More petroleum holdings US

Petroleum

The UK petroleum industry, also referred to as downstream, consists of over 200 companies involved in the refining, distribution and marketing of petroleum products. They range from large, multinational oil companies, supermarket chains and independent retail groups, through to the independent retailer with a single site.

The main product of the downstream industry is transport fuel. This market is split into commercial and retail. The commercial market includes power generators, industrial, transport and agriculture customers, independent fuel distributors, the government and its agencies, public services and the military. The retail market covers fuels mainly sold from high street filling stations. The downstream petroleum industry employs over 150,000 people directly, and several thousands of contract workers. The workforce is mainly employed in stabilising, refining and manufacturing, and in forecourt retailing activities.

Environmental concerns

Increased public concerns about environmental disasters and the effects of fossil fuels on global warming have sharpened the industry’s focus on environmental and safety issues. As the demand for energy grows so do concerns about the impact on the environment.

The UKOOA Sustainability Strategy Update and Progress Report 2005 details the industry’s progress in developing and implementing a sustainability strategy, and the Offshore Oil and Pollution Prevention and Control Regulations 2005, indicate that protection of the environment is high on the agenda of all oil companies. Environmental management now forms a key part of the decision-making process.

Recent improvements include:

• use of ultrasonic leak detection to reduce gas flare losses;
• introduction of more thermally efficient power plants on platforms;
• installation of simultaneous steam and electricity production facilities in refineries to reduce carbon dioxide emissions;
• work with conservation organisations to preserve habitats that will allow species to flourish;
• investments in new technology to maximise output from existing fields.

The offshore industry produces 80% of the UK’s primary energy. It also generates 3% of the country’s carbon dioxide and methane emissions

January 16, 2008 Posted by uspetroleumholding | Holding, holdings, oil | Petroleum Holdings, us petroleum holdings | No Comments Yet

Uses of Gas Oil

Us Petroleum Holdings Oil has many uses; it heats homes and businesses and fuels trucks, ships and some cars. A small amount of electricity is produced by diesel, but it is more polluting and more expensive than natural gas. It is often used as a backup fuel for peaking power plants in case the supply of natural gas is interrupted or as the main fuel for small electrical generators. In Europe the use of diesel is generally restricted to cars (about 40%), SUVs (about 90%), and trucks (virtually all). The market for home heating using fuel oil, called heating oil, has decreased due to the widespread penetration of natural gas. However, it is very common in some areas, such as the Northeastern United States.

Residual fuel oil is less useful because it is so viscous that it has to be heated with a special heating system before use and it contains relatively high amounts of pollutants, particularly sulfur, which forms sulfur dioxide upon combustion. However, its undesirable properties make it very cheap. In fact, it is the cheapest liquid fuel available. Since it requires heating before use, residual fuel oil cannot be used in road vehicles, boats or small ships, as the heating equipment takes up valuable space and makes the vehicle heavier. Heating the oil is also a delicate procedure, which is inappropriate to do on small, fast moving vehicles. However, power plants and large ships are able to use residual fuel oil.

Residual fuel oil was used more frequently in the past. It powered boilers, railroad locomotives and steamships. Locomotives now use diesel, steamships are still used however are not as common as they were previously due to their higher operating costs, (most LNG carriers use steam plants as boil off gas emitted from the cargo can be used as a fuel source), and most boilers now use heating oil or natural gas. However, some industrial boilers still use it and so do a few old buildings, mostly in New York City. Residual fuel’s use in electricity generation has also decreased. In 1973, residual fuel oil produced 16.8% of the electricity in the United States. By 1983, it had fallen to 6.2%, and as of 2005, electricity production from all forms US Petroleum Holdings of petroleum, including diesel and residual fuel, is only 3% of total production. The decline is the result of price competition with natural gas and environmental restrictions on emissions. For power plants, the costs of heating the oil, extra pollution control and additional maintenance required after burning it often outweigh the low cost of the fuel. Burning fuel oil, particularly residual fuel oil, also produces much darker smoke than natural gas, which affects the perception of the plant by the community.

Heavy fuel oils continue to be used in the boiler “lighting up” facility in every coal-fired power plant, of which there are a small number in the UK and dozens in China. Although on an enormous scale, it is analogous to lighting kindling to start a fire – without performing this simple function it is difficult to begin the large-scale combustion process.

The chief drawback to residual fuel oil is its high initial viscosity, particularly in the case of No. 6 oil, which requires a correctly engineered system for storage, pumping, and burning. Though it is still usually lighter than water (with a specific gravity usually ranging from 0.95 to 1.03) it is much heavier and more viscous than No. 2 oil, kerosene, or gasoline. No. 6 oil must, in fact, be stored at around 100°F (37.8°C) heated to 150°F (65.6°C)–250°F (121.1°C) before it can be easily pumped, and in cooler temperatures it can congeal into a tarry semisolid. The flash point of most blends of No. 6 oil is, incidentally, about 150°F (65.6°C). Attempting to pump high-viscosity oil at low temperatures was a frequent cause of damage to fuel lines, furnaces, and related equipment which were often designed with lighter fuels in mind.

(For comparison, BS2869 Class G Heavy Fuel Oil behaves in similar fashion, requiring storage at 104°F (40°C), pumping at around 122°F (50°C) and finalising for burning at around 194°F (90°C) / 248°F (120°C).)

Most of the facilities which historically burned No. 6 or other residual oils were industrial plants and similar facilities constructed in the early or mid 20th century, or which had switched from coal to oil fuel during the same time period. In either case, residual oil was seen as a good prospect because it was cheap and readily available, even though it provided less energy per litre than lighter fuels. Most of these facilities have subsequently been closed and demolished, or have replaced their fuel supplies with a simpler one such as gas or No. 2 oil. The high sulfur content of No. 6 oil– up to 3% by weight in some extreme cases– had a corrosive effect on many heating systems (which were usually designed without adequate corrosion protection in mind), shortening their lifespans and increasing the polluting effects. This was particularly the case in furnaces that were regularly shut down and allowed to go cold; the internal condensation produced sulfuric acid.

Environmental cleanups at such facilities are frequently complicated by the use of asbestos insulation on the fuel feed lines. No. 6 oil is very persistent, and does not degrade rapidly. Its viscosity and stickiness also make remediation of underground contamination very difficult, since it reduces the effectiveness of methods such as air-stripping.

When released into water, such as a river or ocean, residual oil tends to break up into patches or tarballs– mixtures of oil and particulate matter such as silt and floating organic matter- rather than form a single slick. An average of about 5-10% of the material will evaporate within hours of the release, primarily the lighter hydrocarbon fractions. The remainder will then often sink to the bottom of the water column.

January 13, 2008 Posted by uspetroleumholding | Holding, Petroleum, Petroleum Holdings, Petroleum-Holding, gas | gas, oil, us petroleum holdings | No Comments Yet

US Petroleum holdings a Recent Outlook

Energy Information Administration
Official Energy Statistics from the U.S. GovernmentTrends in energy supply and demand are affected by many factors that are difficult to predict, such as energy prices, U.S. economic growth, advances in technologies, changes in weather patterns, and future public policy decisions. It is clear, however, that energy markets are changing gradually in response to such readily observable factors as the higher energy prices that have been experienced since 2000, the greater influence of developing countries on worldwide energy requirements, recently enacted legislation and regulations in the United States, and changing public perceptions of issues related to the use of alternative fuels, emissions of air pollutants and greenhouse gases, and the acceptability of various energy technologies, among others The Energy Information Administration projects increased consumption of biofuels (both ethanol and biodiesel), growth in coal-to-liquids (CTL) capacity and production, growing demand for unconventional transportation technologies (such as flex-fuel, hybrid, and diesel vehicles), growth in nuclear power capacity and generation, and accelerated improvements in energy efficiency throughout the economy.

Despite the rapid growth projected for biofuels and other nonhydroelectric renewable energy sources and the expectation that orders will be placed for new nuclear power plants for the first time in more than 25 years, oil, coal, and natural gas still are projected to provide roughly the same 86-percent share of the total U.S. primary energy supply in 2030 that they did in 2005 (assuming no changes in existing laws and regulations). The expected rapid growth in the use of biofuels and other nonhydropower renewable energy sources begins from a very low current share oftotal energy use; hydroelectric power production, which accounts for the bulk of current renewable electricity supply, is nearly stagnant; and the share of total electricity supplied from nuclear power falls despite the projected new plant builds, which more than offset retirements, because the overall market for electricity continues to expand rapidly in the projection.

January 12, 2008 Posted by uspetroleumholding | Holding, Petroleum-Holding, gas | gas, Holding, Petroleum, us | No Comments Yet

History of oil

The modern history of petroleum began in 1846, with the discovery of the process of refining kerosene from coal by Atlantic Canada’s Abraham Pineo Gesner. Poland’s Ignacy Lukasiewicz discovered a means of refining kerosene from the more readily available “rock oil” (“petroleum”) in 1852 and the first rock oil mine was built in Bra, near Krosno, in southern Poland in the following year. These discoveries rapidly spread around the world, and Meerzoeff built the first Russian refinery in the mature oil fields at Baku in 1861. At that time, Baku produced about 90% of the world’s oil. The battle of Stalingrad was fought over Baku (now the capital of the Azerbaijan Republic ).

In the 8th century, the streets of the newly constructed Baghdad were paved with tar, derived from easily accessible petroleum from natural fields in the region. In the 9th century, oil fields were exploited in Baku, Azerbaijan, to produce naphtha. These fields were described by the geographer Masudi in the 10th century, and by Marco Polo in the 13th century, who described the output of those wells as hundreds of shiploads.

The first commercial oil well drilled in North America was in Oil Springs, Ontario, Canada in 1858, dug by James Miller Williams. The American petroleum industry began with Edwin Drake’s discovery of oil in 1859, near Titusville, Pennsylvania. The industry grew slowly in the 1800s, driven by the demand for kerosene and oil lamps. It became a major national concern in the early part of the 20th century; the introduction of the internal combustion engine provided a demand that has largely sustained the industry to this day. Early “local” finds like those in Pennsylvania and Ontario were quickly exhausted, leading to “oil booms” in Texas, Oklahoma and California.

By 1910, significant oil fields had been discovered in Canada (specifically, in the province of Alberta), the Dutch East Indies (1885, in Sumatra), Persia (1908, in Masjed Soleiman), Peru, Venezuela, and Mexico, and were being developed at an industrial level.

Even until the mid-1950s, coal was still the world’s foremost fuel, but oil quickly took over. Following the 1973 energy crisis and the 1979 energy crisis, there was significant media coverage of oil supply levels. This brought to light the concern that oil is a limited resource that will eventually run out, at least as an economically viable energy source. At the time, the most common and popular predictions were always quite dire, and when they did not come true, many dismissed all such discussion. The future of petroleum as a fuel remains somewhat controversial. USA Today news (2004) reports that there are 40 years of petroleum left in the ground. Some would argue that because the total amount of petroleum is finite, the dire predictions of the 1970s have merely been postponed. Others argue that technology will continue to allow for the production of cheap hydrocarbons and that the earth has vast sources of unconventional petroleum reserves in the form of tar sands, bitumen fields and oil shale that will allow for petroleum use to continue in the future, with both the Canadian tar sands and United States shale oil deposits representing potential reserves matching existing liquid petroleum deposits worldwide.

Today, about 90% of vehicular fuel needs are met by oil. Petroleum also makes up 40% of total energy consumption in the United States, but is responsible for only 2% of electricity generation. Petroleum’s worth as a portable, dense energy source powering the vast majority of vehicles and as the base of many industrial chemicals, makes it one of the world’s most important commodities. Access to it was a major factor in several military conflicts, including World War II and the Persian Gulf War. About 80% of the world’s readily accessible reserves are located in the Middle East, with 62.5% coming from the Arab 5: Saudi Arabia (12.5%), UAE, Iraq, Qatar and Kuwait. The USA has less than 3%.

January 12, 2008 Posted by uspetroleumholding | Holding, Petroleum, Petroleum-Holding, gas | gas, Holding, Petroleum | No Comments Yet

Holdings Petroleum from US

Traditionally, the oil prospecting business has been considered highly speculative and somewhat risky on many levels. We most certainly recognize this factor and have taken every means necessary to address these issues. There are several factors in the oil business that have changed over the last 10 years.First and foremost, technology has improved to the point where geological surveys below the earth’s surface, utilizing the latest state-of-the-art penetration devices, can give extremely accurate pictures of oil deposits. Not only are we now able to pinpoint where the oil is, but determine with great accuracy approximately how much oil is there.

Second, the price increase in oil over the last ten years has allowed the industrial sector and the US government to push for domestic production of oil. While in the early 1990’s the price of oil was relatively low, therefore it was not cost effective to pursue domestic drilling programs. Today, with oil hitting lifetime highs resurgence in domestic drilling is taking place and creating a new frontier for those who are willing to make an investment, which has the potential to be extraordinarily lucrative.

Third, and finally RISK! In the post WWII era, drilling for oil as an independent or as a “wildcater” proved in many cases to be a boom-bust proposition. Now with market price and technology, as two driving forces, there is no reason not to be able to extract oil from a proven reserve well site. The big question is simply “how much oil” will be derived from a site. US Petroleum Holdings is not in the business of taking unnecessary risk. All the sites we are involved in have proven reserves – but that may not be enough. Consequently, we have implemented a risk management system through an advanced asset allocation program.

Generally, Risk Management is the process of measuring, or assessing risk and then developing strategies to manage the risk. In general, the strategies employed include transferring the risk to another party, avoiding the risk, reducing the negative effect of the risk, and accepting some or all of the consequences of a particular risk.

January 12, 2008 Posted by uspetroleumholding | General, Holding, Petroleum | holdings, Petroleum, question, work | No Comments Yet

US petroleum holdings

US Petroleum Holdings, Corp. is an independent energy company engaged in the procurement, exploitation, development, acquisition and operation of oil and natural gas properties with a geological focus in the United States. The company has implemented a business strategy that emphasizes development opportunities where the company has acquired several properties within a general area with proven reserves.

The recent up trend in the oil and natural gas market has resulted in sector investments becoming extremely beneficial. Consequently, the company has sought to procure working interests in properties that are either currently producing or will produce crude oil and natural gas within the next quarter.

Our projects implement and utilize the most innovative, state-of-the-art and cost-effective technologies that can profitably recover oil and natural gas as well as extend the productive life of US domestic reserves, reducing the reliance on energy imports.

January 11, 2008 Posted by uspetroleumholding | Holding, Petroleum | Holding, Petroleum | No Comments Yet