![]() “At the beginning of the job, we were just demoing the R250C, along with another recycling system,” Krantz explained. With a backlog of large-diameter work, Krantz felt the timing was right to invest in a reclaimer that could help control his fluid management expenses, and the Walt Disney World project is where he first put the R250C to work. ![]() “We’re near the Florida Everglades, so there aren’t a lot of options, and it can get expensive to dispose of drilling fluids, especially on these large-diameter water and sewer jobs.” ![]() “Finding a dumpsite around Southern Florida is a real challenge,” he stated. “I bought our older D100x140 rig used when we first started three years ago, and we put a lot of hours on it – around 1,200 per year, so it was time to retire it,” Krantz said.Īlong with the new HDD unit, Krantz also added a Vermeer R250C reclaimer to help reduce the volume of drilling fluid that needed to be disposed of. Upgradeįor the water bridge project, K3 upgraded from an older D100x140 HDD to the latest S3 model. K3’s Vermeer drill fleet includes two new units – D100x140 S3 and D40x55 S3 Navigator drills – as well as a D60x90 Series II and two D20x40 Series II Navigator drills, and a D9x13 Navigator drill. Spaced about 10 feet apart, each bore is roughly 1,100 feet long and 60-to-80-feet deep through some rock formations. On this particular project, K3 Directional Drilling installed two, 18-inch water mains to run water to the bridge and a 16-inch reclaiming line to help circulate the water. ![]() “All of the work is done at night – the third shift.” “We’ve done 2-, 4- and 6-inch electrical installs for new roller coaster rides and attractions at the parks,” he explained. According to K3 Directional Drilling Vice President Lewis Krantz, his team executes a lot of water, sewer and electrical installations at Walt Disney World. The Stuart, Fla.-based, horizontal directional drilling (HDD) company is responsible for many of the utility upgrades at the Orlando Walt Disney World theme parks. A full field reservoir simulation model was implemented in order to investigate the gas production improvement of the proposed well.įinally it turned out that, though the drilling cost of the bi-lateral well was increased by 37% in comparison with the original monobore well, the total gas production will be improved by 40%.In the wee hours of the morning, long before the sun comes up and tourists line up to visit “The Happiest Place on Earth,” the crew of K3 Directional Drilling Inc., was working on installing new water lines to the water bridge at Walt Disney World Resort, where ferry boats float over buses. In the next step the cost of this well was estimated. The design includes different drilling and completion options. In this study, a bi-lateral well was designed using offset well data and related software. In this case the role of multilateral wells becomes highlighted and those conventional wells can be substituted by their novel multilateral forms. But problem arises here, on the flanks, where the level of WGC is too high that K 3 and K 4 are inundated with water and there is no enough production from two other layers then it calls for finding another way to extend the production period. The reservoir in South Pars field includes four producing layers, K 1, K 2, K 3 and K 4 the ordinary trajectory of wells in this field is a 42 degree slant path that touches all of these layers and it culminates in a commingled production after all. South Pars gas field is located in Persian Gulf and is known as the largest gas field in the world this field is extended into the Qatar territorial water where it is called the North Field. The main motivations for drilling multilateral wells are, to increase drainage area which improves hydrocarbon recovery and then to minimize the cost by sharing the motherbore. Multilateral well technology has been deployed in different parts of the world.
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