Accurately evaluating the quality and scale of deep oil and gas reservoirs is the key to effectively exploring and developing deep oil and gas resources.Changes in temperature and pressure can cause significant variat...Accurately evaluating the quality and scale of deep oil and gas reservoirs is the key to effectively exploring and developing deep oil and gas resources.Changes in temperature and pressure can cause significant variations in key reservoir quality para meters,such as porosity,permeability,and satu ration,leading to distortions in oil and gas reserve assessments.To addresses the technical bottleneck of the existing pressu re-preserved coring systems,which has a pressure-preserved ca pacity not exceed 70 MPa due to the limitations of small coring space,a complex coring environment,significant disturbance during the coring process,and the difficulty in controlling coring operations,a self-sealing control principle and method for pressure-preserved coring was proposed.The sealing structural parameters of the pressure-preserved controller(PPC) under high temperature(150℃) were optimized through experiments and numerical simulations,the sealing failure mechanism was thoroughly revealed,and the pressure-preserved capacity of the PPC under high temperature was enhanced from 100 to 140 MPa.In addition,to achieve the temperature preservation of the core in the deep oil and gas environment,a temperature preservation system combining active and passive temperature preservation was designed and integrated into the deep oil and gas in-situ temperature pressure preserved(ITPP) coring system.Finally,the coring function and temperature pressure preserved capacity of the ITPP coring system were verified through field and laboratory tests.The results show that the developed ITPP coring system can successfully achieve the temperature pressure preserved function,and can sample oil and gas-bearing core samples with a diameter of 50 mm and a maximum length of 1000 mm from wells up to 5000 m.This study addresses the urgent need for reliable and effective pressure-preservation in deep oil and gas exploration.展开更多
[Objectives] The aim was to study the effects of ovarian preservation time on in vitro fertilization of oocytes from slaughtered sheep. [Methods] The collected ovaries were randomly and evenly divided into four groups...[Objectives] The aim was to study the effects of ovarian preservation time on in vitro fertilization of oocytes from slaughtered sheep. [Methods] The collected ovaries were randomly and evenly divided into four groups. They were preserved in physiological saline containing penicillin( 100 IU/ml) and streptomycin( 100 μg/ml) at 15-20 ℃ for 0( Control),6,12 and 18 h,respectively. Then,the oocytes were subjected to in vitro fertilization. [Results]The maturation rates,cleavage rates and blastocyst rates of the oocytes preserved for 6 and 12 h showed no significant differences compared with those of the oocytes preserved for0 h( 72. 03%,70. 87% vs. 73. 68%; 74. 12%,72. 60% vs. 74. 49%; 22. 22%,20. 75% vs. 23. 29%)( P 〉 0. 05). There were also no significant differences in maturation rate,cleavage rate or blastocyst rate between the oocytes preserved for 18 and 0 h( P 〉 0. 05). [Conclusions] Within a certain rage( 0-18 h),storage time of ovary at 15-20 ℃ does not affect the continued development of oocytes from slaughtered sheep.展开更多
基金supported by the National Natural Science Foundation of China (Grant Nos. 524B2040, 2023M742460, and 52304146)。
文摘Accurately evaluating the quality and scale of deep oil and gas reservoirs is the key to effectively exploring and developing deep oil and gas resources.Changes in temperature and pressure can cause significant variations in key reservoir quality para meters,such as porosity,permeability,and satu ration,leading to distortions in oil and gas reserve assessments.To addresses the technical bottleneck of the existing pressu re-preserved coring systems,which has a pressure-preserved ca pacity not exceed 70 MPa due to the limitations of small coring space,a complex coring environment,significant disturbance during the coring process,and the difficulty in controlling coring operations,a self-sealing control principle and method for pressure-preserved coring was proposed.The sealing structural parameters of the pressure-preserved controller(PPC) under high temperature(150℃) were optimized through experiments and numerical simulations,the sealing failure mechanism was thoroughly revealed,and the pressure-preserved capacity of the PPC under high temperature was enhanced from 100 to 140 MPa.In addition,to achieve the temperature preservation of the core in the deep oil and gas environment,a temperature preservation system combining active and passive temperature preservation was designed and integrated into the deep oil and gas in-situ temperature pressure preserved(ITPP) coring system.Finally,the coring function and temperature pressure preserved capacity of the ITPP coring system were verified through field and laboratory tests.The results show that the developed ITPP coring system can successfully achieve the temperature pressure preserved function,and can sample oil and gas-bearing core samples with a diameter of 50 mm and a maximum length of 1000 mm from wells up to 5000 m.This study addresses the urgent need for reliable and effective pressure-preservation in deep oil and gas exploration.
基金Supported by Science and Technology Development Plan Project Jilin Province(20170204037NY)
文摘[Objectives] The aim was to study the effects of ovarian preservation time on in vitro fertilization of oocytes from slaughtered sheep. [Methods] The collected ovaries were randomly and evenly divided into four groups. They were preserved in physiological saline containing penicillin( 100 IU/ml) and streptomycin( 100 μg/ml) at 15-20 ℃ for 0( Control),6,12 and 18 h,respectively. Then,the oocytes were subjected to in vitro fertilization. [Results]The maturation rates,cleavage rates and blastocyst rates of the oocytes preserved for 6 and 12 h showed no significant differences compared with those of the oocytes preserved for0 h( 72. 03%,70. 87% vs. 73. 68%; 74. 12%,72. 60% vs. 74. 49%; 22. 22%,20. 75% vs. 23. 29%)( P 〉 0. 05). There were also no significant differences in maturation rate,cleavage rate or blastocyst rate between the oocytes preserved for 18 and 0 h( P 〉 0. 05). [Conclusions] Within a certain rage( 0-18 h),storage time of ovary at 15-20 ℃ does not affect the continued development of oocytes from slaughtered sheep.
