Reservoir. The reservoir includes all the porous intervals of to m (from MSL) of 1 well and its lateral equivalents.
Reservoir. Underground stratum or strata, forming part of a Field, which are producing or have been shown to be capable of producing Hydrocarbons, and which have a common pressure system throughout.
Reservoir. An underground accumulation of Hydrocarbons (a) in a single and separate natural pool characterized by a distinct pressure system, (b) not in Hydrocarbon communication with another accumulation of Hydrocarbons, and (c) into which a Producible Well has been drilled.
Reservoir. Any sub-surface rock with hydrocarbon accumulation in its porous space, producing or able to produce hydrocarbons and behaving as an independent unit with respect to petrophysical and fluid properties and having a single pressure system throughout. CHAPTER 11 - EXPLORATION
Reservoir. An underground accumulation of porous and permeable rocks containing hydrocarbons which is bounded either by physical changes within such rocks or by other rocks so as to prevent efficient and effective migration of such hydrocarbons across such boundaries.
Reservoir. Stratum or strata under the surface which may be part of a deposit under production or which has (or have) proven hydrocarbon production capacity, under a common pressure system throughout their entire area.
Reservoir. An underground accumulation of hydrocarbon and minerals comprising a single, separate, naturally contained system characterized by a single pressure.
Reservoir. All rock below the surface, in which Hydrocarbons are accumulated in the pore or fractured spaces, which is producing or is capable of producing Hydrocarbons, and which behaves as an independent unit as to its petrophysical and fluid properties, and has a common pressure system throughout its entire extension. CHAPTER II - EXPLORATION
Reservoir. This is any rock under the surface in which hydrocarbons are accumulated in their pore space, under production or capable of producing Hydrocarbons and behaving as an independent unit in terms of its petrophysical and fluid properties, and having a common pressure system throughout. SWORN TRANSLATION No.30154/Err CHAPTER II- EXPLORATION
Reservoir. The dam of Xxxxxxx Reservoir was completed in 1956. Since that time, water levels have fluctuated greatly. By the end of 1957 the reservoir was full. Also in 1957, the organization of the Xxxxxxx Irrigation District No. 4 was completed. The Irrigation District serves approximately 8,500 acres of cropland between Woodston and Xxxxxxx. The reservoir stayed at or near conservation level only until the early 1960’s. From that time through 1992 the reservoir varied between 20 to 30 feet below conservation level. The reservoir declined due to insufficient inflows from the South Fork Solomon River above the reservoir and irrigation discharges. Reductions in stream flow were due to below average precipitation, the implementation of watershed conservation practices that reduce runoff and the use of underground water for irrigation. The high water events of 1993 and 1995 returned the reservoir to or above conservation level. From 1995 to 2000, sufficient rainfall occurred to maintain the reservoir near conservation level. Drought conditions during the xxxxxxx of 2002 and 2003, minimal spring recharge and continued irrigation discharges had left the reservoir 21 feet below conservation by the end of the 2003 irrigation season. During years of normal and below normal rainfall, the inflow into the reservoir does not compensate for losses of water due to evaporation and irrigation discharges. As a result, water levels decline. Only during years of above average rainfall are water levels maintained or increased in the reservoir. Years of normal rainfall and years of rainfall above and below average are evident at Xxxxxxx. Only years with above average rainfall or cessation of irrigation releases will stop the decline in water levels. In 1998, the staff of the Xxxxxxx Area Office solicited input from the Kansas Water Office and the BOR concerning the possibility of Xxxxxxx Reservoir storing water above the conservation level. A water level management plan for Xxxxxxx Reservoir was then developed, proposed and implemented. The plan permits the reservoir to rise to five percent into flood pool whenever possible. This recharge occurs whenever inflows are sufficient to do so. The positive impacts associated with this plan include: 1) provides a buffer against the effects of irrigation withdrawals; 2) increases productivity of the aquatic environment thereby enhancing the fishery resource; 3) optimizes the economic benefits associated with the sport fishery; 4) increases visit...
