The permeability is a key factor to determine the efficiency of coalbed methane(CBM)production.The borehole enlargement technology using hydraulic and mechanical measures to cut coal is an effective method to increase...The permeability is a key factor to determine the efficiency of coalbed methane(CBM)production.The borehole enlargement technology using hydraulic and mechanical measures to cut coal is an effective method to increase the coal seam permeability and improve the efficiency of gas drainage.Reasonable design of the layout of boreholes is the prerequisite for efficient and economical gas drainage.In this paper,based on the strain-softening model,the stress and permeability model of the coal seam around the enlarged borehole was built,and based on the dual-medium model,the gas migration model in the coal seam was established.Then the borehole enlargement gas drainage engineering of E9/10 coal seam in Pingdingshan No.8 coal mine was simulated by using COMSOL Multiphysics software.The distribution of stress and permeability in the coal seam around a borehole was analyzed,and the reasonable borehole radius of 0.25 m and reasonable borehole spacing of 6 m were determined.Finally,in Pingdingshan No.8 coal mine,field application was carried out in E9/10 coal seam-21070 working face from the high-level gas drainage roadway.The results show that the actual average coal slag discharge rate is 77.82%,which achieved borehole enlargement.The natural gas flow rate from an enlarged borehole is 2.3–7.3 times that of a normal borehole,and the influence range of enlarged boreholes is more than 6 m.The average gas drainage concentration of a group of enlarged boreholes is about 42%,and the average gas drainage amount is about 0.53 m3/min.After two months of gas extraction,the outburst risk in this area was eliminated,which provides a guarantee for safe coal mining.展开更多
To accurately predict the risk of coal and gas outburst and evaluate the reliability of desorption indexes of drilling cuttings(K_(1) andΔh_(2))in No.16 coal seam of Pingmei No.12 coal mine,two sets of coal samples w...To accurately predict the risk of coal and gas outburst and evaluate the reliability of desorption indexes of drilling cuttings(K_(1) andΔh_(2))in No.16 coal seam of Pingmei No.12 coal mine,two sets of coal samples were selected from the target coal seams for proximate analyses,methane adsorption/desorption tests,and desorption indexes of drilling cuttings tests.The results indicated that the desorption volume in the initial stage of desorption is large,and increases slowly in the later stage.The methane desorption volume of PMD1 and PMD2 coal samples accounts for 15.14%-18.09%and 15.72%-18.17%respectively in the first 1 min,and 43.92%-48.55%and 41.87%-52.25%respectively in the first 10 min in the 120 min desorption tests.Both K_(1) andΔh_(2) present power function relationships with methane pressure.Similarly,the power function relationships also can be found between the initial desorption characteristics(Q1 and Q4-5)and the methane pressure.Finally,the average relative error between the measured value and the calculated value of Q1 based on K_(1) is less than that of Q4-5 based onΔh_(2),which indicates that K_(1) is a more reliable index thanΔh_(2) to predict the risk of coal and gas outburst in the No.16 coal seam of Pingmei No.12 coal mine.展开更多
The stimulator of interferon genes(STING)protein is an important and promising innate immune target for tumor therapy.However,the instability of the agonists of STING and their tendency to cause systemic immune activa...The stimulator of interferon genes(STING)protein is an important and promising innate immune target for tumor therapy.However,the instability of the agonists of STING and their tendency to cause systemic immune activation is a hurdle.The STING activator,cyclic di-adenosine monophosphate(CDA),produced by the modified Escherichia coli Nissle 1917,shows high antitumor activity and effectively reduces the systemic effects of the“off-target”caused by the activation of the STING pathway.In this study,we used synthetic biological approaches to optimize the translation levels of the diadenylate cyclase that catalyzes CDA synthesis in vitro.We developed 2 engineered strains,CIBT4523 and CIBT4712,for producing high levels of CDA while keeping their concentrations within a range that did not compromise the growth.Although CIBT4712 exhibited stronger induction of the STING pathway corresponding to in vitro CDA levels,it had lower antitumor activity than CIBT4523 in an allograft tumor model,which might be related to the stability of the surviving bacteria in the tumor tissue.CIBT4523 exhibited complete tumor regression,prolonged survival of mice,and rejection of rechallenged tumors,thus,offering new possibilities for more effective tumor therapy.We showed that the appropriate production of CDA in engineered bacterial strains is essential for balancing antitumor efficacy and self-toxicity.展开更多
基金supported by the Assistance Program for Future Outstanding Talents of China University of Mining and Technology(No.2020WLJCRCZL041)the Postgraduate Research&Practice Innovation Program of Jiangsu Province(No.SJCX20_0816).
文摘The permeability is a key factor to determine the efficiency of coalbed methane(CBM)production.The borehole enlargement technology using hydraulic and mechanical measures to cut coal is an effective method to increase the coal seam permeability and improve the efficiency of gas drainage.Reasonable design of the layout of boreholes is the prerequisite for efficient and economical gas drainage.In this paper,based on the strain-softening model,the stress and permeability model of the coal seam around the enlarged borehole was built,and based on the dual-medium model,the gas migration model in the coal seam was established.Then the borehole enlargement gas drainage engineering of E9/10 coal seam in Pingdingshan No.8 coal mine was simulated by using COMSOL Multiphysics software.The distribution of stress and permeability in the coal seam around a borehole was analyzed,and the reasonable borehole radius of 0.25 m and reasonable borehole spacing of 6 m were determined.Finally,in Pingdingshan No.8 coal mine,field application was carried out in E9/10 coal seam-21070 working face from the high-level gas drainage roadway.The results show that the actual average coal slag discharge rate is 77.82%,which achieved borehole enlargement.The natural gas flow rate from an enlarged borehole is 2.3–7.3 times that of a normal borehole,and the influence range of enlarged boreholes is more than 6 m.The average gas drainage concentration of a group of enlarged boreholes is about 42%,and the average gas drainage amount is about 0.53 m3/min.After two months of gas extraction,the outburst risk in this area was eliminated,which provides a guarantee for safe coal mining.
基金the financial support from the National Natural Science Foundation of China(No.51874294,52034008).
文摘To accurately predict the risk of coal and gas outburst and evaluate the reliability of desorption indexes of drilling cuttings(K_(1) andΔh_(2))in No.16 coal seam of Pingmei No.12 coal mine,two sets of coal samples were selected from the target coal seams for proximate analyses,methane adsorption/desorption tests,and desorption indexes of drilling cuttings tests.The results indicated that the desorption volume in the initial stage of desorption is large,and increases slowly in the later stage.The methane desorption volume of PMD1 and PMD2 coal samples accounts for 15.14%-18.09%and 15.72%-18.17%respectively in the first 1 min,and 43.92%-48.55%and 41.87%-52.25%respectively in the first 10 min in the 120 min desorption tests.Both K_(1) andΔh_(2) present power function relationships with methane pressure.Similarly,the power function relationships also can be found between the initial desorption characteristics(Q1 and Q4-5)and the methane pressure.Finally,the average relative error between the measured value and the calculated value of Q1 based on K_(1) is less than that of Q4-5 based onΔh_(2),which indicates that K_(1) is a more reliable index thanΔh_(2) to predict the risk of coal and gas outburst in the No.16 coal seam of Pingmei No.12 coal mine.
基金This work was supported in part by the National Natural Science Foundation of China(21825804)the National Science and Technology Major Project“Key New Drug Creation and Manufacturing Program,”China(2018ZX09711002–019)+2 种基金the Shanghai Municipal Science and Technology Major Project,the Lingang Laboratory(LG202103–02–08)the Shanghai Municipal Science and Technology Major Project,the Natural Science Foundation of China for Innovation Research Group(81821005 to M.G.)the Collaborative Innovation Cluster Project of Shanghai Municipal Commission of Health and Family Planning(2020CXJQ02).A。
文摘The stimulator of interferon genes(STING)protein is an important and promising innate immune target for tumor therapy.However,the instability of the agonists of STING and their tendency to cause systemic immune activation is a hurdle.The STING activator,cyclic di-adenosine monophosphate(CDA),produced by the modified Escherichia coli Nissle 1917,shows high antitumor activity and effectively reduces the systemic effects of the“off-target”caused by the activation of the STING pathway.In this study,we used synthetic biological approaches to optimize the translation levels of the diadenylate cyclase that catalyzes CDA synthesis in vitro.We developed 2 engineered strains,CIBT4523 and CIBT4712,for producing high levels of CDA while keeping their concentrations within a range that did not compromise the growth.Although CIBT4712 exhibited stronger induction of the STING pathway corresponding to in vitro CDA levels,it had lower antitumor activity than CIBT4523 in an allograft tumor model,which might be related to the stability of the surviving bacteria in the tumor tissue.CIBT4523 exhibited complete tumor regression,prolonged survival of mice,and rejection of rechallenged tumors,thus,offering new possibilities for more effective tumor therapy.We showed that the appropriate production of CDA in engineered bacterial strains is essential for balancing antitumor efficacy and self-toxicity.
