2,998 research outputs found
Mini Cooper 1961-2000
From its launch on 20 September 1961 the Mini Cooper caused a sensation. The world’s first sports saloon, the diminutive Cooper combined the glamour and racing heritage of 1959 and 1960 Formula 1 champions the Cooper Car Company with the outstanding handling and downright practicability of the Austin Mini Seven and Morris Mini Minor. Alec Issigonis’s little people’s car had been launched by the manufacturer, the British Motor Corporation (BMC), two years earlier. A winner almost from the word go, the Mini Cooper not only ruled the racetracks and rally stages of the early and mid-1960s but proved to be a practical and fun sporting family saloon car. After over 100,000 examples were sold between 1961 and 1971, the Mini Cooper is still a practical sporting saloon in the guise of the BMW-owned MINI Cooper sixty years after the introduction of the original model.This remarkable product of the United Kingdom merits a fresh examination as it nears its sixtieth birthday. Based upon over fifty face-to-face interviews carried out by the author over more than a decade, this book quotes the Mini Cooper’s designers, developers, and professional race and rally drivers plus a host of contemporary owners. Here then in the words of its originators, is the story of the Mini Cooper
Parametric investigation\of mini-tab for load alleviation
This thesis investigates a novel load alleviation technique known as mini-tabs, small devices placed on the upper surface of wings to reduce lift. Reynolds-Averaged Navier-Stokes (RANS) simulations were conducted to analyze the impact of geometrical properties on mini-tab performance in reducing the load on a wing.The initial simulations focused on a single mini-tab, varying parameters such as height, aspect ratio, chordwise, and spanwise positions. Results indicate that increasing height or aspect ratio leads to decreased lift due to flow deceleration at the leading edge and expansion of the separated flow region downstream of the mini-tab. This will also increase the pressure drag. Increasing the height or aspect ratio also accelerates the flow at the lower surface, further reducing the lift generated by the wing.Placing mini-tabs closer to the wingtip exhibits similar effects on lift reduction as increasing the height of the mini-tabs. This is because the relative height of the mini-tab with the local chord length increases when the mini-tab is positioned closer to the wingtip. A maximum lift reduction is also achieved when the mini-tab is placed at a 60% chordwise position.Subsequent simulations explored the performance of multiple mini-tabs, revealing that orienting them orthogonal to the wind direction may not be optimal due to gap formation between the mini-tabs that energizes the wake downstream of the mini-tabs and reduces the reduction in lift. Conversely, aligning the mini-tabs with the leading edge has a higher efficiency in the reduction of the lift.Overall, the findings suggest that mini-tabs offer a viable method for reducing wing forces and for load alleviationAerospace Engineerin
Mini-Trials in Alberta
The Alberta Court of Queen\u27s Bench has been offering the mini-trial, a specialized dispute resolution process, to litigants and the bar for the last four years. The impetus for this move was the length and time often involved in litigation. The attraction of the mini-trial is that it is a method of expediting dispute resolution and that the costs associated with it are considerably less than those for a regular trial.
The author outlines the history of the mini-trial, explaining how it developed in the U.S. as a private dispute resolution mechanism. The Alberta mini-trial is essentially an expanded pre-trial procedure, and is offered by the Court at no cost to participants. There is no rigid, formal procedure to the Alberta mini-trial, and its great strength is in fact flexibility and informality. The only requirement the Court has is that the actual parties must be present for the arguments and at the end of the mini-trial, when the judge gives his or her opinion.
The author outlines the key elements of the mini-trial, as they have evolved to date, including the role of the judge and the nature of the actual process.
The mini-trial has been enormously successful at encouraging settlements, which have followed or resulted from the mini-trial in over 90 percent of cases. Additionally, both counsel and clients appear to be quite pleased with the process. Despite this success, however, it should be noted that the mini-trial may not be appropriate in all cases. The author describes the types of cases to which the mini-trial both is and is not well-suited. He offers a case study, of a mini-trial over which he presided. This mini-trial was successful and led to a settlement. In closing, the author provides information to interested counsel and parties as to how and when they can access the mini-trial. The article closes with a recommendation that mini-trials always be considered as an option in lawsuits
Novel Simulator for Wireline Mini-Fracture Testing
Wireline Mini-Fracture testing jobs consist of a short duration, small volume fracturing operation inside an open-hole borehole, where a certain amount of fluid is injected into the formation at constant rate using a Wireline Modular conveyed tool as a source of hydraulic power to pressurize the wellbore. The tool is configured with an inflatable straddle packer and an internal pump, which inflate/deflates the packers and supplies pressure to the formation until a hydraulic fracture is induced. This procedure is used to determine in–situ formation breakdown and closure pressure also known as minimum horizontal closure pressure. This provides vital information regarding hydraulic fracture design, water and gas injection management, fault re-activation, wellbore stability, sand production, rock mechanical properties, casing string design, cap and base rock integrity and gas storage design. Geomechanical and operational parameters such as, elastic properties, poro-elasticity, rock strength, formation pore pressure, far field horizontal stress, permeability/porosity distributions, borehole fluid properties among others, influences the performance of the Mini-Frac Jobs. In many cases poor understanding of the reservoir response to the fracture process, caused that the hydraulic fracture did not propagate deep into the formation. In other cases the pressure applied to the formation might be insufficient to break down the formation, leading to unsatisfactory application of the Mini-Fracture technique in the process. The objective of this thesis is to develop a Mini-Facture application simulator that uses the geomechanical and operational parameters that control the performance of a Mini-Fracture job and estimate the possibility of the occurrence of a tensile failure in the formation. The simulator is then validated by comparing its output with the results of stress test done in the field. With this simulator petrotechnical professionals and field engineers will have a platform that simulates the pressure responses and fracture initialization during Mini-Frac treatments, incorporating all the variables affecting a Wireline Mini-Fracture job, helping the design engineer to make key decisions about the ultimate or required fracture plan. Furthermore the simulator will reduce the uncertainties that limit the reliability of the Wireline Mini-Fracture treatment by allowing the selection of appropriate tool configuration based on the job objectives and the geological environmental conditions. Finally this project demonstrates that combining the appropriate constitutive relations that reflect the coupling among the tool operational performance with wellbore flow, reservoir and geomechanics modelling a Mini-Fracture simulator can be developed.Petroleum EngineeringGeoscience & EngineeringCivil Engineering and Geoscience
Twirre: Architecture for autonomous mini-UAVs using interchangeable commodity components
Twirre is a new architecture for mini-UAV platforms designed for autonomous flight in both GPS-enabled and GPS-deprived applications. The architecture consists of low-cost hardware and software components. High-level control software enables autonomous operation. Exchanging or upgrading hardware components is straightforward and the architecture is an excellent starting point for building low-cost autonomous mini-UAVs for a variety of applications. Experiments with an implementation of the architecture are in development, and preliminary results demonstrate accurate indoor navigation
Mini-India
Chapter 4 highlights how, as a consequence of migration and place-making processes, the discourses of locality, nation, and community came to be equated with the term ‘Mini-India’. Here, three intersecting meanings of the notion of Mini-India are discussed: The first section describes how the term ‘Mini-India’ is appropriated by the state to encompass diverse ethnic and religious identifications under the nationalist slogan ‘unity in diversity’ and to declare the pluralist Andaman society as a secular example of communal harmony. The second part considers Mini-India as a subaltern consciousness, which the author calls the ‘island mentality’. From this perspective, Mini-India refers to a localized sense of belonging that can also be termed a ‘rural cosmopolitanism’. Thirdly, it is argued that the notion of Mini-India must, at the same time, be regarded as an arena of politics in which ethnic communities compete with each other for funds and recognition by the state.</p
An investigation into the methodology of mini-bus taxi data collection as part of the current public transport record : a case study of Stellenbosch in the Western Cape
Includes summary.Includes bibliographical references (leaves 80-82).The Cape Winelands District Municipality in Stellenbosch, Cape Town, commissioned Pendulum Consulting to undertake a planning study for a public transport tourism service in their area. The project entails the preparation of a Business Plan to incorporate the existing taxi industry in Stellenbosch in providing tourism transport, as part of their current services. In order to plan this service, it was necessary to have accurate information on the current public transport services in the town, such as passenger demands, minibus taxi routes and other operational data. It was, initially, envisioned that the base data from the existing 'Current Public Transport Record' (CPTR) could be utilised to prepare the business plan for this new service, but after reviewing the most recent CPTR, it was observed that it provided insufficient information regarding the en-route passenger and operational data of the minibus taxi industry. Hence, the shortcomings of the CPTR let to the motivation in conducting the on-board taxi surveys on the majority of the minibus taxi services in the Stellenbosch area. The author was responsible for liaising with the taxi industry, planning and overseeing the on-board survey, as well as the data capturing and analysis of the raw survey data, as part of the tourism project
THE MINI-IPIP SCALE: PSYCHOMETRIC FEATURES AND RELATIONS WITH PTSD SYMPTOMS OF CHINESE EARTHQUAKE SURVIVORS
The present purpose was to validate the Mini-IPIP scale, a short measure of the five-factor model personality traits, with a sample of Chinese earthquake survivors. A total of 1,563 participants, ages 16 to 85 years, completed the Mini-IPIP scale and a measure of posttraumatic stress disorder (PTSD) symptoms. Confirmatory factor analysis supported the five-factor structure of the Mini-IPIP with adequate values of various fit indices. This scale also showed values of internal consistency, Cronbach's alphas ranged from .79 to .84, and McDonald's omega ranged from .73 to .82 for scores on each subscale. Moreover, the five personality traits measured by the Mini-IPIP and those assessed by other big five measures had comparable patterns of relations with PTSD symptoms. Findings indicated that the Mini-IPIP is an adequate short-form of the Big-Five factors of personality, which is applicable with natural disaster survivors
Aerodynamic Design and Optimization of a Long Range Mini-UAV
This thesis focuses on the development of an aerodynamic optimization algorithm for long range mini-UAV’s. This algorithm is applied to the design of the TU Delft mini- UAV that participated in the EMAV2009 outdoor endurance mission. The analysis of the low Reynolds number (< 2.5 · 105) aerodynamics on the wing is performed using a quasi-3D method which combines a vortex lattice method with viscous airfoil data. The optimization part of the program is accomplished by a sequential quadratic programming algorithm. RANS-CFD calculations and wind tunnel experiments were performed to validate the newly developed quasi-3D method. The final design for the mini-UAV has lift over drag ratio of 11.8 and a high capacity battery (8Ah) which give it a total range of 166 kmAerospace EngineeringDepartment Of System Engineering and Aircraft DesignAerospace Engineerin
Two-Phase Flow Patterns in A Square Mini-Channel
This paper presents a new set of experimental data of air-water flow patterns in a channel with a cross-section of 1x1 mm(2). The ranges of the gas and liquid superficial velocities are 0.1 similar to 10 m/s and 0.2 similar to 7 m/s, respectively. Bubble, bubble-slug, slug, and frothy flows are observed. The present data are compared with other data in mini-channels reported in literature, and also compared with those in normal channel at microgravity, in which the Bond number has the same order of magnitude. The slug-frothy boundary is in consistent with each other, but for the bubble-slug transition, a much smaller value for the transition quality in the drift-flux model is obtained in the present study than those predicted by the empirical relations for the case of microgravity. It's shown that the mini-scale modeling may not be an effective way to anticipate the bubble-slug transition of two-phase flow at microgravity
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