Multi-lateral wells

The wells provide the conduit for production from the reservoir to the surface, and are therefore the key link between the reservoir and surface facilities. The type and number of wells required for development will dictate the drilling facilities needed, and the operating pressures of the wells will influence the design of the production facilities. The application of horizontal or multi-lateral wells may where appropriate greatly reduce the number of wells required, which in time will have an impact on the cost of development. 

Horizontal or multi-lateral wells can also be used to cost efficiently access remaining oil in mature fields. 

New technology is applied to existing fields to enhance production. For example, horizontal development wells have been drilled in many mature fields to recover remaining oil, especially where the remaining oil is present in thin oil columns after the gas cap and/or aquifer have swept most of the oil. Lately, the advent of multi-lateral wells drilled with coiled tubing have provided a low cost option to produce remaining oil as well as low productivity reservoirs. 

Stimulation of horizontal and multi-lateral wells presents a very challenging problem. With a very long target zone(s), acid diversion plays a very important role in determining the efficiency of the acidizing job. Without a proper means for acid diversion, most of the injected acid... 

Our research fills a gap between these various streams by quantifying the opportunity for strategic, multi-lateral collaboration through a shared distribution network. Specifically, we examine the opportunity for manufacturers to consolidate their distribution networks to serve a set of common retailer customers as a first step towards consortia collaboration. Our analysis not only quantifies the savings potential, but also highlights the impact of key cost drivers. Though our initial analysis focuses on structural collaboration between two grocery products manufacturers, the concept could be extended to more participants as well as other industries. 

Electrodialysis can be applied to the continuous-flow type of operation needed in industry. Multi-membrane stacks can be built by alternately spacing anionic- and cationic-selective membranes. Among the technical problems associated with the electrodialysis process, concentration polarization is perhaps the most serious (discussed later). Other problems in practical applications include membrane scaling by inorganics in feed solutions as well as membrane fouling by organics. 

Studies on the electronic structure of carbon nanotube (CNT) is of much importance toward its efficient utilisation in electronic devices. It is well known that the early prediction of its peculiar electronic structure [1-3] right after the lijima s observation of multi-walled CNT (MWCNT) [4] seems to have actually triggered the subsequent and explosive series of experimental researches of CNT. In that prediction, alternative appearance of metallic and semiconductive nature in CNT depending on the combination of diameter and pitch or, more specifically, chiral vector of CNT expressed by two kinds of non-negative integers (a, b) as described later (see Fig. 1). 

As part of a multi-technique investigation (see also discussion under mid-infrared spectroscopy later), Corrales et al. [13] plotted the carbonyl index for films prepared from three grades of polyethylenes a high-density PE (HDPE), a linear low-density PE (LLDPE) and a metallocene PE (mPE) (see Figure 5). In this study, the data trend shown in Figure 5 correlated well with activation energies derived from the thermal analysis, which showed that the thermal-oxidative stability followed the order LLDPE > mPE > HDPE, whereas the trend... 

In applying this equation to multi-solute systems, the ionic concentrations are of sufficient magnitude that molecule-ion and ion-ion interactions must be considered. Edwards et al. (6) used a method proposed by Bromley (J7) for the estimation of the B parameters. The model was found to be useful for the calculation of multi-solute equilibria in the NH3+H5S+H2O and NH3+CO2+H2O systems. However, because of the assumptions regarding the activity of the water and the use of only two-body interaction parameters, the model is suitable only up to molecular concentrations of about 2 molal. As well the temperature was restricted to the range 0° to 100 oc because of the equations used for the Henry1s constants and the dissociation constants. In a later study, Edwards et al. (8) extended the correlation to higher concentrations (up to 10 - 20 molal) and higher temperatures (0° to 170 °C). In this work the activity coefficients of the electrolytes were calculated from an expression due to Pitzer (9) ... 

E.g. tryptophane residues of proteins excite at 290-295 mn but they emit photons somewhere between 310 and 350 mn. The missing energy is deposited in the tryptophane molecular enviromuent in the form of vibrational states. While the excitation process is complete in pico-seconds, the relaxation back to the initial state may take nano-seconds. While this period may appear very short, it is actually an extremely relevant time scale for proteins. Due to the inherent thermal energy, proteins move in their (aqueous) solution, they display both translational and rotational diffusion, and for both of these the characteristic time scale is nano-seconds for normal proteins. Thus we may excite the protein at time 0 and recollect some photons some nano seconds later. With the invention of lasers, as well as of very fast detectors, it is completely feasible to follow the protein relax back to its ground state with sub-nano second resolution. The relaxation process may be a simple exponential decay, although tryptophane of reasons we will not dwell on here display a multi-exponential decay. 

The release of unaltered bases from DNA is a well-established process in free-radical-induced DNA damage in vitro as well as in vivo (Hems 1960 Ward and Kuo 1976 Richmond and Simic 1978 Richmond and Zimbrick 1975, 1981). In fact, base release was one of the first effects of ionizing radiation on DNA to be reported (Scholes and Weiss 1952). Typically, it is a biphasic (multi-phasic) reaction with some immediate base release and a marked contribution at later times, especially when the sample is heated. 

The assembly of animals contains an element of lateral symmetry as well as longitudinal orientation which may be represented by a string of letters that designate complexity factors and subscripts that are symmetry factors whereby 2 means bilateral—and 3,4,5 —n multi-dimensional symmetry. Thus, a bacterium is A , a starfish A(5 9), and a bony fish might be Aj B2C2D2 + SCF, (Segment Control Factor). 

For an evaluation of the local model isotherm 6(p,T,Q) with constant interaction energy Q, the effects of multi-layer adsorption and lateral interactions between neighboring adsorbed molecules are considered by applying two modifications to the Langmuir isotherm (i) a multi-layer correction according to the well known BET-concept and (ii) a correction due to lateral interactions with neighboring gas molecules introduced by Fowler and Guggenheim (FG) [105] ... 

The Frumkin epoch in electrochemistry [i-iii] commemorates the interplay of electrochemical kinetics and equilibrium interfacial phenomena. The most famous findings are the - Frumkin adsorption isotherm (1925) Frumkin s slow discharge theory (1933, see also - Frumkin correction), the rotating ring disk electrode (1959), and various aspects of surface thermodynamics related to the notion of the point of zero charge. His contributions to the theory of polarographic maxima, kinetics of multi-step electrode reactions, and corrosion science are also well-known. An important feature of the Frumkin school was the development of numerous original experimental techniques for certain problems. The Frumkin school also pioneered the experimental style of ultra-pure conditions in electrochemical experiments [i]. A list of publications of Frumkin until 1965 is available in [iv], and later publications are listed in [ii]. 

---