标准配置：可加热液滴发生器 (PLG-2100);可加热气溶胶稀释器 (KHG-2010) 两级串联至100倍稀释比;可加热气溶胶粒径谱仪 (Welas®-1000 或 Welas®-3000);电晕静电中和器 (CD-2000);可加热密封舱及温度控制器单元;基于Window的系统自动控制软件

The quality control and development of separators should be preferably accomplished under practice-relevant test conditions. Oil separators must therefore be tested under the application conditions at high temperatures up to 120 °C and depending on its application field at high pressures. 

As special feature the HMT 1000 P version of the test rig offers the control of upstream absolute pressure to ± 200 mbar at the entrance of the test room or test filters.

With the modular testing system HMT 1000  P oil separators can, e. g. for the separation of blow-by aerosols in combustion engines or for the separation of oil vapour behind compressors, be characterized fast and exactly and above all be tested isothermally up to 120°C in step with actual practice:

 Fractional separation efficiency

 Loading time/Lifetime

 Total separation efficiency/gravimetry

 Pressure drop

The single components of the test rig like the high-resoluting heatable light-scattering spectrometer welas® digital 1000 H, the heatable dilution systems KHG 10 D and the heatable aerosol generator PLG 2100 can be simply removed from the HMT 1000 and used for other applications, e. g. measurements directly on the engine.

For many years numerous companies worldwide have benefited from the advantages of the heatable and pressure-resistant Palas® test components for the isothermal and isobaric particle size and particle quantity measurement of oil mists.

Palas® HMT 1000 filter test rigs have been used with great success in the international industry since 2001.

Quality in detail

The heart core of the HMT 1000 P is the light-scattering spectrometer welas® digital 1000, which measures the particle size and particle number and thus the concentration simultaneously but independent from each other. With the welas® digital 1000 it can be measured extremely fast, clearly, reproducibly and isothermally (see data sheet welas® digital).

welas® digital 1000

Fig. 1: welas® digital 1000

Advantage of the optical particle measurement compared to the absolute gravimetric measurement:

The usual gravimetric quantity determination is often not fast and sensitive enough and provides no information about the particle size distribution.

Due to the extremely good correlation between number distribution measurement and gravimetry a fast and mass-relevant test of the oil separators is guaranteed. 

The determination of the clean gas concentration is possible within 1 minute by means of the welas® digital system.

Why isothermal measurement?

Depending on the temperature of the engine the particle sizes and concentrations change in the oil mist. Thus, oil separators must be tested at different temperatures, i. e. with different particle sizes (up to approx. 5-8 µm) and particle concentrations (approx. 105 particles/cm3  up to 107 particles/cm3) as well as different volume flows in order to characterize them clearly regarding its separation behaviour.

Modifications of the characteristics of the separator which are caused by e. g. the change of the volume flow, the temperature, the loading of the filter etc. must be clearly determined by a reliable online measurement or an in-situ measurement. 

In order to prevent condensation effects but also evaporation effects, the complete aerosol guidance with the HMT 1000 P including preparation, sampling and measuring volume is heatable up to 120 °C. Thus, an isothermal fractional separation efficiency determination is guaranteed. 

Why regulation of ± 200 mbar?

Depending on the structure of the oil separator an over pressure or under pressure developes at the entrance of the filter. Because of the control of ± 200 mbar at the entrance of the test device oil mist separators can be tested under the same conditions as in practice.

Isothermal in-situ measurement, e. g. at the engine

The testing system HMT 1000 is built up movably and modularly. Thus, the single components can be used also for other tests and particle measurements, e. g. in-situ measurements at the engine. 

Insitu Messtechnik.JPG

Fig. 2: Isothermal sampling of particles and in-situ measurement 

Automatic detection of the measuring data with the Palas® FTControl software

The practice-proven software allows an almost fully-automated characterization of oil separators. Thus, a result is independent of the user of the test rig (see data sheet FTControl).

Test rig control:

Automated control of the volume flow

Automated switch on of the aerosol generator

Automatic switch between upstream/downstream measuring point

Automatic temperature control

Evaluation and registration of measuring signals as e. g. Δp, rel. humidity, temperature, volume flow, absolute pressure etc.

Automatic measuring process:

 Automatic evaluation of the pressure loss curve

 Automatic measurement of the fractional separation efficiency

 Automatic evaluation of the pressure loss curve at different loading conditions incl.  measurement of the fractional separation efficiency

Vergleich von unterschiedlichen Ölabscheidern

Measurement range (size) 0.18 – 40 µm

Volume flow                1 – 25 Nm³/h, 1 – 85 Nm³/h (others on request)

Power supply                Three phase connection (400/230 V; 16 A), Power input: approx. 8 KW

Dimensions                Approx. 1780 • 2240 • 800 mm (H • W • D)

Differential pressure measurement 0 – 3000 Pa (others on request)

Aerosol concentrations        up to 107 particles/cm3 with 2 KHG 10 D

Compressed air supply        6 – 8 barg

Pressure                -0,2 – 0,2 barg relative