New Nino. Off his album âUntold Scriptures, which is out TODAY, so make sure you buy a copy. You can also check out The Hip Hop Chronicleâs EXCLUSIVE interview with Nino Bless HERE Nino Bless - Name Droppin
Nino Bless - âName Droppinâ Scratches by Scram Jones. âUntold Scripturesâ drops today. Continue for track listing. 1.) Intro (produced by Veterano) 2.) Da Livest (produced by Yes Sur) 3.) Peep Game (Freestyle) 4.) Times Are Hard f/Joe Budden (produced by Focus) 5.) My Piano (Freestyle) 6.) Means Of Survival (produced by Scram Jones) 7.) Going In (Freestyle) f/Grafh 8.) Name Dropping (produced by Sivey) 9.) 3rd Degree f/Saigon and Crooked I (produced by Scram Jones) 10.) When It Ra
Free download of Jubileum MP3voor12! Posted by sevenstar on 12 May, 2008 Download here the complete CD in Zipformat Or by title: 1. Pete Philly & Perquisite - Dazzled Kids 2. Moke - Cupar Street Riot 3. Extince - Makkelijk Praten 4. Aux Raus - Ill Rum 5. Gem - Rush For You 6. De Jeugd van Tegenwoordig â Serieus 7. Coparck - Checklist for Life 8. Lucky Fonz III - Black Book Boy 9. Alamo Race Track â What Are You Here For Anyway 10. About - Tough Cookie 11. Typhoon - Bommenwer
Jonathan Connolly Is Hit Hard In Erie Loss by Mike Cassidy @ 6:03 pm. Filed under Deik Scram, Erie SeaWolves - May 2008, Freddy Guzman, Jonathan Connolly Jonathan Connolly fell to 0-1 with a tough start in the SeaWolves 9-5 loss to Trenton. He gave up six runs on thirteen hits and a walk with two strikeouts in six frames. Deik Scram went two for five with an RBI. Freddy Guzman tripled, drew two walks and scored twice. [Comments (0)]
Erie Splits Doubleheader With Altoona by Mike Cassidy @ 4:55 pm. Filed under Benjamin Fritz, Casey Fien, Diek Scram, Dusty Ryan, Erie SeaWolves - May 2008, Jeff Frazier, Lucas French, Maxim St. Pierre The SeaWolves split their pair of games today with Altoona. Game one was a 4-3, extra inning loss that saw Casey Fien give up a walk off solo homer in the bottom of the eighth inning. Benjamin Fritz didnât get the decision and he gave up three runs (one earned) on eleven hits and one walk w
A scram or SCRAM is an emergency shutdown of a nuclear reactorâthough the term has been extended to cover shutdowns of other complex operations, such as server farms and even large model railroads (see Tech Model Railroad Club). In modern commercial reactor operations, however, it is often referred to as a reactor trip.
Mechanisms
In any reactor, a SCRAM is achieved by a large insertion of negative reactivity. In light water reactors, this is achieved by inserting neutron-absorbing control rods into the core, although the mechanism by which rods are inserted depends on the type of reactor. In pressurized water reactors (PWR), the control rods are lifted by electric motors against both their own weight and a powerful spring. Any cutting of the electric current releases the rods. A SCRAM rapidly (less than four seconds, by test) releases the control rods from those motors and allows their weight and the spring to drive them into the reactor core, thus halting the nuclear reaction as rapidly as possible. In boiling water reactors (BWR) the control rods are inserted up from underneath the reactor vessel. In this case a hydraulic control unit with a pressurized storage tank provides the force to rapidly insert the control rods upon any interruption of the electric current, again within four seconds. A typical large BWR will have 185 of these control rods.
Liquid neutron absorbers are also used in emergency shutdown systems. During SCRAM the operators can inject solutions containing neutron poisons directly into the reactor coolant. Various solutions, including sodium polyborate and gadolinium nitrate, are used. Normally, these poisons are stored in pressurized tanks that are normally kept isolated from the reactor coolant system. When needed, valves or pumps are actuated to rapidly introduce the boron from these tanks into the primary loop. Because they may delay the restart of a reactor, these systems are only used to shut down the reactor if control rod insertion fails. This concern is especially significant in a BWR, where injection of liquid boron would cause precipitation of solid boron on fuel cladding, which would prevent the reactor from restarting until the boron deposits were removed.
Some modern naval nuclear power reactors have, in addition to scramming, the ability to automatically run the electric motors in reverse at high speeds for a few seconds, thus driving the rods into the core a short distance while leaving them latched to their motors. This "fast insertion" partially shuts down the reactor while leaving it ready to quickly restartâa consideration much more important in a warship than in a commercial power plant (also see Nuclear navy.)
Reactor response
Most neutrons in a reactor are prompt neutrons; that is, neutrons produced directly by a fission reaction. On average, these neutrons live for about 0.1 ms, which allows the insertion of neutron absorbers to affect the reactor quickly. As a result, once the reactor has been scrammed, the reactor power will significantly drop almost instantaneously. However, a small fraction (about .65%) of neutrons in a typical power reactor come from the radioactive decay of a fission product. These delayed neutrons will limit the rate at which a nuclear reactor will shut down.
Decay heat
On a SCRAM for a reactor that held a constant power for a long period of time (greater than 100 hrs), about 7% of the steady-state power will initially remain after shutdown due to the decay of these fission products. For a reactor that has not had a constant power history, the exact percentage will be determined by the concentrations and half-lives of the individual fission products in the core at the time of the SCRAM. The power produced decay heat slowly falls with the decay of fission products.
Etymology
The term is probably a backronym. The actual "safety control rod axe man" at the first chain-reaction was Norman Hilberry. In a letter to Dr. Raymond Murray (January 21, 1981), Hilberry wrote:
When I showed up on the balcony on that December 2, 1942 afternoon, I was ushered to the balcony rail, handed a well sharpened fireman's ax and told that was it, "if the safety rods fail to operate, cut that manila rope." The safety rods, needless to say, worked, the rope was not cut⌠I don't believe I have ever felt quite as foolish as I did then. âŚI did not get the SCRAM story until many years after the fact. Then one day one of my fellows who had been on Zinn's construction crew called me Mr. Scram. I asked him, "How come?" And then the story.
Other sources state that the term may actually mean Super-Critical Reactor Axe Man, referring in that case to a person who would use an axe to cut a rope to drop a control rod into a reactor to shut it down. This became another meaning of the word SCRAM after people working at the first nuclear reactor pile in Chicago, Illinois, known as CP-1, incorporated it into their emergency procedures. (An alternative derivation is that it stood for Simulated Chicago Reactor Axe Man). Many attribute the usage to Enrico Fermi, who supposedly wrote the âaxe manâ phrase into the original reactor design. There were multiple safety systems in place at the Chicago pile, with some electrically-controlled control rods as well as vessels containing a cadmium solution available to stop any reactions if necessary. Therefore, the job of the âSCRAMâ to drop another control rod by the force of gravity was most likely superfluous.
Other sources indicate that the term stands for safety cut rope axe man. The workers at CP-1 labeled an emergency shutdown button âSCRAM,â since they would immediately be scramming (running) from the premises (or to their emergency positions) as soon the button was hit. (In modern nuclear power plants, the operators do not leave the control room in the event of a SCRAM or even a major accident.)
Leona Marshall Libby, who was present that day, recalled that the term was coined by Volney Wilson:
he safety rods were coated with cadmium foil, and this metal absorbed so many neutrons that the chain reaction was stopped. Volney Wilson called these "scram" rods. He said that the pile had "scrammed," the rods had "scrammed" into the pile.
An Atari 400/800 BASIC game called SCRAM simulated in a simplified way the operation of a nuclear power plant. The user manual stated that SCRAM stood for "Start Cutting Right Away, Man", referring to the rope that held the control rod in place.
References
^ Reactor Protection & Engineered Safety Feature Systems. The Virtual Nuclear Tourist. Retrieved on 2007-02-25.
^ Shultis, J. Kenneth; Richard E. Faw (2002). Fundamentals of Nuclear Science and Engineering. Marcel Dekker. ISBN 0824708342.
^ Duderstadt, James J.; Louis J. Hamilton (1976). Nuclear Reactor Analysis. Wiley-Interscience, 245. ISBN 0471223638.
^ NRC Glossary: Scram.
^The Uranium People, Crane, Rusak & Co., 1979
See also
Nuclear power
Nuclear power plant
Nuclear safety in the U.S.
The China Syndrome (1979 film)
External links
Nuclear Reactor Technology â PC-based power reactor simulator.
