Industrial Production of Charcoal
Charcoal is not pure carbon or a single compound. The product has various elements and ash which is the final product after it has burnt. Charcoal has been a frequent fuel in many regions with Africa and South America being the primary continents with a broader use of it. This paper places greater focus on the industrial production of charcoal which has taken an advanced output via technology. The production has not gone unnoticed as it has been a significant factor that affects technology and the economy in different regions of the country. The Technological Progress of Industrial Charcoal Production The development of technology ensures that the yield of charcoal is higher than the traditional methods. The traditional method of creating charcoal involves part of the burning to dry and then carbonizes the remainder of the log.
It is during the carbonization process where there is an exothermic production of heat. This happens when the wood structures are transforming into charcoal. The exothermic heat supplements the heat from the burning part of the charge. The toxic waste liquids kill fish and destroy the plants. It is, however, noteworthy that the control of this type of pollution is not impossible only that it is expensive to perform. The industries have to take care of the environment by ensuring that the waste effluents released undergo prior treatment to the release. Technology in the industrial production of charcoal has exponentially increased the rate at which the rate of carbonization happens. The relevance of this point is however in regards to the amount of charcoal per unit capital investment or the amount of charcoal per man (labor).
This is vital in ensuring that people have the purchasing ability and also access to health services which are universal human basic needs. The level of dependence on agricultural produce for exports to earn the foreign exchange is highly reduced. In this circumstance, the state can defend itself against any regression. Industrial production of charcoal raises the national income of a country. The development of the industrial sector means consequentially means more investment, employment, and output. The figures are particularly significant if one considers the cost the world will have to incur to reducing the level of global warming. Since the project improves the lives of people and saves the environment by a far significant margin, it is recommended the adoption of the industrial methods of charcoal production.
These industrial production methods have so far proved to be beneficial to the human existence and the natural sustainability of the ecosystem surrounding the human being. The industrial production of charcoal has been vital to the minimization of material and energy losses in the process of making charcoal. This is an indirect economic advantage which in turn leads to the conservation of the additional trees in the forest. However, in countries like Nepal, the consumption of charcoal is high during the marriage seasons which happen twice or thrice annually (Bhattarai, 1998, p. This is to mean that the demand for the charcoal also depends on the circumstances. There is no established relationship in the price of charcoal and other fuels. This is because of the fluctuation in prices of the fuels in the world.
A case example is a past prediction in the oil change prices due to the perceived depletion in the oil reserves. Environmental Impacts of the Industrial Production of Charcoal The production of charcoal takes place in the environment. Despite the technological and economic impacts of the industrial output on charcoal, it would so demean not to relate the effects of this process with the impact it has on the environment. For the industrial production of charcoal to continue, the situation is a vital factor where the trees grow. The introduction of conventional means as substitutes has not reduced the overall consumption of charcoal as would be expected. The conventional methods have had a minimal impact on the use of charcoal. The emission of carbon monoxide and nitrogen oxides is dangerous as they lead to brain damage and in some circumstances death.
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