Bio coal is a replacement of expensive high-grade energy form in space and water heating. Minimal biomass, quality upgrading which limits energy loss from the feedstock. Efficient combustion in advanced, affordable, and user-friendly devices.
Coal is bio-mass that has been compressed into rock over millions of years. Plant life (bio-mass) dies and falls to the ground and rots. More falls on the rotting plant life. and compresses it. This compression forms peat. As soft burning carbonaceous material. As more bio-mass fall on top of the peat , it is compressed into lignite. Lignite is a soft coal. Further compression onto the lignite, forms coal. Further compression on coal forms Anthracene. Bio-mass burns/combusts with a lot of smoke. Peat is a smoky slow combusting fuel. Hlope that helps Lignite smokes, but less so than peat. and burns a little faster. Coal can smoke, but proper draughting it is smokeless. Anthracene is a very hard smokeless coal. On burning/combusting all types above release CO2 (Carbon dioxide). The softer 'coals' can also release carbon particles, ammonia, sulphur dioxide, and hydrogen sulphide. These gases come from plant life that has rotted. The whole process of rotting bio-mass to anthracene can take millions of years and geological shifts/movements. NB As an aside, in the manufacture of iron in the Blast Furnace, coke is used to provide the carbon. Alongside blast furnaces are 'coke ovens'. Coke ovens heat coal to drive off all the secondary material to form coke (industrial carbon). These secondary materials are gases such as sulphur dioxide, ammonia, and hydrogen sulphide. These gases are collected and sold on to other industries for making fertilisers, acids etc., Hope that helps!!!!
Coal Bunker, Coal scuttle, Coal hod
Yes, coal miners mine coal.
I beleive BIO detergent is more earth friendly.
The finest quality coal is called the bituminous coal, it is finer than the lignite coal.
yes it is
Bio-fuel
No with the exception of bio-gas.
Yes coal was formed by the bio materials of forests and swamps and the energy as now came from the sun.
coal and bio power plant
Steam, coal, oil, and bio
You can use many different things. some examples are: Bio-Fuel (still in development) Wind (not as reliable as coal) solar (doesn't produce as much energy as coal) hydro (doesn't produce as much energy as coal)
coal causes global warming by firing bio chemicals called boungous into the atmosphere. But hubba bubba is better than 5gum.
coal energy, disel fuel energy, bio diesel energy
Methane is the answer, By the destructive distillation of coal, we can obtain coal gas, coal tar and ammonia. Coke is left as a residue. Coal gas contains methane, carbon monoxide and hydrogen. Since all the three are combustible, coal gas is a good fuel with a high calorific value.
Sun, nuclear fuels, oil, gas, wind, waves, rivers, animals, bio fuels.
Coal is bio-mass that has been compressed into rock over millions of years. Plant life (bio-mass) dies and falls to the ground and rots. More falls on the rotting plant life. and compresses it. This compression forms peat. As soft burning carbonaceous material. As more bio-mass fall on top of the peat , it is compressed into lignite. Lignite is a soft coal. Further compression onto the lignite, forms coal. Further compression on coal forms Anthracene. Bio-mass burns/combusts with a lot of smoke. Peat is a smoky slow combusting fuel. Hlope that helps Lignite smokes, but less so than peat. and burns a little faster. Coal can smoke, but proper draughting it is smokeless. Anthracene is a very hard smokeless coal. On burning/combusting all types above release CO2 (Carbon dioxide). The softer 'coals' can also release carbon particles, ammonia, sulphur dioxide, and hydrogen sulphide. These gases come from plant life that has rotted. The whole process of rotting bio-mass to anthracene can take millions of years and geological shifts/movements. NB As an aside, in the manufacture of iron in the Blast Furnace, coke is used to provide the carbon. Alongside blast furnaces are 'coke ovens'. Coke ovens heat coal to drive off all the secondary material to form coke (industrial carbon). These secondary materials are gases such as sulphur dioxide, ammonia, and hydrogen sulphide. These gases are collected and sold on to other industries for making fertilisers, acids etc., Hope that helps!!!!