Heating of Oil Well by Hot Water Circulation

The hot water circulation system in a building is a system which helps prevent Legionella problems whilst ensuring that tenants have access to hot water quickly. Poorly designed or implemented systems not only increase the risk to people’s health and thermal comfort, but even result in an increase in the energy needed for this system to function properly. Results from previous studies showed that the total hot water circulation system loss can be as high as 25 kWh/m2 heated floor area per year. The purpose of this project is to measure the total energy use per year of the hot water circulation system in about 200 multifamily dwellings of different ages to verify that a system loss of 4 kWh/m2, year is a realistic assumption for both newer and older/retrofitted buildings. The preliminary results from the first 134 measurements showed that the assumption of 4 kWh/m2, year is rarely fulfilled. An average energy use of more than three times this is more common, even in newer buildings. Whilst some of the total energy lost is used to heat the buildings, it is not desirable because it is an uncontrolled energy flow.

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Jurassic clay mineral assemblages and their post-depositional alteration: upper Great Estuarine Group, Scotland

Geological Magazine ◽

10.1017/s0016756800016289 ◽

1987 ◽

Vol 124 (3) ◽

pp. 261-271 ◽

Cited By ~ 15

Author(s):

Julian E. Andrews

Keyword(s):

Clay Minerals ◽

Clay Mineral ◽

Mixed Layer ◽

Middle Jurassic ◽

Water Circulation ◽

Hot Water ◽

Geothermal Gradients ◽

Fine Grained ◽

Igneous Intrusions ◽

Mineral Assemblages

AbstractClay minerals from Middle Jurassic lagoonal mudrocks, siltstones and silty fine-grained sandstones of the upper Great Estuarine Group (Bathonian) are divided into four assemblages. Assemblage 1, the most common assemblage, is rich in mixed-layer illite–smectite with attendant illite and kaolinite. Assemblage 2 is dominated by smectitic clay. These assemblages are indicative of primary Jurassic deposition. Illite and kaolinite were probably derived from the weathering of older rocks and soils in the basin hinterland and were deposited in the lagoons as river-borne detritus. The majority of smectite and mixed-layer illite–smectite is interpreted as the argillization product of Jurassic volcanic dust, also deposited in the lagoons by rivers. Near major Tertiary igneous intrusions these depositional clay mineral assemblages have been altered. Assemblage 3 contains smectite-poor mixed-layer illite–smectite, whilst Assemblage 4 contains no smectitic clay at all. Destruction of smectite interlayers occurred at relatively shallow burial depths (< 2500 m) due to enhanced geothermal gradients and local convective hot-water circulation cells associated with the major Tertiary igneous intrusions.

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Successful Application of Hot Water Circulation in the Pelican Lake Field - Results and Analyses of the E29 Hot Water Injection Pilot

10.2118/174491-ms ◽

2015 ◽

Cited By ~ 2

Author(s):

Kirk Duval ◽

Dubert Gutiérrez ◽

Dino Petrakos ◽

Pierre Ollier ◽

Darren Johannson

Keyword(s):

Water Injection ◽

Water Circulation ◽

Hot Water

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Reducing CO 2 emissions in the individual hot water circulation piping system

Energy and Buildings ◽

10.1016/j.enbuild.2014.07.094 ◽

2014 ◽

Vol 84 ◽

pp. 475-482 ◽

Cited By ~ 6

Author(s):

M.C. Lee

Keyword(s):

Water Circulation ◽

Hot Water ◽

Piping System ◽

The Individual

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NORTH PORTAL - HOT WATER CIRCULATION PUMP CALCULATION - SHOP BUILDING #5006

10.2172/891100 ◽

1996 ◽

Author(s):

R. Blackstone

Keyword(s):

Water Circulation ◽

Hot Water ◽

Circulation Pump

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Applications of Geothermal Energy in Space Cooling: A Simulator Study of Existing Oil Well to Activate an Absorption Chiller

ASME 2019 Power Conference ◽

10.1115/power2019-1828 ◽

2019 ◽

Author(s):

Fadi A. Ghaith ◽

Kamal Majlab Wars

Keyword(s):

Water Source ◽

Cooling Capacity ◽

Operating Conditions ◽

Oil Field ◽

Hot Water ◽

Optimum Operating ◽

Oil Well ◽

Absorption Chiller ◽

Space Cooling ◽

Water Feed

Abstract This paper addresses the potential of integrating the existing oil wells and absorption chiller for the purpose of provision space cooling for the base camp of oil field at Block 9 located in Oman. The wellbore was used as a hot water feed to the chiller. Well S 347 was selected as the hot water source and well S 179 was selected to be the injection well for the outlet water. The existing wells were assessed via PIPESIM software. Using PIPESIM software, the fluid temperatures, well pressure and flow rates were obtained and analyzed throughout NODAL analyses. The water temperature of 100 °C, well head pressure of 100 psi and flow rate of 30 m3/h, were found to be the optimum operating parameters. The COP of the absorption chiller was obtained via ABSIM software. The variable operating conditions were investigated and elaborated as a function of the efficiency and capacity ratio. The designed system was configured to yield 0.733 COP and a capacity of 377 KW which met the cooling capacity of the admin building of block 9. The entire feasibility analysis was performed in terms of the overall cost as well as the saving that would be achieved from such homogeneity. The payback period of the entire system was found to be 7 years which emphasized a great potential of adapting the technology if the operating resources are available.

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