Performance Test of Large Size Valves with Co-free Seat Materials for High Temperature and High Pressure Services

A high temperature and high pressure reaction autoclave for petroleum bullets performance test is designed in this paper. Heat transfer in both vertical and horizontal reaction autoclave structure is analyzed and calculated. Considering system heat loss, heating power of these two kinds of devices is calculated in different test time. Meanwhile, temperature fields in these two kinds of autoclave are simulated. According to the comparison result, the authors come to the conclusion that temperature field in vertical reaction autoclave is uniform and can meet design demand with a temperature difference less than ±5°C. Horizontal reaction autoclave in which there are small eddies in air interlayer cannot meet demand because eddies enhance the convection heat transfer in local area. Based on this conclusion, a reasonable reaction autoclave structure can be designed.

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Experimental Analysis & Optimization with Validation of Ball Valve Body of WCB Material

International Journal for Research in Applied Science and Engineering Technology ◽

10.22214/ijraset.2021.37403 ◽

2021 ◽

Vol 9 (VIII) ◽

pp. 480-491

Author(s):

Agre Virbhadra Dhanraj

Keyword(s):

High Pressure ◽

High Temperature ◽

Safety Issue ◽

Strain Analysis ◽

Ball Valve ◽

The Body ◽

Field Analysis ◽

Valve Body ◽

Large Size ◽

Minimum Stress

The ball valves are used in place of pipelines where the flow of fluid is needed. Ball valves have been mostly used for high temperature and high pressure valves which requires high quality products with confidentiality, reliability and durability. The ball has a bore or passage through the middle, so that when the port is in line with both ends of the valve, the flow of fluid will occur. When the valve is closed, the hole is perpendicular to the ends of the valve, and the flow is closed. The ball valve can revolve 90°, which has large size and weight, but it has not only an enormously more excellent confidentiality than other valves in the severely high temperature and high pressure environment When the ball valve is in closed condition the pressure exerted on the ball valve body due to that high pressure fatigue stresses and strain develop on the body of valve. Because of the high pressure and temperature on the ball valve body leakage of body take place which cause safety issue and ball valve failure. By this research stress strain analysis of ball valve body obtains and identifies the maximum and minimum stress and strain produced on the body of ball valve. The Max stress by parts was confirmed through thermal-structural coupled field analysis of major parts to evaluate safety. The objective of this research is to examine the effect of pressure and temperatures on valve components its analysis and optimization

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How to Seal Hydraulic Fracturing Boreholes in the Large-Size HDR Rocks under HTHP Conditions

Lithosphere ◽

10.2113/2021/8050488 ◽

2021 ◽

Vol 2021 (Special 5) ◽

Author(s):

Zhang Hongwei ◽

Wan Zhijun ◽

Yixin Zhao ◽

Zhou Changbing ◽

Zhu Chuanqi ◽

...

Keyword(s):

High Pressure ◽

High Temperature ◽

Hydraulic Fracturing ◽

Laboratory Test ◽

Heat Production ◽

Injection Pressure ◽

Large Size ◽

High Injection ◽

High Injection Pressure ◽

Sealing Failure

Abstract The hydraulic fracturing (HF) is a key technique to enhance the permeability and heat production of hot-dry-rock (HDR) geothermal reservoirs. Normally, laboratory HF tests should be preconducted to understand the HF characteristics of HDR samples. However, in the laboratory test, sealing failure between boreholes and injection pipes always limits the experimental efficiency and data accuracy, especially for the HF tests under high-temperature and high-pressure (HTHP) conditions. Traditional sealing methods, such as rubber and cement sealing, are easy to be failed because of their poor load and/or thermal bear performance under HTHP conditions. Therefore, in this study, we proposed a novel HTHP seal by using wedge-buckled copper components and steel rings. The sealing efficiency was verified by successfully conducting the HF tests of HDR rocks with a dimension of φ200×400 mm under various high temperatures ranging from 100°C to 400°C. As expected, the unfavorable factors such as HTHP and high injection pressure could be turned into favorable ones during the introduced seal method. By this investigation, we expect to provide some sealing solutions for researchers when conducting HF tests under HTHP environments.

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New assembly design suitable for tower-shaped large size single-crystal diamond growth under high pressure and high temperature

CrystEngComm ◽

10.1039/c6ce02164f ◽

2017 ◽

Vol 19 (1) ◽

pp. 137-141 ◽

Cited By ~ 7

Author(s):

Yadong Li ◽

Xiaopeng Jia ◽

Ning Chen ◽

Liangchao Chen ◽

Longsuo Guo ◽

...

Keyword(s):

High Pressure ◽

High Temperature ◽

Single Crystal ◽

Diamond Growth ◽

Assembly Design ◽

Large Size ◽

Single Crystal Diamond

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Performance Test of Vitiated Air Heater with High Temperature and High Pressure

Journal of the Korean Society of Propulsion Engineers ◽

10.6108/kspe.2018.22.4.068 ◽

2018 ◽

Vol 22 (4) ◽

pp. 68-75

Author(s):

Jungmin Lee ◽

Jaejeoung Na ◽

Yunky Hong ◽

Jeongwoo Kim

Keyword(s):

High Pressure ◽

High Temperature ◽

Performance Test ◽

Air Heater

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Microstructural Study of Diamond Deformed Under High Pressure and Temperature

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100118072 ◽

1985 ◽

Vol 43 ◽

pp. 230-231

Author(s):

E. F. Koch

Keyword(s):

High Pressure ◽

High Temperature ◽

Lattice Structure ◽

Diamond Particle ◽

Polycrystalline Diamond ◽

Sintering Process ◽

Ion Milling ◽

Sintered Compact ◽

Transmission Electron ◽

High Pressure Sintering

Because of the extremely rigid lattice structure of diamond, generating new dislocations or moving existing dislocations in diamond by applying mechanical stress at ambient temperature is very difficult. Analysis of portions of diamonds deformed under bending stress at elevated temperature has shown that diamond deforms plastically under suitable conditions and that its primary slip systems are on the ﹛111﹜ planes. Plastic deformation in diamond is more commonly observed during the high temperature - high pressure sintering process used to make diamond compacts. The pressure and temperature conditions in the sintering presses are sufficiently high that many diamond grains in the sintered compact show deformed microtructures.In this report commercially available polycrystalline diamond discs for rock cutting applications were analyzed to study the deformation substructures in the diamond grains using transmission electron microscopy. An individual diamond particle can be plastically deformed in a high pressure apparatus at high temperature, but it is nearly impossible to prepare such a particle for TEM observation, since any medium in which the diamond is mounted wears away faster than the diamond during ion milling and the diamond is lost.

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