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1 – 10 of over 44000This paper aims to give an overview of the history and evolution of commercial search engines. It traces the development of search engines from their early days to their current…
Abstract
Purpose
This paper aims to give an overview of the history and evolution of commercial search engines. It traces the development of search engines from their early days to their current form as complex technology-powered systems that offer a wide range of features and services.
Design/methodology/approach
In recent years, advancements in artificial intelligence (AI) technology have led to the development of AI-powered chat services. This study explores official announcements and releases of three major search engines, Google, Bing and Baidu, of AI-powered chat services.
Findings
Three major players in the search engine market, Google, Microsoft and Baidu started to integrate AI chat into their search results. Google has released Bard, later upgraded to Gemini, a LaMDA-powered conversational AI service. Microsoft has launched Bing Chat, renamed later to Copilot, a GPT-powered by OpenAI search engine. The largest search engine in China, Baidu, released a similar service called Ernie. There are also new AI-based search engines, which are briefly described.
Originality/value
This paper discusses the strengths and weaknesses of the traditional – algorithmic powered search engines and modern search with generative AI support, and the possibilities of merging them into one service. This study stresses the types of inquiries provided to search engines, users’ habits of using search engines and the technological advantage of search engine infrastructure.
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Raj Kumar Bhardwaj, Ritesh Kumar and Mohammad Nazim
This paper evaluates the precision of four metasearch engines (MSEs) – DuckDuckGo, Dogpile, Metacrawler and Startpage, to determine which metasearch engine exhibits the highest…
Abstract
Purpose
This paper evaluates the precision of four metasearch engines (MSEs) – DuckDuckGo, Dogpile, Metacrawler and Startpage, to determine which metasearch engine exhibits the highest level of precision and to identify the metasearch engine that is most likely to return the most relevant search results.
Design/methodology/approach
The research is divided into two parts: the first phase involves four queries categorized into two segments (4-Q-2-S), while the second phase includes six queries divided into three segments (6-Q-3-S). These queries vary in complexity, falling into three types: simple, phrase and complex. The precision, average precision and the presence of duplicates across all the evaluated metasearch engines are determined.
Findings
The study clearly demonstrated that Startpage returned the most relevant results and achieved the highest precision (0.98) among the four MSEs. Conversely, DuckDuckGo exhibited consistent performance across both phases of the study.
Research limitations/implications
The study only evaluated four metasearch engines, which may not be representative of all available metasearch engines. Additionally, a limited number of queries were used, which may not be sufficient to generalize the findings to all types of queries.
Practical implications
The findings of this study can be valuable for accreditation agencies in managing duplicates, improving their search capabilities and obtaining more relevant and precise results. These findings can also assist users in selecting the best metasearch engine based on precision rather than interface.
Originality/value
The study is the first of its kind which evaluates the four metasearch engines. No similar study has been conducted in the past to measure the performance of metasearch engines.
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B. Sharma and O.P. Gandhi
The lubricating oil is a non‐renewable source of energy and its useful life is limited due to deterioration during its usage. It is desirable to maximize its use to conserve this…
Abstract
Purpose
The lubricating oil is a non‐renewable source of energy and its useful life is limited due to deterioration during its usage. It is desirable to maximize its use to conserve this scarce resource. At present, continuation or change of the engine oil is decided, based on the manufacturer's recommendation and experience. The suggested engine oil change period is conservative and results in non‐efficient usage of engine oil. This practice needs refinement to include all possible properties/attributes of engine oil and use of appropriate procedure to assess its realistic performance. The paper aims to analyze the procedure.
Design/methodology/approach
Oil reliability polygraph is used to analyze the engine oil performance during operation. Reliability analysis of the engine oil is carried out by comparing the area of oil reliability polygraph at a given operation time with the area for the fresh engine oil. The suggested procedure is illustrated by means of an example.
Findings
Physical and chemical properties responsible for performance degradation of the engine oil are considered as engine oil reliability attributes. The value of these attributes from time to time, obtained by analyzing samples drawn from the system, is analyzed through oil reliability polygraph. In this approach, the engine oil reliability attributes at a given operation time are represented in terms of reliability value to obtain the “oil reliability polygraph”.
Originality/value
The suggested procedure will be helpful for maintenance personnel in taking planned maintenance action.
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SUMMARY THE optimum powerplant for a Mach 2.2 transport aircraft is a turbojet. The Olympus 593, latest of a well‐proven family of twin spool, axial flow turbojets has been…
Abstract
SUMMARY THE optimum powerplant for a Mach 2.2 transport aircraft is a turbojet. The Olympus 593, latest of a well‐proven family of twin spool, axial flow turbojets has been designed especially for installation in the Concorde. Invaluable development has been achieved from two 90% scale engines and the first seven full size engines. Satisfactory fuel and oils are now available for Concorde and the powerplant has already flown in a Vulcan flying test bed.
Spotlights that strategic alliances are widely used within the aerospace industry and the success of Europe’s Airbus Industrie consortium has been much publicized. Less…
Abstract
Spotlights that strategic alliances are widely used within the aerospace industry and the success of Europe’s Airbus Industrie consortium has been much publicized. Less well‐documented has been the success of some of Europe’s leading engineering companies, such as Rolls‐Royce, Daimler‐Benz and BMW, in supplying aero engines to the world’s airlines. Again collaborative ventures have played an important part in helping these firms to build market share within this highly competitive global market. Reviews the changes that have taken place within both the airframe and the engine sectors of the aerospace industry in recent years. Critically evaluates the part that strategic alliances have played in the increasing commercial success of the European Union in both sectors. Highlights differences in the nature and role of such alliances as well as their impact on the structure of each sector.
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Promavia's Jet Squalus F‐1300NGT flew for the first time near Milan, Italy, with a TFE109 engine from the Garrett Turbine Engine Company, Phoenix, Arizona. Reports from the first…
Abstract
Promavia's Jet Squalus F‐1300NGT flew for the first time near Milan, Italy, with a TFE109 engine from the Garrett Turbine Engine Company, Phoenix, Arizona. Reports from the first flight noted the exceptionally low sound level and excellent performance of the aircraft. The TFE109 is a derivative of the US Air Force's F109 engine currently in flight test.
The steam engine was the first practical means of producing mechanical power from the heat of combustion of a fuel, and its introduction was a vital factor in the progress of the…
Abstract
The steam engine was the first practical means of producing mechanical power from the heat of combustion of a fuel, and its introduction was a vital factor in the progress of the Industrial Revolution. For many years the development of the steam reciprocating engine continued apace, but in the early years of the present century introduction of the steam turbine and internal combustion engine made available alternative methods of power production. From then on interest in the steam reciprocating engine tended to slacken and, although it has shown a number of notable improvements, far more spectacular advances have been made in other power units.
The high‐speed engine cannot compete with these fuel consumptions on a b.h.p. basis, but on a basis of indicated power there is little to choose, under optimum conditions, as is…
Abstract
The high‐speed engine cannot compete with these fuel consumptions on a b.h.p. basis, but on a basis of indicated power there is little to choose, under optimum conditions, as is seen by comparison of the data in Figs. 7 and 8.
Nanoparticles have been studied as additives to lubrication oils for reducing friction and wear. The purpose of this paper is to investigate the effect of nanofluid on engine oil…
Abstract
Purpose
Nanoparticles have been studied as additives to lubrication oils for reducing friction and wear. The purpose of this paper is to investigate the effect of nanofluid on engine oil and friction reduction in a real engine.
Design/methodology/approach
The nanoparticles were prepared using a high‐temperature arc in a vacuum chamber to vaporize the Ti metal, and then condensed into a dispersant to form the TiO2 nanofluid, which was used as lubricant additive. Experiments were performed in both real engine running and test rig.
Findings
It was found that the engine oil with nanofluid additive with an ethylene glycol dispersant of nanoparticles, had gelled after 10‐h of engine running. The problem of oil gelation (jelly‐like) was solved by replacing the dispersant with paraffin oil. The engine oil with TiO2 nanoparticle additive exhibited lower friction force as compared to the original oil. The experiment showed that a smaller particle size exhibits better friction reduction with particle size ranging from 59 to 220 nm.
Research limitations/implications
The paper is restricted to findings based on the dispersed nanoparticles in fluid as additive for engine lubrication oil.
Practical implications
The test results are useful for the application of nanofluid additive for engine oil.
Originality/value
Most previous researches in this field were executed on tribotester, rather than the actual engine. This paper describes experimental methods and equipment designed to investigate the application of TiO2 nanofluid as lubricant additive in internal combustion engine.
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Wieńczysław Stalewski and Jerzy Żółtak
The purpose of this paper is to present the results of the preliminary design and optimization of the air-intake system and the engine nacelle. The work was conducted as part of…
Abstract
Purpose
The purpose of this paper is to present the results of the preliminary design and optimization of the air-intake system and the engine nacelle. The work was conducted as part of an integration process of a turboprop engine in a small aircraft in a tractor configuration.
Design/methodology/approach
The preliminary design process was performed using a parametric, interactive design approach. The parametric model of the aircraft was developed using the PARADES™ in-house software. The model assumed a high level of freedom concerning shaping all the components of aircraft important from the point of view of the engine integration. Additionally, the software was used to control the fulfillment of design constraints and to analyze selected geometrical properties. Based on the developed parametric model, the preliminary design was conducted using the interactive design and optimization methodology. Several concepts of the engine integration were investigated in the process. All components of the aircraft propulsion system were designed simultaneously to ensure their compliance with each other.
Findings
The concepts of the engine integration were modified according to changes in the design and technological constraints in the preliminary design process. For the most promising configurations, computational fluid dynamics (CFD) computations were conducted using commercial Reynolds-averaged Navier–Stokes solver FLUENT™ (ANSYS). The simulations tested the flow around the nacelle and inside the air-delivery system which consists of the air-intake duct, the foreign-particles separator and the auxiliary ducts delivering air to the cooling and air-conditioning systems. The effect of the working propeller was modeled using the Virtual Blade Model implemented in the FLUENT code. The flow inside the air-intake system was analyzed from the point of view of minimization of pressure losses in the air-intake duct, the quality of air stream delivered to the engine compressor and the effectiveness of the foreign particles separator.
Practical implications
Based on results of the CFD analyses, the final concept of the turboprop engine integration has been chosen.
Originality/value
The presented results of preliminary design process are valuable to achieve the final goal in the ongoing project.
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