(rectangles barely visible in chart). Some harmful impacts of petroleum can be limited to the geographic locations where it is produced, consumed, and/or disposed. In many cases, the impacts may be reduced to safe levels when consumers practice responsible use and disposal. Producers of specific products can further reduce the impacts through
life cycle assessment and
environmental design practices.
Air pollution from a truck
Exhaust emissions Emissions from the petroleum industry occur in every chain of the oil-producing process from the extraction to the consumption phase . In the extraction phase,
gas venting and
flaring release not only
methane and
carbon dioxide, but various other pollutants like
nitrous oxides and
aerosols. Certain by-products include
carbon monoxide and
methanol. When oil or petroleum distillates are combusted, usually the
combustion is not complete and the chemical reaction leaves by-products which are not water or carbon dioxide. However, despite the large amounts of pollutants, there is variation in the amount and concentration of certain pollutants. Petroleum hydrocarbons such as gasoline, diesel, or jet fuel intruding into indoor spaces from underground storage tanks or brownfields threaten safety (e.g., explosive potential) and causes adverse health effects from inhalation.
Acid rain The combustion process of
petroleum,
coal and
wood is responsible for increased occurrence of acid rain. Combustion causes an increased amount of
nitrous oxide, along with
sulfur dioxide from the sulfur in the oil. These by-products combine with water in the atmosphere to create acid rain. The increased concentrations of nitrates and other acidic substances have significant effects on the
pH levels of rainfall. Data samples analyzed from the
United States and
Europe from the past 100 years and showed an increase in nitrous oxide emissions from combustion. The emissions were large enough to acidify the rainfall. The acid rain has adverse impacts on the larger ecosystem. For example, acid rain can kill trees, and can kill fish by acidifying lakes.
Coral reefs are also destroyed by acid rain. Acid rain also leads to the corrosion of machinery and structures (large amounts of capital) and to the slow destruction of archeological structures like the marble ruins of
Rome and
Greece.
Oil spills An oil spill is the release of a
liquid petroleum hydrocarbon into the environment, especially marine areas, due to human activity, and is a form of pollution. The term is usually applied to
marine oil spills, where oil is released into the
ocean or
coastal waters, but spills may also occur on land. Oil spills may be due to releases of
crude oil from
tankers, pipelines, railcars,
offshore platforms,
drilling rigs and
wells, as well as spills of
refined petroleum products (such as
gasoline,
diesel) and their by-products, heavier fuels used by large ships such as
bunker fuel, or the spill of any oily refuse or
waste oil. Major oil spills include,
Lakeview Gusher,
Gulf War oil spill, and the
Deepwater Horizon oil spill. Spilt oil penetrates into the structure of the
plumage of birds and the
fur of mammals, reducing its insulating ability, and making them more vulnerable to temperature fluctuations and much less
buoyant in the water. Cleanup and recovery from an oil spill is difficult and depends upon many factors, including the type of oil spilled, the temperature of the water (affecting evaporation and biodegradation), and the types of shorelines and beaches involved. Other factors influencing the rate of long-term contamination is the continuous inputs of petroleum residues and the rate at which the environment can clean itself Spills may take weeks, months or even years to clean up.
Waste oil Waste oil is oil containing not only breakdown products but also impurities from use. Some examples of waste oil are used oils such as
hydraulic oil, transmission oil, brake fluids,
motor oil,
crankcase oil,
gear box oil and
synthetic oil. Many of the same problems associated with natural petroleum exist with waste oil. When waste oil from vehicles drips out engines over streets and roads, the oil travels into the water table bringing with it such toxins as
benzene. This poisons both soil and drinking water. Runoff from storms carries waste oil into rivers and oceans, poisoning them as well.
Produced water and drilling waste discharges Produced water (PW) discharges from petroleum extraction results in PAH (
Poly-aromatic Hydrocarbon) emission in the ocean. Approximately 400 million tons of PW discharge is released annually from oil-fields in the North Sea, UK and Norwegian discharges combined. PW discharge is the largest emission event in the marine environment world and it is a result of offshore oil and gas production. The composition of materials in the PW depends on the characteristics of the region. However, PW mainly contains a mixture of a few select products such as formation water, oil, gas, brine water and added chemicals. Just like PW, formation water composition also depends on its surroundings although, it mainly consists of dissolved inorganic and organic compounds. PW was responsible for releasing 129 tons of PAHs in 2017. Due to the presence of harmful chemicals in PW, it is responsible for evoking toxic responses in the surrounding environment. For example, surveys done in the
Norwegian Continental Shelf (NCS) found that PAHs released by PW were responsible for biological changes in mussel and Atlantic cod. Formation of PAH burden caused DNA damage and digestive-gland histochemistry in mussel. PAHs also pose a serious threat to human health. Long term exposure to PAHs have been linked to a series of health problems such as
lung,
skin,
bladder,
gastrointestinal cancer. ==Global impacts==