Carbon Additive With FC 95% CNBM Biggest Supplier

Carbon Additive With FC 95% CNBM Biggest Supplier System 1

Carbon Additive With FC 95% CNBM Biggest Supplier

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Loading Port:: China main port

Payment Terms:: TT OR LC

Min Order Qty:: 0 m.t.

Supply Capability:: 100000 m.t./month

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Application

The Calcined Anthracite Coal/Gas Calcined Anthracite Coal/Carbon Raiser is mainly used in steelmaking in electrical stove, screening water, shipbuilding sandblast to remove rust. It can reduce the cost of steelmaking effectively by replacing the traditional petroleum coke of carburant.Also can improve the Carbon content in steel-melting and Ductile iron foundry.

Packaging & Delivery

Packaging Detail:	25kgs/50kgs/1ton per bag or as buyer's request
Delivery Detail:	Within 20 days after receiving corect L/C

Application

Specifications

Calcined Anthracite
Fixed carbon: 90%-95%
S: 0.5% max
Size: 0-3. 3-5.3-15 or as request

PARAMETER UNIT GUARANTEE VALUE
F.C.%	95MIN	94MIN	93MIN	92MIN	90MIN
ASH %	4MAX	5MAX	6MAX	7MAX	8MAX
V.M.%	1 MAX	1MAX	1.5MAX	1.5MAX	1.5MAX
SULFUR %	0.5MAX	0.5MAX	0.5MAX	0.5MAX	0.5MAX
MOISTURE %	0.5MAX	0.5MAX	0.5MAX	0.5MAX	0.5MAX

Size can be adjusted based on buyer's request.

FC 90%-95% Calcined Anthracite

Q:What is the significance of the determination of total organic carbon in purified water?: The first tube with 5 drops of nitric acid and silver nitrate solution 1ml second tube plus barium chloride solution 2ml third tube plus ammonium oxalate solution 2ml, are not allowed to turbidity. Take this product 5ml nitrate test tube, in ice bath cooling, adding 10% potassium chloride solution and 0.1% 0.4ml aniline two 0.1ml sulfuric acid solution, then slowly adding sulfuric acid 5ml, shake the tube in 50 DEG C water bath for 15 minutes, the solution with the standard blue nitrate solution [for potassium nitrate 0.163g, dissolved in water and diluted to 100ml, shake, precise amount of water into 1ml, 100ml, then the precise amount of water into 10ml, 100ml, and the (per 1ml equivalent to 1 gNO3]0.3ml), with no nitrate water 4.7ml, compared with the same method after color not more, (0.000006%). Nitrite to take this product 10ml, the Nessler tube, and sulfanilamide dilute hydrochloric acid solution (1, 100) and 1ml hydrochloride Naphthylethylenediamine (0.1 - 100) 1ml solution, the pink, and the standard solution of sodium nitrite and nitrite [0.750g (calculated on dry goods), dissolved in water, dilute to 100ml, shake, precise amount of water into 1ml, 100ml, and then precise amount of water into 1ml, 50ml, and the (equivalent to 1 gNO2 per 1ml) 0.2ml), plus nitrite free water 9.8ml, compared with the same method after color, shall not be deeper (.000002%). Take this product 50ml ammonia, alkaline potassium tetraiodomercurate solution 2ml, placed 15 minutes; such as color, with ammonium chloride solution (from ammonium chloride 31.5mg, and no amount of ammonia dissolved and diluted into 1000ml 1.5ml), compared with alkaline solution and free ammonia 48ml iodine potassium iodide solution made from 2ml, not deeper (0.00003%).

Q:What are the impacts of carbon emissions on the stability of savannas?: The stability of savannas, which are delicate and diverse ecosystems, is significantly affected by carbon emissions. One of the main outcomes of carbon emissions is the increase in greenhouse gases, including carbon dioxide, in the atmosphere. This results in global warming, which directly and indirectly impacts savannas in various ways. To begin with, global warming caused by higher temperatures can disrupt the natural fire regimes in savannas. These ecosystems have adapted to periodic fires, which are essential for maintaining their structure and biodiversity. However, increased temperatures can intensify and prolong fire seasons, leading to more frequent and intense wildfires. As a result, the natural balance is disturbed, resulting in the loss of vegetation, changes in species composition, and reduced overall stability of the savanna ecosystem. Additionally, elevated levels of carbon dioxide can affect the physiology and growth of plants. While some studies suggest that increased carbon dioxide concentrations may enhance plant productivity in savannas, it is important to consider other factors such as nutrient and water availability. If these factors do not keep up with the increased carbon dioxide levels, the positive effects on plant growth may be limited, resulting in imbalances within the ecosystem. Moreover, carbon emissions contribute to climate change, which alters rainfall patterns and distribution. Savannas rely on a delicate balance between wet and dry seasons, and changes in precipitation patterns can disrupt this balance. This affects the availability of water for plants and animals, leading to shifts in species distribution, reduced habitat suitability, and increased competition for limited resources. All these factors further destabilize the savanna ecosystem. Lastly, carbon emissions also contribute to ocean acidification, which affects marine ecosystems. Coral reefs, which are connected to savannas through coastal regions, provide crucial habitat and protection for many marine species. Acidic waters can harm coral reefs, leading to their decline and subsequent loss of biodiversity in savanna ecosystems. In conclusion, the stability of savannas is significantly impacted by carbon emissions. Global warming, changes in fire regimes, altered precipitation patterns, and ocean acidification all affect the delicate balance and biodiversity of these ecosystems. Addressing carbon emissions and mitigating their effects is crucial for ensuring the long-term stability and conservation of savannas and the services they provide.

Q:What are the impacts of carbon emissions on the stability of deserts?: Carbon emissions have a significant impact on the stability of deserts. Increased levels of carbon dioxide in the atmosphere contribute to global warming, leading to higher temperatures and altered precipitation patterns. These changes can intensify desertification processes, such as soil erosion and water scarcity, further destabilizing desert ecosystems. Additionally, carbon emissions from human activities, such as fossil fuel combustion, contribute to air pollution, which can harm desert flora and fauna, disrupting their ecological balance and overall stability.

Q:What are carbon offsets?: Carbon offsets are a mechanism used to help reduce greenhouse gas emissions and combat climate change. They are essentially a way for individuals, organizations, or businesses to compensate for their own carbon dioxide (CO2) emissions by investing in projects that reduce emissions elsewhere. The concept behind carbon offsets is based on the understanding that emissions reduction can be achieved in various ways and at different costs. Instead of solely focusing on reducing their own emissions, carbon offsetting enables individuals or entities to support projects that can achieve greater emission reductions per unit of cost. These projects can include renewable energy, energy efficiency, reforestation, and methane capture, among others. To acquire carbon offsets, individuals or organizations typically calculate their own carbon footprint by assessing the amount of CO2 they emit through their activities, such as energy consumption or transportation. After quantifying their emissions, they can purchase carbon offsets equivalent to the amount of CO2 they have emitted. These offsets are generated by projects that are independently verified and certified by recognized standards and registries. Once the carbon offsets are purchased, they are effectively canceled or retired, ensuring that the emissions reduction achieved by the project is not double-counted or claimed by someone else. By investing in carbon offsets, individuals or organizations can effectively neutralize their own emissions and contribute to global efforts to address climate change. However, it is important to note that carbon offsets should not be seen as a substitute for reducing emissions at the source. They should be used as a complementary tool to support emission reduction efforts, while simultaneously implementing measures to minimize our own emissions through energy efficiency, renewable energy adoption, and sustainable practices.

Q:Buy carbon carving, how to identify him is true or false, and the quality of good or bad?: Most consumers think the difference between "Zijin carbon carving" and activated carbon is a cheap, a noble, a beautiful, a dirty, in fact they have a completely different function, "Zijin carbon carving at least three point is beyond the powder activated carbon.One is "up to 100 times longer and even thousands of times the Zijin carbon carving" activated carbon powder than life, there is a gap between the granular activated carbon powder, the gap will be preferential adsorption of water vapor, in one to two months (the South may be less than half a month) to form a hydrophilic outer shell thus, lost its adsorption function, and the "Zijin carbon carving" the large volume high fine carbon, molecular absorption pressure technology of gapless combined, and through the fine carbon activation activation of the "Zijin carbon carving" internal logic array pore formation, through carbonization and activation, pore forming process makes "Zijin carbon carving" to achieve through the hole directional adsorption of formaldehyde, benzene and other toxic and harmful gases but also through the large hole directional water vapor, but also through the hole directional adsorption of radiation, thereby greatly prolonging the service life.Second is the powder activated carbon particles easily suspended in the indoor air, forming second pollution, and "Purple carbon carving" seamless seamless activated carbon sublimation products, no pollution second times.Third, "Purple carbon carving" has an elegant artistic form. It is an ideal decoration for home and office, and the purification effect is more thorough

Q:How to distinguish carbon rods to identify carbon fishing rods?: I'm also waiting to learn! It seems all very busy, the masters are not on-line

Q:What are the impacts of carbon emissions on the stability of river ecosystems?: The stability of river ecosystems is significantly affected by carbon emissions, which have various consequences. One of the main outcomes of carbon emissions is the rise in greenhouse gases in the atmosphere, resulting in global warming. This increase in temperature directly and indirectly impacts river ecosystems. To begin with, higher temperatures can modify the physical characteristics of rivers and impact the availability of oxygen in the water. Warmer water holds less dissolved oxygen, which can be harmful to aquatic organisms like fish and invertebrates that depend on oxygen for survival. The decrease in oxygen levels can lead to a decrease in biodiversity and even cause fish to die. Furthermore, climate change caused by carbon emissions can disrupt the natural hydrological cycle. Changes in precipitation patterns can lead to droughts or floods, causing fluctuations in river flow. These alterations can affect the reproductive and migration patterns of many aquatic species, disturbing their life cycles and reducing their populations. Additionally, modified river flows can also affect the stability of riverbank and riparian habitats, resulting in erosion and habitat loss. Moreover, increased carbon emissions contribute to ocean acidification. When water absorbs carbon dioxide, it forms carbonic acid, which lowers the pH of the water. Acidic waters can have harmful effects on aquatic life, including shellfish, corals, and other organisms that calcify. River ecosystems are interconnected with coastal and marine ecosystems, so the consequences of ocean acidification can indirectly impact river ecosystems through the food chain. Furthermore, carbon emissions contribute to the deposition of air pollutants, such as nitrogen and sulfur compounds, onto land and water bodies. These pollutants can be carried by rainfall into rivers, leading to increased nutrient levels and eutrophication. Excessive nutrients can cause harmful algal blooms, deplete oxygen levels, and create dead zones, further disturbing the balance of river ecosystems. In conclusion, the stability of river ecosystems is profoundly impacted by carbon emissions. Rising temperatures, altered hydrological cycles, ocean acidification, and increased nutrient levels all contribute to the degradation of these ecosystems. It is essential to reduce carbon emissions and adopt sustainable practices to mitigate these impacts and preserve the health and stability of river ecosystems.

Q:But their chemical symbols are different, so they are different elements, different substances, but they feel the same thing... Tangled up ~!: No one is the same. Lead is poisonous, and pencil lead is lead. The structure of carbon is the same as that of diamonds. Generally speaking, they are of structure, density and composition. No one is the same

Q:other parameters are figured out, the difference is only in the carbon and carbon is not very clear, just know that they are winding mode is the opposite, there are two kinds of most printers can be used, what is the difference between the performance of them? Two can use the printer in the selection of the best carbon or carbon? Why? Please cite several models as an example.Please answer in your own words. Don't factor,: In fact, to teach you a simple way to distinguish between internal and external carbon, carbon, label paper dip ribbon, with black on the outside of the outer side is carbon, carbon is in inside, no performance difference, now generally used is the most carbon, such as the machine is to use carbon is better, because the wound is not the same, sometimes loose.SATO machine with carbon is better, and the CITIZEN printer inside and outside carbon can be used, in addition to machine limitations, not what the difference is too big, the quality of internal and external carbon ribbon is the same.

Q:When is gold resistance better? When will carbon resistance be better?: Metal film resistance, high precision, overload capacity, high temperature coefficient, but the price is also higher. Commonly used in some demanding or more accurate circuit, such as instrumentation, precision power supply. Carbon film resistors have high cost performance and low cost, but they have larger errors. A large number of applications in civil electrical products. Such as television, air conditioning, stereo and so on.

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