Figure 7. 8: One Vehicle Driving on the Shoulder Did Not Trigger the Detector
Figure 7 the installation unit, bearing this approval mark is meeting the requirements of this Regulation in respect of the class C passing beam with class V passing beam and designed for left-hand traffic only.
Figure 7. Motorola's implementation of the Wimax Architecture A brief description of the various entities is provided below. [***] Motorola Confidential Proprietary Preliminary DAP/CAPC Product Description Document is subject to change [*** Confidential Treatment Requested] [***]
Examples of Figure 7 in a sentence
Figure 7 shows a screenshot of the crucial editor component which is responsible for the expression of objectives.
Source: Author Based on Figure 7 above, it can be seen that the highest detection value of the 39 risks identified in operational activities carried out by Xxxxxxx.xx is 5.
In current (2G-4G) networks the main actors are the (mobile) network operators, subscribers (i.e. users) with some User Equipment (UE) and interconnection providers (see Figure 7).
These dashboards, as shown in Figure 7, can be used to communicate with internal staff, decision-makers, and the public.
We have validated the proposed SLA engineering ap- proach by extending the former WSAG Editor with domain constraints, document transformations and tool and market integration points, and the subsequent Figure 7: Editor component for business and technical SLOs. parametrised XSL transformations to convert WSML artefacts into SLA documents.
More Definitions of Figure 7
Figure 7. Statistical Capacity Development Sub-Activity Logic Data auditing system is functional Train auditors in SSN data Establish an audit system for SSN data Data producers apply improved skills in data analysis Data producers have improved skills in data collection and analysis Train data producers on data quality Political decision makers apply quality and up-to-date data in their analysis Adaptive management protocol developed Create or update data management system Decision makers understand data usefulness and usage Data management system is functional and open to the public Train decision makers on data usage Data is more reliable and of sound quality Adaptive management protocol functional Statistical Reform Application (or implementation) of the law on Open Data Data management system is up-to-date More policies based on data The assumptions and risks8 underpinning the logic are the following: • The Institut National Statistique will not unduly impede or impose itself on the processes within the Ministry of Agriculture and Livestock (XXXXX) stats unit. • The GoN will respond to this reform by investing resources efficiently into the system. • Retention rate of those trained will be sufficient for sustainable capacity building. • Decision makers are willing to use data to inform policies. • Data management system is accessible to users.
Figure 7. Current in the primary winding versus time.
Figure 7. Schematic geological cross section from NW to SE and well trajectory of the geothermal well St.Gallen GT-1 in St.Gallen (taken from [1]). 13 Figure 8: Schematic and stratigraphic view of the St.Gallen GT-1 well, TVD: total vertical depth, MD: measured depth taken from [2]. 15 Figure 9: Schematic view of the St.Gallen GT-1 well with completion installed since Nov. 2013 (adapted from [22]) 16 Figure 10: Aerial view of the Trecate oil treatment center 18 Figure 11: Group picture taken during ORION tests 19 Figure 12: Geological framework of the Italian oil reservoirs and the location of the Villafortuna oil field (red star). 20 Figure 13: Cross section of the Po plain with the location of the Villafortuna oil field 20 Tables Table 1: Summary of field sites. 21 1 Introduction This reports compiles the existing geological information of field sites of interest to S4CE. The report includes the depth and location of the geologic formations of interest, the distance from aquifers, the position of known pre-existing faults, etc. S4CE will collect baseline information regarding all environmental risks (e.g., microseismic activity, water quality, emissions, etc.). These data are essential for quantifying the effects of anthropogenic operations on the environmental risks, and for completing Task 5.7. It will also be required to completely understand the instrumentation available at the 4 field sites, for properly deploying the technologies invented and developed by S4CE. Finally, this task is responsible for coordinating the collection of samples (rock, biological and gaseous), which are required for implementing the technologies discussed in WP3 (CoreVault, PUSH50 and thermo-genic vs. bio-genic methane differentiation) and for characterizing the samples, as described in WP4. This document has been prepared in close collaboration with the colleagues working at the five sites namely Xxxxx Xxxxx Xxxxxxxxxxx and Xxxxxx Xxx Xxxxxxxxxxxxxxx from the CarbFix project1 and the Nesjavellir site located at the Hellisheidi power plant in Iceland, Xxxx Xxx from the United Downs Deep Geothermal Power (UDDGP) project2 in Cornwall (United Kingdom), Xxxxxx Xxxxx from the St.Galler Stadtwerke in Switzerland3 and Xxxxxxx Xxxxxxxx from the ENI oil treatment center4 in Trecate (Italy). The field sites are also shown in the map below (Error! Reference source not found.). In the following each field site is described separately from North to South.
Figure 7. The fuel slip (fraction of unconverted fuel) and hydrogen production (fraction of hydrogen in water splitting stage outlet stream) as a function of maximum reactor temperature. The effect of reactor equilibrium behaviour can clearly be observed in Figure 7. Higher temperatures achieve greater fuel conversion, but produce a lower hydrogen fraction during the water splitting stage. It should be noted, however, that the high hydrogen yields thermodynamically achievable at low temperatures may not be practically achievable because of kinetic limitations in the water splitting stage that takes place at low temperatures (typically about 350 °C lower than the maximum reactor temperature). Experimental tests in WP1 and WP2 will shed further light on this aspect. In future work with process design, the efficient utilization of slipped fuel will be an important priority. If a large amount of slipped fuel can be accommodated in the process, the reactor can be operated at lower temperatures, thus increasing the hydrogen yield. One potential use of the slipped fuel is to split the reduction stage into two. The slipped fuel from the second stage can then be fed to the first stage where it is completely converted by the hematite that is in the system at the start of reduction. It is also interesting to note that the GSWS process essentially reforms methane to syngas in the second part of the reduction stage where maganetite is converted to wüstite. As such, the GSWS process can be operated very similarly to the GSR concept if the water splitting stage is simply omitted. The produced syngas in the second part of the reduction stage can then be fed to a PSA unit, with the PSA off-gas fuel being fed back to the first part of the reduction stage where hematite facilitates complete fuel conversion. This can be an interesting alternative in the event that GSWS oxygen carriers turn out to be significantly cheaper than GSR oxygen carriers (which require catalytic properties).
Figure 7. Software simulator Table 1 presents the parameters of the simulator for the 3 modes considered in the following. Table 1: Parameters of the simulator Mode 1 Mode 3 Mode 5 Nb OFDM symbols per frame 14 Nb data OFDM symbols per frame 10 FFT size 1024 Nb useful carriers 600 Nb bits per modulation symbol 2 4 6 Nb users 50 25 5 Nb Resource Blocks per user 1 2 10 Equalization ZF Channel coding Duo-binary turbo codes Coding rate 1/2 2/3 3/4 Channel estimation Frequency filtering + time interpolation
Figure 7. Regional geology map with the Totoral Pegmatite Field within the Pampean Pegmatite Province (after Galliski, M.A. and Xxxxx, P., 2006) There are five main types of pegmatites: barren to transitional xxxxx type, xxxxx-columbite-phosphate type, complex spodumene type, albite-spodumene type, and albite type. The pegmatites located at the Geminis mine are of the complex spodumene type. A broad range of economic minerals are present. Most significantly there is intense spodumene mineralisation with parts of the mine comprising up to 80% of the material. During mining individual spodumene crystals have been measured to have a length of up to 4m. Other minerals which are significant and may contribute to the overall value are the lithium minerals amblygonite and lithiophilite which are found within the pegmatites non-nucleus zones as are other minerals tantalite, columbite and xxxxx. These non-lithium minerals being present are significant as they can contribute as credits within any future concentrate. LRS staff have recently entered and inspected the central and southern adits. Each adit and the mine workings contained within have exposed walls that contain extremely high percentages of oxidised spodumene (See Figures 8 to 11). These exposures are by some distance the best spodumene mineralisation seen by Latin technical staff in Argentina thus far.
Figure 7. Experimental study: (a)-(c) The ECT reconstructions of the 1D permittivity profiles for the three mortar specimens at different times of moisture ingress. Horizontal dotted black line indicates the threshold value for WFL. (d) The water front locations as a function of time t determined from the ECT reconstructions.