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Reasons for using Flat Face 1. In case of Rubber lined MS Pipelines. 2. for CI Pipes 3. High Pressure line 4. Minimise the costing 5. Easy to procure Reasons for using Raised Face 1. Concentrate pressure on Somalia size gasket
Some jobs that need Algebra are chemistry.
998.
the second you hit equal lol
Every 5 seconds somebody is using the toilet or 0.2 people a second
pipeline transport is tranportatation good through a pipe. liquied and gas substances are send through pneumatic tubes that transport solid capsules using compressed air through pipelines which move the substance from one place to another by the preasure
their can be a leakage in the pipelines. It can be broken the thing can be transported easily and conveniently. It is profitable
by using air pressure
a Multi tasking computer can run several processes at one time, usually using super scalar architecture where several pipelines runsimultaneously by breaking the fetch execute cycle into stages and each pipeline can run a stage at a time. eg, if you broke the cycle down into 3 stages (fetch, decode, execute) you could have 3 pipelines running at once, one at stage 1, one at 2 and one at 3. a single task computer is one that can only run one process at anytime as it has only one pipeline...if any.
yes
In 8086 pipeline concept was introduced bcoz in 8086 we started using a buffer space which fetches the instruction at the same time when CPU processes
American forces managed using smart bombs to seal the open oil pipelines
Biogas is mostly used as a fuel in power generators and boilers. For these uses, the H2S content in biogas should be less than 200 parts per million (ppm) to ensure a long life for the power and heat generators. Biogas can also be upgraded to pipeline natural gas quality for use as a renewable natural gas. This upgraded gas may be used for residential heating and as vehicle fuel. When distributing the biogas using pipelines, Canadian oil and gas pipeline standards may become applicable. According to Canadian oil and gas pipeline standards, the H2S content shall not exceed 4.6 ppm at 0 C. The CO2 level should be lower than two per cent (CH4> 95 %). Removing water vapour is easier than removing CO2 and H2S from biogas. A condensate trap at a proper location on the gas pipeline can remove water vapour as warm biogas cools by itself after leaving the digester. Producing pipeline gas quality requires the use of advanced and expensive technologies. The cost of cleaning and producing pipeline quality gas (renewable natural gas) is $3 to 6/GJ and $6 to 12/GJ, respectively. The following sections include brief information about these technologies as well as about using biogas as a transportation fuel.
A 3/4" snake using chain knockers then water jetting to scour the lines clean ( NOT for clay pipe)
movement of objects from a point of origin to a point of departure using roads, rail , and pipeline modes in the case of land transport.
A very limited form of parallelism is achieved by using pipelining in that several instructions (up to the limit of the depth of the pipeline) are being processed (each at a different stage of instruction processing) at the same time. An example of this using a 6 stage pipeline is as follows:instruction completion (this is the oldest instruction stage)data storage to memoryinstruction execution & perform input/outputdata read from memorymemory address resolutioninstruction fetch from memory (this is the newest instruction stage)This form of parallelism was first used in the IBM 7030 Stretch computer released in 1961 but did not become a common feature in computer architectures until the introduction of RISC in the 1980s. The main advantage of pipelining is that under normal conditions none of the instruction processing hardware becomes idle. The main disadvantage of pipelining is that unscheduled events (e.g. interrupts, branch mispredictions, arithmetic exceptions) cause pipeline content flushes and having to spend time reloading the now empty pipeline to resume correct processing.Some computers designed with pipelines having an unusually high number of stages had their performance so degraded by that disadvantage that real world benchmarks showed their performance to be only slightly better than the traditional nonpipelined computers, even though their estimated performance was originally much higher. RISC specified that the number of stages in the pipeline should be kept to a minimum to reduce this problem.
Arun L. Nisargand has written: 'Thermal and seismic analysis of piping systems using classical methods' -- subject(s): Pipelines