1) near-critical reservoir
近临界油气藏
2) critical oil(gas) film thickness
临界油(气)膜厚度
3) subcritical water
近临界水
1.
Study on hydrolysis technology for amino acid production and hydrolysate decoloration from biomass waste in subcritical water;
近临界水中生物质固体废弃物水解制备氨基酸及水解液脱色研究
2.
Study on fish proteins hydrolysis in subcritical water and hydrolysate decoloration;
近临界水中鱼蛋白水解及水解液脱色研究
3.
The reaction conditions and chemical dynamics of diosgenin production from dioscin hydrolysis in subcritical water without c.
在近临界水中研究了薯蓣皂苷水解成薯蓣皂苷元的工艺和反应动力学,分别考察了反应温度、压力、时间等因素对薯蓣皂苷元收率的影响。
4) near-critical water
近临界水
1.
Comparison of hydrolysis kinetics of different vegetable oils in near-critical water;
不同植物油脂在近临界水中水解反应动力学的比较
2.
Research on self-base catalytic hydrolysis of iminodiacetonitrile in near-critical water;
近临界水自催化下亚氨基二乙腈水解反应研究
3.
A study on degradation of chitosan in near-critical water and distributing orderliness of products;
壳聚糖在近临界水中降解及其工艺研究
5) near critical
近临界
1.
The petroleum exploration pushes the frontier to deeper strata with more near critical fluids.
本研究应用无汞 PVT相态实验装置测定了一个六组分烃类混合物和两个实际凝析气流体的监界点、近临界泡点和露点线 ,观察并记录了流体在近临界区的光学现象和异常的两次相变过程。
2.
The highest wall temperature after heat transfer deterioration is predicted using heat transfer deterioration experimental association formula when the supercritical boiler runs at near critical pressure zones,which provides more reliable reference data for the boiler safe and stable operation.
采用传热恶化试验关联式,预测了超临界锅炉运行在近临界压力区发生传热恶化后的最高管壁温度,为锅炉的安全运行提供了比较可靠的参考数据。
6) near critical water
近临界水
1.
Optimization of hydrolysis of prickly ash seed oil in near critical water by response surface methodology
响应面优化法研究花椒籽油在近临界水中的水解
2.
Levulinic acid,which may be prepared from biomass hydrolysis in near critical water,is possible to become a new-type platform chemical from biomass.
实验测定了压力10MPa、温度220~280℃内乙酰丙酸在近临界水中的稳定性。
3.
Based on the different decomposition rates among protein, fat, cellulose and saccharan, a new process to make full use of TOFU wastes was proposed, which includes continuous near critical water decomposition, filtering and separation.
根据豆腐渣中的主要组分蛋白质、脂肪、纤维素、糖分等在近临界水中分解速度的不同 ,提出了一条豆腐渣资源化新工艺。
补充资料:油气田开发方式(见油气田生产方式)
油气田开发方式(见油气田生产方式)
development pattern of oil and gas field:see recovery pattern of oil and gas field
a垃d gas月e卫d) 、‘。尸卫Jlent见油气田小冰、*pa士teroof ojl
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条