Method for measuring the anesthetic agent consumption in a ventilation system

What is claimed is: 1. A method for measuring consumption of an anesthetic agent over a time interval, the method comprising the steps of: providing a ventilation system comprising a breathing circuit, an inspiratory line, an expiratory line and a Y-piece connecting the inspiratory line and the expiratory line to a patient, a gas mixer providing fresh gas to the breathing circuit, a manually actuatable anesthetic agent metering device for metering anesthetic to the fresh gas that is added to the breathing circuit, a gas measuring unit measuring anesthetic gas concentration at the Y-piece, an inspiratory volume flow measuring unit, at least a further volume flow measuring unit and a ventilating drive connected to the breathing circuit; providing a control and computer unit operatively connected to each of the gas measuring unit, the inspiratory volume flow measuring unit, the further volume flow measuring unit and the ventilating drive and not electrically and not operatively connected to the manually actuatable anesthetic agent metering device; manually setting and manually adjusting the setting of the manually actuatable anesthetic agent metering device to set and manually adjust an anesthetic concentration of anesthetic metered to the fresh gas and feeding the fresh gas with the set and adjusted anesthetic concentration to the breathing circuit during the course of a ventilation system procedure, wherein the manually actuatable anesthetic agent metering device does not communicate electronically with the ventilation system during the course of the ventilation system procedure; determining an inspiratory anesthetic gas concentration of the anesthetic agent and an expiratory anesthetic gas concentration of the anesthetic agent with the gas measuring unit; calculating a patient uptake anesthetic gas volume flow by multiplying a difference of the inspiratory anesthetic gas concentration and the expiratory anesthetic gas concentration with a measured inspiratory breathing minute volume flow; determining an anesthetic gas removal volume flow via an anesthetic gas removal conducting line; determining at least one further anesthetic gas volume flow of the ventilation system, the determination comprising determining any combination of: an anesthetic gas leakage volume flow from a patient loop; an anesthetic gas quantity drawn off volume flow of the gas measuring unit that is not returned to the ventilation system; and an anesthetic gas concentration increase volume flow for an increase of anesthetic gas concentration in the ventilation system; integrating a patient uptake anesthetic gas volume flow and the at least one further anesthetic gas volume flow over the time interval corresponding to a duration of a ventilation system procedure to provide a value of a volume of anesthetic gas consumed by the ventilation system during the ventilation system procedure; and recording the value, wherein: the at least a further volume flow measuring unit comprises or is associated with the gas mixer; a CO 2 absorber is connected to the breathing circuit; the anesthetic gas removal volume flow is a removal volume flow via an anesthetic gas removal conducting line multiplied by the expiratory anesthetic gas concentration wherein the removal volume flow is determined from a total fresh gas volume flow supplied as determined by the gas mixer to the ventilation system reduced by a total gas uptake of the patient, reduced by a gas quantity consumed by a leakage volume flow by the ventilation system and reduced by a CO 2 volume absorbed in the CO 2 absorber wherein the CO 2 volume is an expiratory CO 2 concentration multiplied by an expiratory exhaled volume flow of the patient. 2. A method for measuring consumption of an anesthetic agent, the method comprising the steps of: providing a ventilation system comprising a breathing circuit, an inspiratory line, an expiratory line, a Y-piece connecting the inspiratory line and the expiratory line to a patient, a gas mixer providing fresh gas to the breathing circuit, a manually actuatable anesthetic agent metering device for metering anesthetic to the fresh gas that is added to the breathing circuit, an anesthetic gas removal conducting line connected to the breathing circuit, a CO 2 absorber connected to the breathing circuit, a gas measuring unit measuring anesthetic gas, O 2 , CO 2 , and N 2 O concentration at the Y-piece, an inspiratory flow measuring unit, at least a further volume flow measuring unit and a ventilating drive connected to the breathing circuit; providing a control and computer unit operatively connected to each of the gas measuring unit, the inspiratory volume flow measuring unit, the further volume flow measuring unit and the ventilating drive and not electrically and not operatively connected to the manually actuatable anesthetic agent metering device; manually setting and manually adjusting the setting of the manually actuatable anesthetic agent metering device to set and manually adjust an anesthetic concentration of anesthetic metered to the fresh gas and feeding the fresh gas with the set and adjusted anesthetic concentration to the breathing circuit during the course of a ventilation system procedure, wherein the manually actuatable anesthetic agent metering device does not communicate electronically with the ventilation system during the course of the ventilation system procedure; determining an inspiratory anesthetic gas concentration of the anesthetic agent and an expiratory anesthetic gas concentration of the anesthetic agent with the gas measuring unit; determining a plurality of anesthetic gas volume flows associated with consumption of the anesthetic agent by elements of the ventilation system, wherein the patient is one of the elements of the ventilation system and an anesthetic gas removal volume flow via an anesthetic gas removal conducting line is another of the elements of the ventilation system, and determining a plurality of anesthetic gas volume flows associated with consumption of the anesthetic agent by elements of the ventilation system comprises: determining a patient uptake anesthetic gas volume flow by multiplying a difference of the inspiratory anesthetic gas concentration and the expiratory anesthetic gas concentration with an inspiratory breathing minute volume flow; and determining a gas removal conducting line anesthetic gas volume flow by measuring flow from a total fresh gas volume flow supplied to the breathing circuit as determined by the gas mixer to the ventilation system reduced by a total gas uptake of the patient, reduced by a gas quantity consumed by a leakage volume flow by the ventilation system and reduced by a CO 2 volume absorbed in the CO 2 absorber, wherein the CO 2 volume is an expiratory CO 2 concentration, multiplied by an expiratory exhaled volume flow of the patient, to provide a total gas removal conducting line volume flow and multiplying the total gas removal conducting line volume flow by the expiratory anesthetic gas concentration; integrating the patient uptake anesthetic gas volume flow and the gas removal conducting line anesthetic gas volume flow over a time interval corresponding to the duration of the ventilation system procedure to provide an anesthetic gas consumption value during the ventilation system procedure; and recording the anesthetic gas consumption value. 3. The method according to claim 2 , wherein: a patient loop is another of the elements of the ventilation system; determining a plurality of anesthetic gas volume flows associated with consumption the anesthetic agent further comprises determining an anesthetic gas leakage volume flow from the patient loop based on a difference of an inspiratory applied volume flow and an expiratory volume flow exhaled by the patient corrected by a total gas uptake of the patient