Abstract

In a project to determine the availability of a prototype instrument suitable for implementation in the National Air Quality Monitoring Network (LML) at 8 locations, two different types of systems for measuring ambient ammonia (NH3) concentrations levels were developed and optimised. Starting points included an experimental version of a WO3 thermodenuder system, developed by KEMA and the ECN continuous-flow wet denuder. This latter instrument has been used in an interim network since August 1992. For "permanent" use in the LML, the RIVM requires a certain functional (e.g. measuring range, accuracy) and operational (e.g. availability of data, quality assurance) performance. The prototypes built by KEMA and ECN were tested by RIVM in the laboratory (under controlled conditions) and in LML (under field circumstances), and optimised. The KEMA prototype instrument was successful until during the laboratory test it turned out that the required functional performance could not be achieved, for example, for the accuracy in the measurement range < 10 ug/m3 and the low precision in the whole range of 0 - 500 ug/m3 NH3. Development of the ECN instrument turned out to be more successful. Although some serious problems were encountered during the test phase (particularly the temperature sensitivity of the instrument) it was decided to continue because successful realisation was thought to be realistic. In 1994, this led to a prototype instrument which could fulfill the required functional and operational performance reasonably and so, was useful for implementation in LML. However, the temperature sensitivity of the instrument still needs special attention. Carrying out additional modifications to the prototype instrument are therefore recommended along with improvements to the temperature conditions in the measurement cabins as well (air temperature lower than or equal to 30 degrees C).