Ideal means Impulsora del Desarrollo y el Empleo en América Latina, S.A.B. de C.V.
Ideal means the angle between the two tracks is greater than 179.7◦ and the total ECAL energy unassociated with the muons is less than 100 MeV.
Ideal means here in accordance with commonly applied standards of empirical research, such as quantifiabil- ity, reliability, validity, practical applicability. These are of course to some extent subjective and open to de- bate.
Examples of Ideal in a sentence
Ideal team members possess knowledge of programs, the capacity to plan and implement the needs assessment, and the ability to ensure stakeholder involvement.
No.: 9264445981 • Dhule Ground Floor, Ideal Laundry, Lane No 4, Khol Galli, Near Muthoot Finance, Opp.
While the 100% point is Ideal (indicating Reserve cash is equal to the value of deterioration), a Reserve Fund in the 70% - 130% range is considered strong (low risk of special assessment).
Ideal for distracting dangerous suspects during assaults, hostage rescue, room entry or other high-risk arrest situations.
Hoch J: Saint Martin of Tours: His Transformation into Chivalric Hero and Franciscan Ideal.
More Definitions of Ideal
Ideal means Impulsora de Desarrollo y el Empleo en América Latina, S.A.B. de C.V.
Ideal algorithm means that we assume the test is made on real values: it is not if
Ideal idéal Masculine singular idéal Feminine singular idéale Masculine plural idéaux Feminine plural idéales Note: Most of the above rules are the same for making nouns feminine and plural. There are several French adjectives which have irregular feminine and plural forms, as well as a special form when they are placed in front of a masculine noun that begins with a vowel or a mute H: "a handsome man" un bel homme "an old friend" un vieil ami Adjective Singular masc vowel/H Singular fem Plural masc Plural fem "beautiful" beau bel belle beaux belles "new" nouveau nouvel nouvelle nouveaux nouvelles "crazy" fou fol folle fous folles "soft" mou mol molle mous molles "old" vieux vieil vieille vieux vieilles In English, adjectives virtually always precede the nouns they modify: a blue car, a big house. In French, adjectives may be placed before or after the noun, depending on their type and meaning. This concept can be aggravating for French learners, but with patience and practice you'll be able to describe any object like a natural. The following explanations should cover about 95% of adjectives, but, alas, there are always some exceptions.
Ideal composition: 4 Powder producers: e.g. Höganäs AB, Hoeganaes Corp., Pometon, Rio Tinto-QMP, supplying 1 powder each 2 – 4 Parts producers, some should offer access to equipment for the sintering runs (e.g. GKN Powder Metallurgy) 2 – 4 Furnace producers (no direct tasks) Background: High temperature sintering of PM steels has been talked of since decades, but it never really took off to a significant importance in industry. The arguments pro HT-Sintering have been discussed during several international conferences and ESPG meetings. Nevertheless, there is still a slow start in the expansion of the new alloy and furnace technology, but several commercial applications exist in the market and have been published. Objectives: There are several arguments for a new approach to push HTS again: • Commercial availability of tailored alloys by several powder suppliers • New furnaces designed for improved HTS are on the market • Availability / proof of successful parts and applications (properties AND cost) • HTS is one way to overcome some REACH challenges in a very elegant way (no/low Ni content) An EPMA Club Project could be a driver for the technology to analyze in a common effort the best commercially available alloy system for HTS and compare several existing furnace concepts. Benefits for industrial partners: A Club Project is proposed to make a new effort on HTS by partnering the players along the complete supply chain. Every partner will get a solid set of information how to continue with HTS in his business. Key steps of the project: Manufacturing of test parts of several commercial alloys, Sintering in industrial furnaces at club members and Testing some mechanical and dimensional properties for a quick evaluation. Work Packages The project is subdivided into 5 Work Packages (WP) WP1 Kick-off meeting of the project members, definition of follow-up actions, definition of the place and time of compaction and sintering of the samples. It is supposed to use 4 mixes of powders for the trials: A (HAB), B (HC), C (POM), D (QMP) and as a reference 1 mix Distaloy AE (HAB) totally 5 powders per sintering run Ready mixes including lubricant of choice of powder producer will be used. Deliverables WP1: 5 powder grades (each 50 kg) to the company responsible for compaction of the samples WP2 All samples to be compacted at ONE site – e.g. Höganäs POP centre, GKN Innovation Centre, tbd. The samples, 100 test bars and 100 rings (OD 40mm, ID 30mm, H 5mm) will be...
Ideal here means assuming an availability value of 100%. The “actual” AEP is then derived
Ideal means the Intensive District approach for Education for All program being carried out by the Borrower;
Ideal. Metal Hydride Study 60 5.0 CONCLUSTION AND PATH FORWARD 63 6.0 REFERENCES 65 APPENDICES I A-1 Guideline for up- and down-selection of HSECoE materials II A-2 Sodium Alanate Hydride Mateiral Property Database IV A-3 Metal Hydride HSECoE Publications XI LIST OF FIGURES Figure 1: Overall HSECoE project schedule and timeline 9 Figure 2: Intermetallic hydrides versus hydrogen capacity in wt% 11 Figure 3: Conversion of DOE hydrogen storage system parameters and targets 13 Figure 4: Measured values of material goals for onboard regenerated metal hydride systems 14 Figure 5: Large-scale NaAlH4 prototype vessels used for automotive-based testing and evaluation 17 Figure 6: Compaction results for NaAlH4 21 Figure 7: Relative change in NaAlH4 pellets as a function of hydrogen absorption and desorption cycles 22 Figure 8: Comparison of NaAlH4 compact Expansion versus absorption and desorption cycles for unreinforced and reinforced aluminum mesh material samples 23 Figure 9: Thermal Conductivity of pelletized Ti-doped NaH + Al and Ti-doped NaAlH4 compared with density 23 Figure 10: Thermal conductivity of Ti-doped NaAlH4 with and without 5 mol% ENG … 24 Figure 11: Illustration of confinement of NaAlH4 pellets in aluminum tubing 25 Figure 12: Schematic of integrated models employed by the HSECoE 25 Figure 13: Acceptability Envelope Analysis equation 27 Figure 14: Linear relationship between vessel and media parameters an charging/discharging rate 28 Figure 15: NaAlH4 bed profiles vs charging times and thermal conductivity for rectangular coordinates with and without added graphite to the material 29 Figure 16: Results from applying Acceptability Envelope screening analyses to various candidate metal hydride materials with and without added graphite 30 Figure 17: Cross section illustration and geometry slice of a NaAlH4 vessel used for computation of 3-D model 31 Figure 18: Multi-tubular reactor configuration 32 Figure 19: An example of a honeycomb core - cell size: 0.952 cm 33 Figure 20: Schematic of NaAlH4 hydrogen storage bed showing profile and cross-sectional views 34 Figure 21: Effect of different geometric parameters on the system level targets for a shell and tube heat exchanger configuration with NaAlH4 in the shell 36 Figure 22: Helical coil heat exchanger design 36 Figure 23: GM shell and tube heat exchanger schematic with NaAlH4 in tubes 37 Figure 24: HSECoE framework system model showing main blocks, inputs, outputs and a sample of storage systems 38 Figure ...