Method for tuning a ventilation system

What is claimed is: 1. A method for tuning a ventilation system, the ventilation system including a ventilation fan supplying air to a plurality of branches, each branch including a corresponding control valve for regulating the air flow to that branch, the ventilation fan being driven by a frequency converter controlled electric motor, the method comprising: selecting the branch in the ventilation system with the greatest pressure loss; opening the control valve in the selected branch and closing the control valves in all other branches; controlling the ventilation fan to produce a desired air flow rate into the selected branch by using fan characteristic shaft power to air flow rate curves and a shaft power estimate from the frequency converter, and by adjusting the rotational speed of the electric motor with the frequency converter so that the desired air flow rate is achieved; calculating, in the frequency converter, simultaneously the fan pressure corresponding to the desired air flow rate from fan characteristic fan pressure to air flow rate curves based on the desired air flow rate and the rotational speed of the electric motor, and saving the calculated fan pressure in the frequency converter as a reference pressure; and adjusting the control valves in each of the remaining branches one-by-one so that the desired air flow rate to each branch is delivered while the fan is controlled by the frequency converter to produce constantly the reference pressure. 2. The method according to claim 1 , comprising: calculating a specific fan power of the ventilation system at a nominal operation point as a ratio of the electrical power consumed by the frequency converter and the total air flow rate calculated in the frequency converter. 3. The method according to claim 1 , wherein the calculated fan pressure is stored in a memory of the frequency converter as the reference pressure. 4. A non-transitory computer-readable recording medium having recorded thereon a computer program that causes a processor of a frequency converter to execute operations for tuning a ventilation system, the ventilation system including a ventilation fan supplying air to a plurality of branches, each branch including a corresponding control valve for regulating the air flow to that branch, the ventilation fan being driven by an electric motor controlled by the frequency converter, the program causing the processor of the frequency converter to carry out operations comprising: selecting the branch in the ventilation system with the greatest pressure loss; opening the control valve in the selected branch and closing the control valves in all other branches; controlling the ventilation fan to produce a desired air flow rate into the selected branch by using fan characteristic shaft power to air flow rate curves and a shaft power estimate from the frequency converter, and by adjusting the rotational speed of the electric motor with the frequency converter so that the desired air flow rate is achieved; calculating simultaneously the fan pressure corresponding to the desired air flow rate from fan characteristic fan pressure to air flow rate curves based on the desired air flow rate and the rotational speed of the electric motor, and saving the calculated fan pressure in the frequency converter as a reference pressure; and adjusting the control valves in each of the remaining branches one-by-one so that the desired air flow rate to each branch is delivered while the fan is controlled by the frequency converter to produce constantly the reference pressure. 5. The non-transitory computer-readable recording medium according to claim 4 , wherein the program causes the processor of the frequency converter to carry out an operation comprising calculating a specific fan power of the ventilation system at a nominal operation point as a ratio of the electrical power consumed by the frequency converter and the total air flow rate calculated in the frequency converter.