Encyclopedia of Renewable Energy. James G. Speight
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Название: Encyclopedia of Renewable Energy

Автор: James G. Speight

Издательство: John Wiley & Sons Limited

Жанр: Физика

Серия:

isbn: 9781119364092

isbn:

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      Acid rain has a pH less than 5.0 and predominantly consists of sulfuric acid (H2SO4) and nitric acid (HNO3). As a point of reference, in the absence of anthropogenic pollution sources the average pH of rain is approximately 6.0 (slightly acidic; neutral pH = 7.0). In summary, the sulfur dioxide that is produced during a variety of processes will react with oxygen and water in the atmosphere to yield environmentally detrimental sulfuric acid. Similarly, nitrogen oxides will also react to produce nitric acid.

      The principle source of acid rain causing pollutants, sulfur dioxide and nitrogen oxides, are coal-fired power plants. Since natural gas emits virtually no sulfur dioxide, and up to 80% less nitrogen oxides than the combustion of coal, increased use of natural gas could provide for fewer acid rain–causing emissions.

      Acid Rain – Mitigation

      Acid rain reduction can be done either fuel switching or scrubbing. Fuel switching includes limiting the use of Sulphur-containing fuels such as coal or switching to low sulphur–containing coal or oil, switching to alternative energy sources such as using gas boilers instead of coal or oil boilers, nuclear power generation, using renewable energy sources such as wind, air, wave and geothermal energy.

      Gas cleaning (gas scrubbing) includes use of electrostatic precipitators where positively charged sulphur particles are attracted by negatively charged plate or chemical means either wet scrubbing such as injecting water or chemical solution such as flue gas desulphurization (FGS) which has the sulfur dioxide removal rate between 80-95% or dry scrubbers such as lime injection multi stage burning (LIMB) or fluidized bed combustion (FBC or circulation dry scrubber) that react with sulphur in the absence of water medium.

      To reduce nitrogen oxides (NOx), methods such as selective catalytic reduction process (SCR) which has the NOx reduction rate up to 80% where injection of reactive chemicals such as ammonia reacts with NOx and convert into nitrogen and oxygen, changing air to fuel ratio and changing the combustion temperature. In automobile NOx reduction, catalytic converters are used, e.g., three-way catalytic converters: (i) conversion of nitrogen oxides into nitrogen and oxygen, (ii) conversion of carbon monoxide into carbon dioxide, and (iii) conversion of hydrocarbon derivatives into carbon dioxide and water.

      See also: Acid Rain, Gas Cleaning, Gas Processing, Gas Treating.

      Acid Treating

      Acid treating is one of the older treating processes in refining of liquids from renewable sources. This process found importance in the earlier days of crude oil refining and was preferentially used by oil industry for treating middle distillates like gasoline, kerosene, etc., and also for the refining of lubricating oils. Used oil refining was also carried out using this process. Primarily, acid treating processes were used to improve color, odor, removal/reduction of aromatic content and other undesirable constituents such as polar nitrogen containing compounds and/or some of the trace metals present in the products. Removal of these undesired constituents leads to considerable improvement in physical properties of the treated petroleum / petrochemical product.

      Sulfuric acid treating is known to be one of the oldest and best suited treating agent for a large variety of petroleum-related applications. Use of sulfuric acid was widely accepted as an acid treating agent for upgrading petroleum products. Although petroleum refining industry and researchers have used other acids like hydrofluoric acid, hypochlorous acid for treating of the petroleum products, such as lubricating oil, best performance and economics of the operation could be achieved by using sulfuric acid treating only.

      As in the other treating processes in crude oil refining, acid treatment may also be used as a simple single-stage extraction process, or if required, as a complex multi-stage extraction process. The process requirements and treating scheme is designed based on the nature of the product to be treated and extent of product quality improvement requirement.

      Pre-treating and post-treating of the products before and after acid treating also plays a significant role in product quality enhancement by acid treating. Whether it should be clay treatment or simple water washing after acid treating, the overall process requirement can be optimized easily depending upon quality requirements of the finished product. As discussed earlier, clay treatment after acid treating further reduces the polar constituents present in the product besides improving the color of the product. If desired product quality is achieved by acid treatment only than clay treatment step is not essential and simple water washing can give the desired product quality.

      A number of process-related parameters play significant roles for the optimization of process requirements and these parameters depend upon the extent of refining needed. Acid concentration is the primary and most important of such requirements; generally lower acid concentrations, around 25% or less are used for the treatment of the alkaline sludge generated in various refinery processes, by neutralizing it before its safe disposal to the water treatment plant. Moderate to strong acid requirement are effectively used in polymerization of olefins and diolefins.

      Treatment of higher viscosity products require strong acid concentrations. With varying acid concentrations ease of separation of the acid and organic layer can also be achieved. With dilute acids the phase separation is easy as compared to the strong acids. Fuming sulfuric acid is also used for the treatment of the lube oils and the petroleum products. Another process parameter is operating or treating temperature. Temperature also plays a significant role in quality of treatment and subsequently the end product. Other parameters like contact time, numbers of stages, etc., are equally important in the treatment of products.

      Disposal of acidic sludge or waste is a serious problem for the refineries. Safe handling of acidic sludge and its disposal is not at all an easy process. Therefore, refineries have avoided acid handling. Older refineries also, which were earlier using acid treating, have also shifted to environmentally safe and less hazardous treating technologies for improving product quality.

      See also: Refining.

      Acid Value

      The acid value (sometimes referred to as the neutralization number, the acid number, or the acidity) is the amount of potassium hydroxide (KOH) in milligrams that is required to neutralize one gram of a chemical substance. It is a measure of the number of carboxylic acid groups СКАЧАТЬ