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Messages - TheStig

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1961
Knowledge / Re: Nuclear Reactor
« on: March 20, 2011, 10:47:31 PM »
haha Elle bhen.. tusi scientist .. mei nahi


thanks Karam veere
Hanji, mei is trying to become a scientist.  :loll:

TRY nahi karni .. tusi already scientist hege aa.. saryea nu pata

1962
Pics / Re: Bies/tries okay?
« on: March 20, 2011, 08:00:07 PM »
biceps and triceps bigger n sharper?
:laugh: :laugh: :laugh: :laugh: :laugh:  Show off!

ya right bhen ji .. wat abt ur pushups post * SHOW OFF EVERYDAY*

1963
Cars / Re: Car of the Day
« on: March 20, 2011, 07:13:48 AM »


Scion tC

1964
Religion, Faith, Spirituality / Re: Dohe - Bhagat Kabir
« on: March 20, 2011, 02:02:59 AM »
Mangan maran Samaan hai ,mat mango koi bheekh!
Mangan se to marna bhala, yeh Satguru ki Seekh

1965
Pics / Re: Bies/tries okay?
« on: March 19, 2011, 11:18:24 PM »
biceps and triceps bigger n sharper?

1966
Pics / Bies/tries okay?
« on: March 19, 2011, 10:44:45 PM »
took today.
do u guys see any difference?

1967
Pics / Re: Photo a day
« on: March 19, 2011, 10:34:40 PM »
some more..


1968
Cars / Re: I Got !!New alloy wheels
« on: March 18, 2011, 07:58:32 PM »
aww bad luck .. whats the legal limit on lowering there?
ithe ta je gaddi COKE can to lang jaave means legal

1969
Knowledge / Re: Nuclear Reactor
« on: March 17, 2011, 07:42:01 PM »
haha Elle bhen.. tusi scientist .. mei nahi


thanks Karam veere

1970
News Khabran / Re: Proud day for Sikhs in Victoria, Australia
« on: March 17, 2011, 06:47:58 PM »
I was just going to post about him I read the news yesterday .
menu bana ke rakhni peni ede naal :P mere ilake ch .
I hope he doesn't catch me speeding . Mai bhabi ji nu kayi war drop karan janda hunda kamm te Endeavour hills ch heheh

1971
Maan-Sanmaan/Respect+ / Re: New Pj Muteyaar Noor Sandhu
« on: March 17, 2011, 08:53:49 AM »
congratulations a well deserved promotions.Shes been quiet active.

Good promotions veere

1972
Knowledge / Nuclear Reactor
« on: March 16, 2011, 08:29:07 AM »

Nuclear Reactor




A nuclear reactor is a device to initiate and control a sustained nuclear chain reaction. The most common use of nuclear reactors is for the generation of electrical power and for the power in some ships . Heat from nuclear fission is used to raise steam, which runs through turbines, which in turn powers either ship's propulsion or electrical generators.

Fission

When a large fissile atomic nucleus such as uranium-235 or plutonium-239 absorbs a neutron, it may undergo nuclear fission. The heavy nucleus splits into two or more lighter nuclei, releasing kinetic energy, gamma radiation and free neutrons; collectively known as fission products.A portion of these neutrons may later be absorbed by other fissile atoms and trigger further fission events, which release more neutrons, and so on. This is known as a nuclear chain reaction.

The reaction can be controlled by using neutron poisons, which absorb excess neutrons, and neutron moderators which reduces the velocity of fast neutrons, thereby turning them into thermal neutrons, which are more likely to be absorbed by other nuclei. Increasing or decreasing the rate of fission has a corresponding effect on the energy output of the reactor.

Commonly used moderators include regular (light) water (75% of the world's reactors) solid graphite (20% of reactors) and heavy water (5% of reactors). Beryllium has also been used in some experimental types, and hydrocarbons have been suggested as another possibility.

Heat generation

The reactor core generates heat in a number of ways:

    * The kinetic energy of fission products is converted to thermal energy when these nuclei collide with nearby atoms.
    * Some of the gamma rays produced during fission are absorbed by the reactor, their energy being converted to heat.
    * Heat produced by the radioactive decay of fission products and materials that have been activated by neutron absorption. This decay heat source will remain for some time even after the reactor is shut down.

A kilogram of uranium-235 (U-235) converted via nuclear processes contains approximately three million times the energy of a kilogram of coal burned conventionally (7.2 × 1013 joules per kilogram of uranium-235 versus 2.4 × 107 joules per kilogram of coal).

Cooling

A nuclear reactor coolant — usually water but sometimes a gas or a liquid metal or molten salt — is circulated past the reactor core to absorb the heat that it generates. The heat is carried away from the reactor and is then used to generate steam. Most reactor systems employ a cooling system that is physically separated from the water that will be boiled to produce pressurized steam for the turbines, like the pressurized water reactor. But in some reactors the water for the steam turbines is boiled directly by the reactor core, for example the boiling water reactor.


Reactivity control

The power output of the reactor is controlled by controlling how many neutrons are able to create more fissions.

Control rods that are made of a nuclear poison are used to absorb neutrons. Absorbing more neutrons in a control rod means that there are fewer neutrons available to cause fission, so pushing the control rod deeper into the reactor will reduce its power output, and extracting the control rod will increase it.

In some reactors, the coolant also acts as a neutron moderator. A moderator increases the power of the reactor by causing the fast neutrons that are released from fission to lose energy and become thermal neutrons. Thermal neutrons are more likely than fast neutrons to cause fission, so more neutron moderation means more power output from the reactors. If the coolant is a moderator, then temperature changes can affect the density of the coolant/moderator and therefore change power output. A higher temperature coolant would be less dense, and therefore a less effective moderator.

In other reactors the coolant acts as a poison by absorbing neutrons in the same way that the control rods do. In these reactors power output can be increased by heating the coolant, which makes it a less dense poison.[citation needed] Nuclear reactors generally have automatic and manual systems to insert large amounts of poison (often boron in the form of boric acid) into the reactor to shut the fission reaction down if unsafe conditions are detected or anticipated.


Electrical power generation

The energy released in the fission process generates heat, some of which can be converted into usable energy. A common method of harnessing this thermal energy is to use it to boil water to produce pressurized steam which will then drive a steam turbine that generates electricity.


Working:


1973
Knowledge / What is Bio-Fuel?
« on: March 16, 2011, 08:18:30 AM »



What is BioFuel?

Biofuels are produced from living organisms or from metabolic by-products (organic or food waste products). In order to be considered a biofuel the fuel must contain over 80 percent renewable materials. It is originally derived from the photosynthesis process and can therefore often be referred to as a solar energy source. There are many pros and cons to using biofuels as an energy source.

How to make Biofuels

Biofuel is considered to be the most pure and the easiest available fuels on the planet. Also known as agrofuel, they are classified into gas, liquid and solid form derived from biomass. Most of the people would be very happy to know that most of the forms of biofuels can be easily manufactured even at in one’s kitchen garden. One of the key features of biofuels is that they are better than other forms of fuels like petrol or diesel that is manufactured by most of the big oil manufacturing companies. Most of the diesel engines would work more efficiently and even last longer with the use of these home made biofuels. These fuels are also very clean and environment friendly. These biofuels can be a lot more economic if used in the kitchen for cooking purpose. These fuels also encourage the recycling process as most of them are manufactured from waste products.

There are various forms of biofuels and most of them are made through a detailed process having various stages. Most of the animal fats, vegetables and oils contain glycerin and are thus called triglycerides. In the process of manufacturing the biofuels, all the fats and oils are turned into esters, separating the glycerin. At the end of the process, all the glycerin sinks down at the bottom and all the biofuel rests at the top. The process through which the glycerin is separated from the biodiesel is known as transesterification. This process also uses lye as a catalyst in the whole process. Some of the chemicals which are used in the manufacturing of biofuels are ethanol or methanol which brings into use methyl esters. Methanol is derived from fossil fuels while ethanol is derived from plants. One of the advantages of using ethanol is that they can be distilled even at the home without any problem.

The process of manufacturing biofuel can be classified in the following stages.

These stages are:

Filtering: In this process, waste vegetable oil is filtered to remove all the food particles. This process generally involves warming up the liquid a little. After warming up the liquid, it can be filtered with the use of coffee filter.

Removing of water: All the water contained in the residual gangue has to be removed which will make the reaction faster. The water can be easily removed by making the liquid boil at 100 degree C for sometime.

Titration: This process is carried out to determine the amount of lye that would be required. This process is the most crucial and the most important stage of biofuel manufacturing.

Preparation of sodium methoxide: In this process, methanol is mixed with sodium hydroxide to produce sodium methoxide. In most of the cases, the quantity of methanol used is generally 20 percent of waste vegetable oil.

Heating and mixing: The residue is heated in between 120 to 130 degree F after which it is mixed well. It should be remembered that process should be done carefully avoiding splashing of the liquid.

Settling and separation: After mixing the liquid, it has to be allowed to cool down. After the cooling process, the biofuel will be found floating at the top while the heavier glycerin would be found at the bottom. The glycerin can be easily separated by allowing it to drain out from the bottom. The person is left over with pure biofuel which can be used for various purposes.



1974
Cars / Re: I Got !!New alloy wheels
« on: March 16, 2011, 08:01:25 AM »
hitler rules? what do u mean

gharde ni allow karde ja government

1975
Religion, Faith, Spirituality / Re: Dohe - Bhagat Kabir
« on: March 16, 2011, 04:26:16 AM »
Heera waha na kholiye, jahan kunjdo ki haat!
Bandho chup ki potri,laghu apni baat !!

1976
Religion, Faith, Spirituality / Re: Dohe - Bhagat Kabir
« on: March 16, 2011, 04:24:47 AM »
Dan diye dhann na ghate, nadi na ghate neer!
Apni aankho dekh lo, yon kya kahe Kabir !!

1977
Religion, Faith, Spirituality / Re: Dohe - Bhagat Kabir
« on: March 16, 2011, 04:23:23 AM »
Maya shaya ek si , Birla jaane koye !
Bhagta ke peeche lage, sammukh bhaage Soye

1978
Cars / Re: Car of the Day
« on: March 15, 2011, 10:20:32 PM »
Chick flicked
Volkswagon R32 Golf

1979
Cars / Re: I Got !!New alloy wheels
« on: March 15, 2011, 09:59:48 PM »
Looks good mate.
good work brother
do it yourself jobs are always good
how come your front brake calipers are too small?Are they factory? is braking good?

and wheels look sick man.. good choice

go get your car bit lowered

Get king springs ultra low (nt super low) and car will look  much better

1980
Fun Time / Re: Oil change instructions
« on: March 15, 2011, 08:25:45 PM »
oil change?
what for

Too bad :p I have to change in skyline at every 5000 kilometers
Oil change
Oil filter
Injector cleaner
Spark plugs ( 120 Dollars) if needed

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