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Mount

2 Non-directionally constrained systems The second type of mounting system to be discussed is the non-directional type. These systems are freely mounted on isolator springs, and thus have a freedom of movement in both longitudinal and lateral directions. These systems are more easily tuned than other systems due to this advantage, but in all other ways are similar to the directionally constrained type. [Pg.235]

The vibratory conveyor can also offer possibilities for a simultaneous processing operation. Typically, wide flat conveyors are used with a mesh or meshes to simultaneously screen/sort materials and convey to different locations. The large surface area in contact with the bulk solids also make effective thermal transfer for heating or cooling. [Pg.236]

A rather clever variation in a technology developed for near horizontal transport by forming the trough into a spiral allows the material to be raised vertically within a reasonably small footprint. The vibratory motion is generally applied via the core support structure and a total elevation of around 10 m is possible. [Pg.236]


Liquid injection incinerators. This t3q)e of incinerator has a cylindrical refractory-lined combustion chamber mounted verti-... [Pg.299]

X-ray spectrometer An apparatus used in the X-ray study of crystals in which a fine beam of monochromatic X-rays impinges at a measured angle on the face of a crystal mounted in its path, and in which the intensity of the X-rays diffracted in various directions by the crystal is measured with an ionization chamber mounted on an arm of the spectrometer table, or is recorded photographically. [Pg.429]

For onshore operations various types of landrigs are available, ranging from truck mounted light rigs to heavy landrigs weighing several hundred tons. [Pg.32]

Swamp Barges operate in very shallow water (less than 20 ft). They can be towed onto location and are then ballasted so that they sit on bottom . The drilling unit is mounted onto the barge. This type of unit is popular in the swamp areas of Nigeria. [Pg.32]

Figure 5.37 depicts the basic set up of a wireline logging operation. A sonde is lowered downhole after the drill string has been removed. The sonde is connected via an insulated and reinforced electrical cable to a winch unit at the surface. At a speed of about 600m per hour the cable Is spooled upward and the sonde continuously records formation properties like natural gamma ray radiation, formation resistivity or formation density. The measured data is sent through the cable and is recorded and processed in a sophisticated logging unita the surface. Offshore, this unit will be located in a cabin, while on land it is truck mounted. In either situation data can be transmitted in real time via satellite to company headquarters if required. [Pg.131]

For direct measurement from core samples, the samples are mounted in a holder and gas is flowed through the core. The pressure drop across the core and the flowrate are measured. Providing the gas viscosity (ji) and sample dimensions are known the permeability can be calculated using the Darcy equation shown below. [Pg.151]

The progressive cavity pump consists of a rotating cork-screw like sub-surface assembly which is driven by a surface mounted motor. Beam pump rods are used to connect the two. The flowrate achieved is mainly a function of the rotational speed of the subsurface assembly. There Is in principle very little that can go wrong with progressive cavity pumps. Progressive cavity pumps excel in low productivity shallow wells with viscous crude oils and can also handle significant quantities of produced solids. [Pg.231]

The manifold is typically a tubular steel structure (similar to a template) which is host to a series of remotely operated valves and chokes. It is common for subsea tree control systems to be mounted on the manifold and not on the individual trees. A complex manifold will generally have its own set of dedicated subsea control modules (for controlling manifold valves and monitoring flowline sensors). [Pg.270]

Modern subsea trees, manifolds, (EH), etc., are commonly controlled via a complex Electro-Hydraulic System. Electricity is used to power the control system and to allow for communication or command signalling between surface and subsea. Signals sent back to surface will include, for example, subsea valve status and pressure/ temperature sensor outputs. Hydraulics are used to operate valves on the subsea facilities (e.g. subsea tree and manifold valves). The majority of the subsea valves are operated by hydraulically powered actuator units mounted on the valve bodies. [Pg.270]

Thus they have been replaced with elements with a martensite structure mixture fully transformed by the zero processing and mounted in openings with insens of austenite steel (Fig.3). Thus prepared elements for caUbration. will be stable with time and will not cause any indication changes during exploitation. [Pg.22]

The first 3 items of the above list (waveguides, transducers and preamplifiers) are located at or near to the component(s) to be monitored. The other items must be installed in the control room area, mounted into a single instrumentation rack (fig. 4). [Pg.69]

Cracks detection in welds, mounting hardwares, rivets, on blades and vanes, turbine disks, rotors blades, etc. [Pg.345]

Inspection of load - carrying structures and mounting hardwares, the defects detection under side platings and dielectric shells in their attaching points to the load - carrying structures. [Pg.345]

The air is streaming through the supply pipes directly into the blade which is mounted on a turntable. The blade is measured in different positions, so that all important surface areas can be examined. The time for a complete blade examination is approximatly 5 minutes. The blades or vanes are mounted manuell, otherwise the process is running fully automatically. [Pg.402]

For the examination of the applied metallic or ceramic layer, the test object is heated up from the outside The heat applying takes place impulse-like (4ms) by xenon-flash lamps, which are mounted on a rack The surface temperature arises to approx 150 °C Due to the high temperature gradient the warmth diffuses quickly into the material An incorrect layer, e g. due to a delamiation (layer removal) obstructs the heat transfer, so that a higher temperature can be detected with an infrared camera. A complete test of a blade lasts approximatly 5 minutes. This is also done automatically by the system. In illustration 9, a typical delamination is to be recognized. [Pg.405]

Inherent unsharpness U of the imaging system An edge of highly absorbent material that is mounted in the middle of the image converter, is used to define the course and width of the "blurred" edge. The unsharpness is defined between 10% and 90% of the amplitude of the output signal. [Pg.437]

Contrast Ratio Cq The contrast ratio is established on the basis of the ratio of the amplitude of the unattenuated radiation to the amplitude after attenuation through a test piece. This test piece is a lead disk which is mounted in the middle of the image converter it masks approximately 10% of the surface of the image converter. [Pg.438]

For testing under field conditions a new mobile version of introscope has been developed, mounted on a lorry with high cross-country capability and self-contained power supply. [Pg.452]

The detector setup consists of four 256 x 256 pixel amorphous silicon technology sensor flat panels with 0.75 x 0.75 mm pixel size, having an active area of 192 x 192 mm [5j. These sensors are radiation sensitive up to 25 MeV and therefor well suited for detecting the LINAC radiation. The four devices are mounted onto a steel Irame each having the distance of one active area size from the other. With two vertical and two horizontal movements of the frame it is possible to scan a total area of about 0.8 x 0.8 m with 1024 x 1024 pixel during four independent measurements. [Pg.493]

The specific advanced properties of the ceramic insulator eliminate the need for oil or resin insulation. The metal vacuum envelope of the tube provides higher beam stability, more robust design, and even X-ray shielding up to certain levels. Furthermore, even difScult mechanical problems (e.g. mounting, coohng, or beam emission) can be solved by an appropriate customised tube design. [Pg.532]

The changes described above also allowed much easier access to the high voltage cable for routine (6-month) owner directed, service operations, and provided better upper and lower x-ray cabinet and control cabinet ventilation. With the exception of the x-ray tubes, all the individual manufactured components, on all four systems are identical. There are very subtle differences in the warm-up/start-up sequence on the x-ray controllers on the newer systems due to model/year and x-ray tube differences. The last three systems were supplied with environmental type key-boards for the image processors and base-mounted , rather than conduit-mounted exterior warning indicators. The first system was subsequently upgraded to include the better keyboard and the external warning appliances/features. [Pg.611]

Fig. 2 shows the CFRP-sandwich specimen and the transducer mounted on the scanner. Fig. 23 presents a C-scan of the specimen as first interesting result. Only the defects visible from the outside are indicated. The distance between transducer and specimen was smaller than the focal length, so that the angle of incidence at the edge of the sound beam converts the longitudinal waves to Rayleigh-waves in the specimen. These waves provide a very sharp image of the surface. This method opens the possibility for a non-contact acoustic microscope. [Pg.842]

Another feature is a repositioning program (Repos.exe) which is used for the purpose of correcting positioning data collected when scanning on a pipe elbow or when scanning is performed with the microphone collar mounted on the elbow itself... [Pg.864]

Figure 2 AIR-1 robot mounted on incbned inspection nozzle... Figure 2 AIR-1 robot mounted on incbned inspection nozzle...
The method is based on the international standard ISO 4053/IV. A small amount of the radioactive tracer is injected instantaneously into the flare gas flow through e.g. a valve, representing the only physical interference with the process. Radiation detectors are mounted outside the pipe and the variation of tracer concentration with time is recorded as the tracer moves with the gas stream and passes by the detectors. A control, supply and data registration unit including PC is used for on site data treatment... [Pg.1054]

For this kind of case, a modification of the dilution method is being developed. Instead of using an external fixed-geometry measurement chamber, a suitable part of the process, e.g. a stretch of pipe, is used. A radiation detector is mounted on the outside of the pipe, and a tracer emitting sufficiently hard gamma radiation is used. As sufficient mixing can be achieved by injecting upstream the separator the radiation level found will be strictly proportional to the concentration and thus inversely proportional to the true flow rate. [Pg.1056]

The size of the leakage was determined as follows. Radiation detectors were mounted on the inlet of the first side, and the outlet of the second side of the heat exchanger and at additional locations for control. A short pulse of Kr-85 tracer (<0.1 sec) was injected into the feed stream, which gave rise to detector responses shown in figure 3. [Pg.1058]

The uppermost curve shows the response from the detector mounted on the heat exchanger... [Pg.1058]


See other pages where Mount is mentioned: [Pg.60]    [Pg.89]    [Pg.196]    [Pg.300]    [Pg.46]    [Pg.203]    [Pg.303]    [Pg.303]    [Pg.450]    [Pg.571]    [Pg.645]    [Pg.790]    [Pg.862]    [Pg.898]    [Pg.898]    [Pg.982]    [Pg.1029]    [Pg.116]    [Pg.237]    [Pg.297]    [Pg.305]    [Pg.832]    [Pg.939]   


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14.7 Mount Early and Sheridan Bluff, QMM

Active mount

Adhesive mounting

Anti-vibration mounting

Applications compression mount

Applications surface-mount technology

Applied stress Mount

Aqueous mounting media

Arbor-mounted cutters

Assembly process Surface-Mount technology

Athos, Mount

Automotive applications engine mounts

Balances, analytical mounting

Beam Mounting

Bearings mountings

Bench mounted circular saws

Board mounting

Bridge mounted bucket-wheel

Busbars mounting systems

Busbars mountings

Cairngorm-Mount Battock batholith

Cantilever-mounted

Cantilever-mounted screws

Capillaries, mounting crystals

Centrally mounted agitators

Chassis-mounting

Chevron mounting

Chromosome mounting

Circuit boards surface mount technology

Cold mounting

Column-mounted condensers

Complex Metal Halides and Mounted Superacids

Components surface-mounting

Composites sample mounting

Core losses mounting

Corrosion mounting procedures

Crystal mounting

Crystals mounting and handling

Crystals selection and mounting

Curing surface-mount adhesives

Curing, rubber engine mount

Current transformers mounting

Cuticle mounting

Cutter mounting

Czerny- Turner grating mount

Czerny-Turner mount

Czerny-Turner mounting

DNA replication site, mapping in situ mounting of coverslips

Design parameters Mounting

Detector mounting

Die mounting

Diode mounts

Direct Wet Mount

Display Head-Mounted

Drive motor mounting

ENGINE MOUNTING

Eagle mounting

Ebert mount

Ebert mounting

Ebert-mounting spectrograph

Electric motors mounting

Electron microscopy mounting

Embryo mounts, whole

Engine Mount - NR

Engine mount

Engine mounts fluid

Epoxy surface mount

Equatorial Mounts

Equatorial mount with mirrors for

Equatorial mount with mirrors for acceleration

Everest, Mount

Experimental Mounting

Fastie-Ebert mounting

Fibres sample mounting

Fluorine trailer-mounted tanks

Glass capillaries, mounting crystals

Glasses specimen mounts

Grade-mounted horizontal inline

Grade-mounted horizontal inline arrangement

Hermon, Mount

Hinge mount

Hoechst mounting

Immunohistochemistry whole-mount

Induction motors mountings

Insertion mount component

Instrument interface, surface-mount

Instrumentation probe mounting

Instruments locally mounted systems

Integrated-circuit packaging surface-mounted packages

Interface surface-mount

Kidney cells mounting

Laser ablation mounting

Lebanon, Mount

Lens mount

Littrow mount

Littrow-mounting

Mechanical seals mounted

Mirror Mounted On Racking

Mixers mounting

Model Mounting

Module Mounting

Motor mounts

Mount Ararat

Mount Atlas

Mount Cardou

Mount Carmel

Mount Cook

Mount Erebus, Gas and Dust

Mount Erebus, Summit

Mount Eryx

Mount Etna

Mount Glossopteris

Mount Isa Mines

Mount Narryer

Mount Olympus

Mount Pinatubo

Mount Pinatubo, eruption

Mount Roe

Mount Rushmore

Mount Saint Vincent University

Mount School, York

Mount Shasta

Mount Sion

Mount St. Helens

Mount St. Helens, eruption

Mount Suess

Mount Tabor

Mount Weaver

Mount Weld, South-West Australia

Mount Wilson

Mount Wilson Observatory

Mount Zion

Mount of Olives

Mounting

Mounting Echelle

Mounting Paraffin Sections onto Slides

Mounting Paschen-Runge

Mounting and Handling

Mounting and impregnation

Mounting brackets

Mounting conductors

Mounting devices

Mounting insulation

Mounting insulators

Mounting light sensors

Mounting mass-flow sensors

Mounting media, preparation

Mounting medium

Mounting of the Crystal

Mounting pin

Mounting position

Mounting practices

Mounting slides

Mounting supplies

Mounting systems

Mounting the Chain

Mounting the Victims

Mounting transformers

Mounting types

Mounting, electrodes

Mounting, of specimens

Mountings, table

Mounts, Canada balsam

Mowiol mounting medium

Near surface mounted reinforcement

Near-surface mounted FRP

Near-surface mounted technique

Near-surface mounting

Nozzle Mounting

Oriented mount

Other Structural Support Mounting

PREPARING WET MOUNTS

Particle Mounts on Thin Epoxy Film

Particle mounts

Parts, surface mount thermal

Paschen-Runge mount

Permanent mounts, preparation

Petrogenesis (Mount Melbourne)

Pheromone mounting

Powder mount

Powder mounting

Preamplifier mounting

Printed circuit boards mounting

Printed wiring board with surface-mounted

Printed-circuit boards surface-mount technology

Probe mounting

Quartz capillaries, mounting crystals

Radioactive tracer movements across a barrier which can be mounted between two solutions

Railway mount

Rowland mounting

Royal Canadian Mounted Police

Sample Mounting

Sample configuration mounting methods

Sample preparation mounting

Screws cantilever-mounte

Sermon on the Mount

Sexual mounting

Seya-Namioka mounting

Shaft alignment mounting

Side shell-mounted temperature

Skid mount

Skid-mounted plants

Specifications surface-mount adhesives

Specimen mounting

Specimen preparation whole mount

Specimen, mounting systems

Spectrometer Czerny-Turner mounting

Spectrometer Ebert mounting

Spectrometer optical mounting

Spectrometers Paschen-Runge mount

Spectrometers Seya-Namioka mounts

Spectrometers with the Paschen-Runge Mount

Spring-mounted pump

Spring-mounted suspension

St. Michael s Mount

Standard Fittings and Mountings to Be Considered

Strength surface-mount

Structure-mounted vertical arrangement

Substrate is mounted

Substrates mounting

Surface Mount Substrate Material

Surface mount

Surface mount advantages

Surface mount device substrate

Surface mount disadvantages

Surface mount parts

Surface mount reliability test vehicle

Surface mount technology

Surface mount technology soldering

Surface mounted components

Surface mounted device resistors

Surface mounted technology

Surface mounting

Surface mounting technology

Surface mounting technology packages

Surface mounting, description

Surface-mount adhesives

Surface-mount adhesives characteristics

Surface-mount adhesives thermal conductivity

Surface-mount adhesives viscosity

Surface-mount applications

Surface-mount assembly

Surface-mount components

Surface-mount devices

Surface-mount technology process steps

Surface-mount technology reflow soldering

Surface-mount technology reliability

Surface-mount technology wave soldering

Surface-mounted device

Surface-mounted packages

Surface-mounted packages chip carriers

THE TECHNIQUE OF MAKING A TEMPORARY MOUNT

Temple Mount

The Campania Province, Pontine Islands, Mount Vulture

Thermocouples mounting

Tool-mounted optrode

Tragedy on Mount Everest

Trailer mounted tanks

Trailer-mounted plant

Trunnion mount ball valve

Use of Surface Mount Technology

Usual mounting medium

Vertically mounted temperature

Vertically mounted temperature connection

Wafer Mounting

Washing and Mounting

Wet mount

Whole mount

Whole-mount in situ hybridization

Zircon mounting

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