Clinker is the raw material used in cement, but can also be used in mortar and grout and other similar applications.
In terms of capacity, assuming you mean production capacity, the two are related and the majority of clinker does go to cement but it's similar to something like estimating the gasoline production capacity based on petroleum availability, the two are intricately bound but not exactly identical.
Cement is a powdered mineral, which when added to water reacts to form an element that glues sand, gravel and stones. Its produced by propositioning of different elements that include, calcium oxide, silicon oxide, aluminum oxide and iron oxide, and burning them in a clinker at a temperature about 1450 to form clinker which is then grounded to form cement.
clinker is the type of concrete after it has been bagged.
By increasing speed of the packer
The lime content that is found in cement causes cement to heat.
insoluble cement
no
Determination of Free Lime in Clinker and Cement?
0,74 tons of clinker (depending on the quality tho)
The plant capacity to produce cement will determine whether its a large or mini cement plants.Now that construction activity is at a everlasting speed there is a greater demand for cement which is the main constituent for construction works.So cement plants specially a large one have a daily capacity of production of 10000tons to 15000tons per day of clinker the main constituent of cement which grinded finely with 3%of gypsum will finally produce the Cement. A mini cement plant capacity is some 200 -250 t/h capacity plant .The definition of plants is multicellular organisms which include grass, trees, mosses, shrubs, and herbs.
Clinker is ground (usually with the addition of a little gypsum, that is, calcium sulfate dihydrate) to become Portland cement. It may also be combined with other active ingredients or chemical admixtures to produce:
OPC is ordinary Portland cement and PPC is Portland pozolona cement. OPC is obtained by grinding clinker and gypsum whereas PPC is obtained by grinding clinker gypsum and high reactive silica. High reactive silica improves the quality of cement by reducing liberated lime.
You should increase the LSF (lime saturated factor). Normal the LSF is around 95. If you increase the LSF you will proberly get a worse burnability.
Slow down the stroke of the grates of the cooler.. Increase the clinker abundance and pressure in cooler.. So, you can increase the temperature by taking advantage of the hot clinker.
Cement is a powdered mineral, which when added to water reacts to form an element that glues sand, gravel and stones. Its produced by propositioning of different elements that include, calcium oxide, silicon oxide, aluminum oxide and iron oxide, and burning them in a clinker at a temperature about 1450 to form clinker which is then grounded to form cement.
Ordinary Portland cement is form from materials of limestone or chalk and clay in proportion of 78and 22% respectively. The limestone and the clay are crushed and water is added to form slurry. The slurry is the heated at a high temperature in a klin to form clinker. The clinker is grinded into a powder and a range of gypsum is added which generate setting or hardening when water is added.
Michael Dardas has written: 'Modelling cement clinker pore structure using 3-D stochastic pore networks'
Frank Lawrence Brady has written: 'The determination of free lime in hydraulic cement' -- subject(s): Cement, Lime, Portland cement 'The corrosion of steel by breeze and clinker concretes' -- subject(s): Concrete, Corrosion and anti-corrosives, Steel