Analysis temperature

MIMOS II has three temperature sensors one on the electronics board and two on the SH. One temperature sensor in the SH is mounted near the internal reference absorber, and the measured temperature is associated with the reference absorber and the internal volume of the SH. The other sensor is mounted outside the SH at the contact ring assembly. It gives the approximate analysis temperature for the sample on the Martian surface. This temperature is used to route the Mossbauer data to the different temperature intervals (maximum of 13, with the temperature width software selectable) assigned in memory areas. Shown in Fig. 3.21 are the data of the three temperature sensors taken on Mars (rover Opportunity at Meridiani Planum) in January 2004 between 12 10 PM on Sol 10 (10 Martian days after landing) and 11 30 AM on Sol 11. The temperature of the electronics board inside the rover is much higher than the temperatures inside the SH and the contact plate sensor, which are nearly identical and at ambient Martian temperature. [Pg.62]

MIMOS II has three temperature sensors, one on the electronics board and two on the sensor head. One temperature sensor in the sensor head is mounted near the internal reference absorber, and the measured temperature is associated with the reference absorber and the internal volume of the sensor head. The other sensor is mounted outside the sensor head at the contact ring assembly. It gives the analysis temperature for the sample on the Martian surface. This temperature is used to route... [Pg.449]

Where is the initial analyte concentration in the liquid phase, C( the concentration of analyte in the gas phase, K the gas-liquid partition coefficient for the analyte at the analysis temperature, V, the volume of liquid phase, and V, the volume of gas phase (318-321,324,325). From equation (8.3) it can be seen that the concentration of the analyte in the headspace above a liquid in equilibrium with a vapor phase will depend on the volume ratio of the geis and liquid phases and the compound-specific partition coefficient which, in turn, is matrix dependent. The sensitivity 1 of the headspace sampling method can be increased in some instances adjusting the pH, salting out or raising the... [Pg.923]

The reaction mixtures of isophorone were analysed with a gas chromatograph. The GC analyses were carried out with gas chromatograph equipped with a p-cyclodextrine capillary column (analysis temperature dihydroisophorone at 110 °C) and FID. The chromatograms were recorded and peak areas were calculated with Chromatography Station for Windows CSW32 v. 1.2 (DataApex Ltd. 2001, Prague). [Pg.528]

Analysis Temperature Calibration Temperature Weight-Average Molecular Weight... [Pg.203]

DTADifferential Thermal Analysis. (Temperature of transitions and reactions)... [Pg.179]

Techniques Depth of Analysis Temperature Range In situ Capability Main Information... [Pg.8]

Noise Analysis Transient Analysis Fourier Analysis Monte Carlo Analysis Temperature Analysis... [Pg.14]

Once a bulk sample is selected, a laboratory sample must be prepared for analysis (Figure 28-2). A coarse solid sample should be ground and mixed so that the laboratory sample has the same composition as the bulk sample. Solids are typically dried at 110°C at atmospheric pressure to remove adsorbed water prior to analysis. Temperature-sensitive samples may simply be stored in an environment that brings them to a constant, reproducible moisture level. [Pg.650]

Berlin, A., and R. J. Robinson Thermogravimetric Analysis Temperature Limits and Rate of Heating. Anal. Chim. Acta 27, 50 (1962). [Pg.247]

Figure 1.13 shows a diagram of a xsorb automated system used to conduct chemisorption measurements, volumetric analysis, temperature programmed reduction, temperature programmed oxidation, etc. [Pg.34]

Benedict, Pigford, and Levi have carried out mathematical analysis of the GS process. An exhaustive treatment of the process, including calculations for flow rates, dependence of composition on number of stages, effect of solubility and humidity on process analysis, temperature profile in cold towers, simultaneous heat and mass transfer in heat transfer section, concentration reversal in heat transfer section, corrosion, materials of construction, feed purification, and safety, etc. have been reviewed by Dave, Sadhukhan and Novaro. ... [Pg.1227]

What you monitor Particles, moisture, viscosity, temperature, additives, oxidation, AN/BN, soot, glycol, FTIR, RPVOT Wear debris density, temperature, particle count, moisture, elemental analysis, viscosity, analytical ferrography Wear debris, elemental analysis, moisture, particle count, temperature, viscosity, anal5fiical ferrography, vibration analysis Elemental analysis, analytical ferrography, vibration analysis, temperature Analytical ferrography, ferrous density, elemental analysis... [Pg.1520]

These conclusions were proved by the data of complex thermographic analysis. Temperature of intensive destruction of modified polymers is higher, than in initial, by 15-... [Pg.43]

In the case of analysis at a high temperature, it is required that the components be thermally stable at the analysis temperature. [Pg.75]

New complexes with DIP . or DIPS

Single crystals exhibit high conductivity along the needle axis at room temperature 40 (flan) 1 for J and 250 (Qcm) 1 for 2. X-ray analysis, temperature dependences of conductivity, susceptibility and relaxatio time for both complexes are reported. [Pg.563]

The test sample was taken directly from the material to be analyzed (such as a deck board). A typical specimen was of 10-20 mg by weight. A specimen was placed into an aluminum dish and placed onto a sampler (carousel), from which it was automatically placed into the cell. An identical empty pan was used as the reference. Indium was used as the calibrant, as its melting point (180°C) was close to the specified analysis temperature (190°C). [Pg.574]

Peed flow rate, analysis, temperature, approximate quantity available. [Pg.98]

Samples of the three calcined monoliths, after completing the campaign of DeNOx tests and being unloaded from the reactor, were reduced into fine powders and subject to TPD analysis (temperature programmed desorption) in a microreactor. Under a flow of He, the temperature of the catalyst bed was progressively increased up to 800°C and a mass spectrometer registered the nature and concentration of desorbed species. Sulfate... [Pg.155]

High Temperature Gel Permeation Chromatography (HT-GPC) HT-GPC measures the average MW and MWD of polymers requiring higher analysis temperatures. [Pg.360]

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