path, the sizing unit configured to separate coarse and fine material located upstream of the storing unit, the return path configured to return coarse material from the sizing unit to the grinding unit. 5. The method of claim 4 , further comprising: deriving a change of mass value in the return path, and further wherein the step of deriving the change of mass inside the grinding unit is further based on the derived change of mass value in the return path. 6. The method of claim 1 , wherein the step of deriving the change of mass inside the grinding unit is further based on a previously established mass balance for the grinding unit, and wherein the change of mass inside the grinding unit is derived using state estimation techniques of a Kalman filter or a moving horizon estimation. 7. The method of claim 1 , wherein deriving the change of mass inside the grinding unit is further based on a previously established mass balance for the grinding unit, a previously established mass balance for a sizing unit, and a previously established mass balance for a return path, the sizing unit configured to separate coarse and fine material located upstream of the storing unit, the return path configured to return coarse material from the sizing unit to the grinding unit. 8. The method of claim 7 , further comprising: deriving a change of mass value in the return path, and further wherein the step of deriving the change of mass inside the grinding unit is further based on the derived change of mass value in the return path. 9. A system for observing a change of mass inside a grinding unit as a part of a grinding process, the system comprising: a storing unit structured to store output of the grinding unit; a first measuring device structured to measure a first mass flow into the grinding unit; a second measuring device structured to measure a second mass flow out of the storing unit; a third measuring device structured to measure a change of mass inside the storing unit; and a processing unit structured to derive a change of mass inside the grinding unit based on the determined change of mass inside the storing unit. 10. The system of claim 9 , wherein the third measuring device comprises: an optical or acoustic sensor for sensing of a surface of the mass inside the storing unit.