Copenhagen 2002 process

H. J. Panneman, R. C. Pot-Gerritsen, E. M. Kuiper-Van Loo, H. Pastoor, and R. Janssen-Van Rosmalen. UV (uItraviolet)-oxidation process for water treatment at gas plant sites. In Proceedings Volume, Pt B, pages 269 271-285.20th Int Gas Union World Gas Conf (Copenhagen, Denmark, 6/I0-6/I3), 1997. 

Phuthego, L., Mpotokwane, S., Tlhong, T., Mthombeni, P., and Jackson, J. C. (2009). Processing and quality evaluation of morama yoghurt. Annual Report Marama 11 Project, Copenhagen, Denmark. 

The challenges come from Refs. [1, 7, 8, 10]. The Copenhagen view on QM requires the existence of a classical macroscopic domain in order to explain the measurement process. Heisenberg uncertainty relations appear as the mathematical expression of a complementarity concept, quantifying the mutual disturbance that takes place in a simultaneous measurement of incompatible observables, say A and 6, that is, operators that do not commute. 

R. E. Johnson and J. Schou, Sputtering of Inorganic Insulators, in Fundamental Processes in the Sputtering of Atoms and Molecules (SPUT 92). Ed. P. Sigmund (Royal Dainish of Academic Sciences, Copenhagen) [Mat. -fys. Medd 43, (1993)] pp. 403-494. 

Processing. Puff pastry margarine with optimal properties has for many years been produced on the open chill drum/vacuum complector system available in the market from Gerstenberg Agger A/S, Copenhagen, Denmark. 

MotIanen, A, Nieminen, M., Sipila, K. Kurkela, E. (1996), Ash Behaviour in Thermal Flutdised-Bed Conversion Processes of Woody and Herbaceous Biomass. Proceedings 9 European Bioenergy Conference, Copenhagen, 2,1227. 

William Christopher Zeise (1789-1847) was a Danish apothecary and professor in Copenhagen, Denmark. He synthesized the first metal-olefin complex by serendipity (this term is explained in Chapter 4), when he treated platinum(IV) chloride with ethanol and potassium chloride K[PtCl3( -C2H4)], sal kalico-platinicus inflammabilis , cf [73], TT-Complexation of olefins at transition metals nowadays comprises a key feature of homogeneous catalysis in terms of olefin activation, with the Wacker-Hoechst process being a prominent example (cf. Section 2.4.1). 

B0gild-Hansen, J. Dimethyl ether, transportation fuel and chemical intermediate, possibilities for co-production and multi-process integration. Presented at the 20th World Gas Congress. Copenhagen, 1997. 

The parameterisation has been tested on the city of Basel (Switzerland), Mexico City (Mexico), Copenhagen (Denmark), and verified versus the BUBBLE experiment (Basel Urban Boundary Layer Experiment Rotach et al., 2005 [549]). The verification results (Figure 9.11) show that the urban parameterization scheme is able to catch most of the typical processes induced by an urban surface Inside the canopy layer, the wind speed, the friction velocity and the atmospheric stability are reduced. In the other hand, even if the main effects of the urban canopy are reproduced, the comparison with the measurement seems indicates that some physical processes are still missing in the parameterization. In most of the cases, the model still overestimates the wind speed inside the canopy layer and it can have difficulties to simulate the maximum of the friction velocity which appears above the building roofs. 

A4. Albert, A., The kaolin-acetone method for processing urine for the routine clinical assay of human pituitary gonadotropin. Ada Endocrinol. (Copenhagen), Suppl. 106, 3-64 (1966). 

The conventional conceptual content of quantum mechanics was initiated by the Copenhagen School when it was recognized that one could express the linear Schrodinger wave mechanics [28] in terms of a probability calculus, whose solutions are represented with a Hilbert function space. Max Bom then interpreted the wave nature of matter in terms of a spatially distributed probability amplitude—a wave represented by a complex function—to accompany the material particle as it moves from one place to another. The Copenhagen view was then to define the basic nature of matter in terms of the measurement process, with an underlying probability calculus, wherein the probability densities (for locating the particles of matter/volume) are the real-number-valued moduli of the matter wave amplitudes. 

Andersson CA, Amdal A, Combining HPSEC, fluorescence and multiway chemometrics to resolve and identify potential colour precursors in sugar process streams, in Conference on Dairy and Food Science, Copenhagen, LMC, 1999. 

The history of neutron activation analysis goes back to the middle of the 1930s when it was first described by G. Hevesy and H. Levi at the Niels Bohr Institute in Copenhagen. The principle of the technique is that elements can be made radioactive by exposure to neutron irradiation. Two types of physiological processes are associated with this activation one prompt and one delayed. Classically, neutron activation analysis is based on the detection of the delayed event, viz. the characteristic radiation emitted during the decay -with a specific half-life (ti/a) - of the unstable nuclei formed by (n,y) reaction. 

The security of the database is an important issue. The register database program is run in two copies, one in Aalborg and another in Copenhagen, where data from the two localities are imported directly, processed, and stored. On a regular basis data are withdrawn from the Copenhagen database and imported into the complete database in Aalborg, which is connected to a server. Access to the data in the database is restricted to a few persons. 

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