动力循环

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  • Power cycle;power demand
动力循环动力循环
  1. P物质对维持门脉高压高动力循环起重要作用。

    Substance P may contribute to the maintenance of the hyperdynamic circulation .

  2. 肝硬化患者P物质、NO水平与高动力循环的关系

    The relationship between plasma level of substance P , NO and hyperdynamic circulation in patients with cirrhosis

  3. 肝前性门静脉高压大鼠NO、CO与高动力循环的关系

    The relationship between nitric oxide , carbon monoxide and hyperdynamic circulation in prehepatic portal hypertensive rats

  4. 未来的先进动力循环中,湿空气透平(HAT)循环颇具发展前景。

    Humid air turbine cycle is very promising among the future advanced power cycles .

  5. SV高动力循环是门静脉血流量增加的主要来源。

    SV hyperdynamics is the main source of increased portal blood flow .

  6. 结论HBO能改善肝硬化病人的肝脏功能,改善门静脉高压和高动力循环状态。

    Conclusions HBO therapy can improve liver function and alleviate portal hypertension and hyperdynamic circulation .

  7. 回收PAFC废热与LNG冷能的动力循环分析

    Evaluation of a power generation cycle for recovering waste heat of PAFC and cold energy of LNG

  8. 提出了一种由天然气CO2转化化学回热动力循环和氨吸收制冷循环构成的新型O2/CO2热力循环系统。

    A novel power cycle system composed of a chemical recuperative cycle with CO_2 / NG ( natural gas ) reforming and an ammonia absorption refrigeration cycle is proposed .

  9. ChildA、B级患者心输出量、心脏指数、左室射血分数明显增加,呈高动力循环状态;

    Cardiac output 、 cardiac index and left ventricular ejection fraction of Child A and Child B cirrhotics were markedly increased , indicating the character of hyperdynamic circulation ( P < 0.05 , P < 0 . )

  10. ET-1、NO、PGL2、C型利钠肽对肝硬化门脉高压高动力循环调控机制的研究

    The Study on the Regulatory Mechanism of ET-1 、 NO 、 PGL_2 and C-Type Natriuretic Peptide on Hyperdynamic Circulation in Hepatic Cirrhosis and Portal Hypertension

  11. 结论:持续性高动力循环、低氧供型氧缺陷、病理性氧依赖、混合型酸碱失衡提示预后不良.合并MOF是ARDS的主要死亡原因。

    Conclusions : High resistance circulation , hypoxia-low-oxygen mixed , acid-base disturbance and MOF are important factors in death of patients with ARDS .

  12. 目的观察大鼠肝硬化门脉高压形成过程中外周血浆内皮素-1(ET-1)和一氧化氮(NO)的动态变化,以探讨两种物质在门脉高压高动力循环中的作用。

    Objective To observe the dynamic changes of endothelin-1 ( ET-1 ) and nitric oxide ( NO ) in plasma of the rats during the process of cirrhotic hypertension .

  13. 目的使用血红素氧合酶抑制剂,探讨血红素氧合酶一氧化碳(HOCO)系统在大鼠肝硬化高动力循环中的作用。

    Purpose To explore the role of heme oxygenase ( HO ) and carbon monoxide ( CO ) in hyperdynamic circulation of cirrhotic rats . Methods Liver cirrhosis was induced by percutaneous administration of carbon tetrachloride .

  14. 目的研究热休克蛋白90(HSP90)在门脉高压大鼠内脏高动力循环中的作用。

    Objective To study the role of heat shock protein 90 ( HSP 90 ) in the formation of hyperdynamic circulation of portal hypertensive rats .

  15. SV高动力循环是门脉血流量增加的主要来源,是触发出血的危险因子。SV/PT流量比和PT的n值可望成为EVB的预测指标。

    SV hyperdynamics is the main source of increased portal blood flow and may trigger occurrence of EVB . SV / PT ratio and n value of PT may become valuable parameters in predicting occurrence of EVB .

  16. 目的探讨前列环素(PGI2)和一氧化氮(NO)在门静脉高压症高血流动力循环中的作用。

    Objective To investigate the effects of prostacyclin ( PGI 2 ) and nitric oxide ( NO ) in the development of hyperdynamic circulatory state on chronic portal hypertensive rats .

  17. 目的了解一氧化氮(NO)在高动力循环综合征(HCS)形成中的作用以及NO水平升高或降低时对HCS的影响。

    Objective To understand the effect of nitric oxide ( NO ) on the formation of hyperdynamic circulatory syndrome ( HCS ) and the influence of level of NO on HCS .

  18. 结论Ghrelin可能参与了门脉高压时高动力循环的形成和发展,分泌Ghrelin的内分泌细胞对PHG时胃黏膜损害具有相当的抵抗力。

    Conclusions Ghrelin may contribute to the formation and the development of hyperdynamic circulation in PHT . The gastric endocrine cells responsible for Ghrelin synthesis were fairly resistant to gastric lesions stimulated by PHG .

  19. 目的:观察大鼠肝前性门静脉高压症形成中一氧化氮(NO)和内皮素-1(ET-1)水平的动态变化,探讨其在门静脉高压症高动力循环中的作用。

    AIM : To observe the dynamic changes of plasma levels of nitric oxide ( NO ) and endothelin ( ET-1 ) in portal veins of the rats during prehepatic portal hypertension , and investigate the role of them in hyperdynamic circulation .

  20. 目的了解肿瘤坏死因子(TNF)、内皮素(ET)和一氧化氮(NO)在门静脉高压高动力循环综合征(HCS)中的作用和地位以及门静脉血中含量的高低对HCS的影响。

    Objective To investigate the role of tumor necrosis factor ( TNF ), endothelin ( ET ) and nitric oxide ( NO ) in hyperdynamic circulatory syndrome ( HCS ) of portal hypertension and the effects of their levels on HCS .

  21. HAT循环是一种先进的热力循环,具有高效率、高比功、低花费、低污染的良好性能,被誉为21世纪最有竞争力的动力循环。

    Humid Air Turbine ( HAT ) cycle is an advanced thermodynamic cycle , which is characterized by its high efficiency , high power , low specific investment cost and low pollution . Hat cycle is reputed as one of the most competitive thermodynamic cycle in 21st century .

  22. 热漏对联合动力循环性能的影响

    Effect of Heat Leak on the Performance of Combined Power Cycles

  23. 自升压蒸汽动力循环的理论研究

    Theoretical Research on the Steam Power Cycle with Self-Pressure Lifting Technology

  24. 一种回收液化天然气冷能的低温动力循环系统

    A Cryogenic Power Generation Cycle for Recovering Cold Energy of LNG

  25. 对比法在讲授蒸汽动力循环时的应用

    Application of the Contrasting Method in Lecturing the Steam Power Cycle

  26. 结论:肝硬化患者存在明显的高动力循环状态,左心舒张功能减退;

    Conclusions : Liver cirrhosis is associated with hyperdynamic circulatory states .

  27. 一氧化碳与肝硬化高动力循环的关系

    Relationship between plasma carbon monoxide and hyperdynamic circulation of cirrhotic rats

  28. 电站锅炉小负荷下的水动力循环模拟与可靠性研究

    Simulation and Study on Safety of Hydro-power under Low-load for Utility Boiler

  29. 结果肝硬化大鼠全部出现高动力循环状态,血清NO含量显著高于正常对照组。

    Results Hyperdynamic circulatory state was observed in all rats with cirrhosis .

  30. 余热在蒸汽回热动力循环中的热效率

    Thermal efficiency of waste heat in steam regenerative power cycle