Texas oil company announces big offshore Alaska discovery – ‘It has the size and scale to play a meaningful role in sustaining the Alaskan oil business over the next three or four decades’
By Dan Joling
5 October 2016 ANCHORAGE, Alaska (Associated Press) – A Texas petroleum drilling company announced Tuesday it has made a large-scale oil discovery off Alaska’s North Slope. Dallas-based Caelus Energy Alaska LLC announced a find of 6 billion barrels of light oil on its state leases in the Arctic Ocean waters of Smith Bay about 450 miles northwest of Fairbanks. Chief Operating Officer Jim Musselman called the discovery exciting for the state, which receives a majority of its revenue from the oil industry. “It has the size and scale to play a meaningful role in sustaining the Alaskan oil business over the next three or four decades,” Musselman said of the discovery in a prepared statement. The Smith Bay development could deliver 200,000 barrels per day of light oil to the trans-Alaska pipeline, increasing volume and reducing the average viscosity of oil, which would help extend its viability, the company said. The discovery is based on 126 square miles of three-dimensional seismic data and a pair of wells drilled this year from ice pads. The company did not have time to flow test either well. The tests detect flow rates and pressure and help assess the capacity of a field. The company did, however, collect extensive side-wall coring that confirmed the presence of quality sandstones containing oil, said spokesman Casey Sullivan in an email response to questions. The wells were less than 2 miles offshore in water just 4 to 6 feet deep. Another appraisal well and seismic work is planned to improve estimates of the oil in place. The Smith Bay complex may hold 10 billion barrels of oil, the company said. [more]
People have been complaining about fracking, but I can see a possible benefit if it is occurring anyway. When the methane gas in natural gas is burned it produces water vapour. Methane is the main constituent of natural gas.
CH4+2O2 gives CO2+2H20. Now convectional rain can be brought about merely by having a piece of darker ground heating up more than surrounding lighter coloured ground (urban heat island, etc). Why not encourage fracking companies to burn the waste gas in long pipes with lots of holes in to form a sort of huge grid with thousands of flames coming out? This will humidify air and could cause convectional rain if relative humidity is high (relative humidity usually increases when air gets colder at night). More trees could be grown with more rain (perhaps in deserts) to offset carbon dioxide made from the "rain enhancement gas grid". See also http://airartist.blogspot.co.za