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Topic Review
Wearing Course Materials Modified with Waste Plastic
Roads and bridges are one of the most crucial components of infrastructure engineering and they play a vital role in lifetimes. Bituminous mixture is a composite material made up of other distinct materials, employed in a range of civil engineering tasks, such as the construction of roads. It consists of mineral aggregate, bitumen, and air voids, which are the main components of bituminous mixture, blended and then laid and compacted to form the surface of roads. Asphalt pavement or flexible pavement is widely employed throughout the globe. Asphalt pavement has good riding quality, and it is much cheaper to construct, in comparison to concrete or rigid pavements. HMA mixtures for asphalt pavement are divided into three main categories: dense-graded mixture, open-graded mixture, and gap-graded mixture.
  • 817
  • 30 Aug 2022
Topic Review
Compaq Portable
The Compaq Portable is an early portable computer which was one of the first IBM PC compatible systems. It was Compaq Computer Corporation's first product, to be followed by others in the Compaq Portable series and later Compaq Deskpro series. It was not simply an 8088-CPU computer that ran a Microsoft DOS as a PC "work-alike", but contained a reverse-engineered BIOS, and a version of MS-DOS that was so similar to IBM's PC DOS that it ran nearly all its application software. The computer was also an early variation on the idea of an "all-in-one". It became available two years after the similar, but CP/M-based, Osborne 1 and Kaypro II. Columbia Data Products' MPC 1600 "Multi Personal Computer" had come out in June 1982. Other "work-alikes" included the MS-DOS and 8088-based, but not entirely IBM PC software compatible, Dynalogic Hyperion, and Eagle Computer's Eagle 1600 series, including the Eagle Spirit portable, and the Corona personal computer The latter two companies were threatened by IBM for BIOS copyright infringement, and settled out of court, agreeing to re-implement their BIOS There was also the Seequa Chameleon, which had both 8088 and Z80 CPUs to run with MS-DOS or CP/M OSes. Unlike Compaq, many of these companies had previously released computers based on Zilog's Z80 and Digital Research's CP/M operating system. Like Compaq, they recognized the replicability of the IBM PC's off-the-shelf parts, and saw that Microsoft retained the right to license MS-DOS. Only Compaq was able to fully capitalize, by aiming for complete IBM PC and PC DOS compatibility, while reverse-engineering the BIOS to head off copyright claims. Other contemporary systems include the portable Commodore SX-64, also known as the Executive 64, or VIP-64 in Europe, is a briefcase/suitcase-size "luggable" version of the popular Commodore 64 home computer built with an 8-bit MOS 6510 (6502-based) CPU microprocessor, and the first full-color portable computer. Like the Z80 and "work-alike" portables, its sales fell into insignificance in the face of the Compaq Portable series.
  • 817
  • 31 Oct 2022
Topic Review
RDF Fire Hazards Mitigation
Experience has shown that power station conversions to a new fuel using the same materials handling methods and equipment, designed for the previous or original intended fuel, without a proper fire engineering re-evaluation of plant suitability (for the properties and behaviors of the new fuel) is not a safe option. Many times, the detection and suppression equipment is presumed adequate, whereas a complete technical evaluation is required. Given that RDF fires are extremely difficult to extinguish it should be remembered that fires could last for days or even weeks. Additionally, given the correct circumstances, the effluent from RDF smoldering fires within a pile can lead to explosion(s), possibly causing severe injuries and even the loss of life. In addition, there are also business considerations due to the subsequent severe interruptions, not forgetting the importance of the security of electricity supply. The difficulties of RDF fire hazards mitigation begin with the notoriously problematic factor of discovery of a fire within the storage pile; they then, more often than not, continue throughout the entire fire-fighting operations process.
  • 817
  • 23 Nov 2021
Topic Review
Method for FAPR Compliance Testing
A power hardware-in-the-loop (PHIL) based method for fast active power regulation (FAPR) compliance testing of the wind turbine converter controls. The presented PHIL setup is a generic test setup for the testing of all kinds of control strategies of the grid-connected power electronic converters.
  • 817
  • 27 Oct 2020
Topic Review
Mould Growth Analysis
The external wall’s moisture accumulation and mould growth were simulated for a period of ten years using the transient hygrothermal simulation tool, WUFI® Pro, and the mould growth model, WUFI® VTT.
  • 817
  • 28 Nov 2022
Topic Review
Oscilloscope History
The history of the oscilloscope reaches back to the first recordings of waveforms with a galvanometer coupled to a mechanical drawing system in the second decade of the 19th century. The modern day digital oscilloscope is a consequence of multiple generations of development of the oscillograph, cathode-ray tubes, analog oscilloscopes, and digital electronics.
  • 816
  • 21 Nov 2022
Topic Review
Characterization of the Mechanical Properties of 3D-Printed Food
Additive manufacturing (AM), commonly known as 3D printing, is a fabrication technology that has raised interest in many areas. It is a manufacturing process that builds up complex solid (or semi-solid) forms by means of a layer-by-layer process. 
  • 816
  • 13 Jun 2022
Topic Review
Wet Nanotechnology
Wet nanotechnology (also known as wet nanotech) involves working up to large masses from small ones. Wet nanotechnology requires water in which the process occurs. The process also involves chemists and biologists trying to reach larger scales by putting together individual molecules. While Eric Drexler put forth the idea of nano-assemblers working dry, wet nanotech appears to be the likely first area in which something like a nano-assembler may achieve economic results. Pharmaceuticals and bioscience are central features of most nanotech start-ups. Richard A.L. Jones calls nanotechnology that steals bits of natural nanotechnology and puts them in a synthetic structure biokleptic nanotechnology. He calls building with synthetic materials according to nature's design principles biomimetic nanotechnology. Using these guiding principles could lead to trillions of nanotech robots, that resemble bacteria in structural properties, entering a person's blood stream to do medical treatments.
  • 816
  • 29 Sep 2022
Topic Review
On Rarefied Plumes
Recent progress on rarefied jet,  jet impingement, and total impingement loads are summarized here.  Those investigations are performed by adopting the gaskinetic theory at the free molecular flow limit.  The results include exact analytical solutions to the properties of  flow field, surface load distributions, and overall surface loads.  The flowfield solutions  include density, velocity, temperature and pressure. The surface properties are based on the flowfield properties and they include  shear stress, pressure and heat flux.   The total surface loads include pressure, shear stress, torque, and various center-to-center distances.  Different from many past work, many physical and geometric factors are includes explicitly,  e.g., nozzle  exit properties (velocity speed ratio,  temperature, number density), surface reflection types,  and locations. Evaluations on these  analytical solutions are very fast via a computer,  neither numerical simulations nor experimental measurements are needed.  At far field, the nozzle exit degenerate as a point, and the  exact solutions are even simpler.  The expressions for the total loads at the free molecular flow limit  can be used as anchoring values to estimate the total loads within the whole Knudson number range, i.e., continuum, velocity-slip and temperature-jump, transitional, and free molecular flows.  
  • 816
  • 29 Oct 2020
Topic Review
Perovskite Solar Cells
Charge transporting materials (CTMs) in perovskite solar cells (PSCs) have played an important role in improving the stability by replacing the liquid electrolyte with solid state electron or hole conductors and enhancing the photovoltaic efficiency by the efficient electron collection. Many organic and inorganic materials for charge transporting in PSCs have been studied and applied to increase the charge extraction, transport and collection, such as Spiro-OMeTAD for hole transporting material (HTM), TiO2 for electron transporting material (ETM) and MoOX for HTM etc. However, recently inorganic CTMs are used to replace the disadvantages of organic materials in PSCs such as, the long-term operational instability, low charge mobility. Especially, atomic layer deposition (ALD) has many advantages in obtaining the conformal, dense and virtually pinhole-free layers. 
  • 815
  • 10 Mar 2021
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