Hydrocarbons occupy a vital role in our life and continue to play an important role for many more years to come. We need to follow all technological innovations to continue our productivity standards to achieve our production targets. Let us extend our vision to achieve this mission.

Wednesday, November 28, 2012

API sues EPA over biofuels mandate

The American Petroleum Institute (API) filed a lawsuit in the U.S. Court of Appeals for the District of Columbia late Monday against the Environmental Protection Agency (EPA) for its decision to mandate the use of 1.28 billion gallons of biodiesel in 2013, a 28 percent increase from the 2012 requirement. API also filed a petition for administrative reconsideration of the 2013 biodiesel mandate with EPA.

"EPA's overzealous 2013 biodiesel mandate is unworkable, could raise the costs of making diesel fuel, and should be reduced," said Bob Greco, API group downstream director. "In its final rule, EPA admitted the costs of increasing the biodiesel volume requirement for 2013 outweighed the benefits by as much as $425 million. Furthermore, fraudulent biofuel credits that have plagued the system since last year and have yet to be resolved could inhibit industry's ability to meet EPA's higher biodiesel mandate."

EPA has uncovered more than 140 million invalid renewable fuel credits, known as RINs, generated by three biodiesel companies, representing between 5 and 12 percent of the biodiesel market.

"The fraudulent RIN problem is having, and will continue to have, significant impacts on the biodiesel marketplace that make it more difficult for companies to comply with EPA's mandate," Greco said.

Tuesday, November 27, 2012

Global Crude, Refining and Fuels Outlook to 2035



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Global Crude, Refining and Fuels Outlook to 2035
Live: Tuesday, December 4, 2012
10:00 Washington, D.C. | 13:00 Sao Paulo | 16:00 Brussels | 23:00 Singapore | Duration: 1 hour

The phenomenal growth of shale oil and gas development is rapidly reshaping the global energy paradigm. Devising a strategy to take advantage of this trend is the challenge facing the refining industry now. Hart Energy's refining experts will share their projections of how shale will impact the downstream sector, what's next for the shale boom in North America and how quickly it will spread globally. Energy production and consumption are soaring in China and India, but what about shale development in those countries? In the Atlantic Basin, developments have slowed but remain dynamic.

Refining experts Terry Higgins and Dr. Petr Steiner will discuss the findings of Hart Energy's new study, "Global Crude, Refining and Clean Transportation Fuels Outlook to 2035." The Outlook provides a detailed analysis of key developments impacting market trends in world oil demand and supply, as well as balance in the oil markets.
Join the discussion:
  • Price and economic outlook
  • Crude oil and NGL supply, and quality analysis
  • Petroleum product demand projections
  • Refinery capacity, throughput and blending forecasts
  • Key fuel quality drivers
Register today and prepare your questions for our experts.

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Featured Speakers:

Terry Higgins
Executive Director, Refining & Special Projects, Hart Energy

Dr. Petr Steiner
Director, Refining, Hart Energy

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December 6, 2012 | Houston, TX
Global Crude, Refining & Fuels Outlook to 2035

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Saturday, November 24, 2012

How Does Gas Injection Work?



Typically, a well will produce at its highest production rate at the beginning of the production cycle; and then production will wane. In an effort to increase production from both oil and natural gas wells, secondary production methods are employed. A type of Enhanced Oil Recovery (EOR), secondary production includes water flooding and gas injection

Secondary Production: Gas Injection

Secondary production methods are employed to increase production by boosting depleted pressure in a formation. As the oil or natural gas in a formation is produced, the hydrocarbons remaining in the reservoir may become trapped because the pressure in the formation has lessened, making production either slow dramatically or stop altogether

A form of secondary production, gas injection is used on a well to enhance waning pressure within the formation. Systematically spread throughout the field, gas-injection wells are used to inject gas and effectively sweep the formation for remaining petroleum, boosting production.

Somewhat similar to water injection, or water flooding, gas injection is a pressure maintenance program that can be employed on a reservoir at the start of the production process or introduced after production has already started to lessen. Here, gas is injected into the gas cap of the formation, whereas in water injection, the water is injected directly into the production zone

Cycling in a Natural Gas Reservoir

Sometimes known as cycling, gas injection can entail re-injection of produced natural gas. In this instance, as the pressure drops in a natural gas field, the condensate separates from the dry gas in the reservoir. The condensate liquids block the pores within the reservoir, making extraction practically impossible.

Cycling is used to prevent the condensate from separating from the natural gas in the reservoir. In this process, the natural gas liquids (condensate) are stripped from the gas on the surface after it has been produced from the reservoir, and the dry gas is then re-injected into the reservoir through injection wells. Again, this helps to maintain pressure in the reservoir while also preventing the separation within the hydrocarbon.

Natural Gas Disposal Solution

Additionally, gas injection can serve as an economical way to dispose of uneconomical gas production on an oil reservoir. While in the past, low levels of natural gas that were produced from oil fields were flared or burned off, that practice is discouraged in some countries and against the law in others

Additionally, gas injection can serve as an economical way to dispose of uneconomical gas production on an oil reservoir. While in the past, low levels of natural gas that were produced from oil fields were flared or burned off, that practice is discouraged in some co Now, the low levels of natural gas that are produced from prolific oil fields are re-injected into the formation as form of disposal, as well as pressure maintenance. Here, produced wet gas from oil fields are stripped of their natural gas liquids, compressed and pumped into an injection well.

If the oil field is highly saturated, the natural gas is injected in the free gas cap; but if the oil field is under-saturated, the gas is injected directly into the oil reservoir.

Gas Injection, Gas Lift & Gas Miscible Process

Although the terms are sometimes interchanged, gas injection and gas lift are two separate processes that are used to increase production. While gas injection is a secondary production method, gas lift is a type of artificial lift.

Artificial lift is another way to increase production from a well by increasing pressure within the reservoir. The main types of artificial lift include gas lift and pumping systems, such as beam pumps, hydraulic pumps and electric submersible pumps.

While gas injection is achieved by injecting gas through its own injection well, gas lift occurs through the production wells. In gas lift, compressed gas is injected down the casing tubing annulus of a production well, entering the well at numerous entry points called gas-lift valves. As the gas enters the tubing at these different stages, it forms bubbles, lightens the fluids and lowers the pressure, thus increasing the production rate of the well.

Furthermore, a type of EOR employed on a well in the tertiary production process, a gas miscible process can be used to increase production. The difference in this recovery method is that the gases introduced into the reservoir are not naturally occurring. In a gas miscible process, carbon dioxide, nitrogen and LPG are injected into the reservoir.

 



 

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