用程序升温对中间相热转化过程进行动力学参数计算,并对计算结果作了简要分析。
Program temperature rise is used for calculating dynamic parameter in thermal conversion process of interphase, and a brief analysis is made for calculated result.
因为这个过程是热驱动而不是电力,通过使用能量转化率高的热源,可以大大减少温室气体排放。
Since the process is driven by heat rather than electricity, it could reduce greenhouse-gas emissions even further by using energy-efficient sources of heat.
能量的有效转换过程中,高达80%的能源转化成为有用热,以节省成本。
Energy efficient process converts up to 80% of the expended energy into useful heat to save costs.
生物质热解液化技术得到的燃料产率很高,是高效率的生物质转化过程,并使生物质成为最有可能部分代替化石能源的可再生能源。
Biomass pyrolysis is an efficient process of biomass conversion with high yield of liquid fuel, which makes biomass the most promising renewable energy to substitute the conventional fossil fuel.
挠性油管在缠绕过程中的大部分的应变能都被耗散掉(转化成热),只有一小部分应变能可以恢复。
Only a small part of the total strain energy is recovered. The recovered energy is the elastic energy that is stored during reeling.
通过对大庆热裂化渣油、新疆天然沥青两种典型试样在热转化时中间相转化过程的考察,初步探讨了中间相形成的一般规律。
Thermal pyrolysis of Daqing thermal tar and Xinjiang natural bitumen at various tempertures were studied with the purpose of investigating the mesophase transformation.
介绍了国内外烃类自热转化技术的工艺过程和工业应用潜力;
Process Flow & Industrial Application Potentiality were introduced for hydrocarbon self-heating reformation technology at home and abroad;
煤热解过程中挥发分和气相逸出总硫之间的关系与形态硫的转化和迁移规律有关。
The relationship between volatile matter and total sulfur in gas phase of coal pyrolysis process was related to the rule of form sulfur transformation.
用热重分析仪 (TGA)和动态应力流变仪 (DSR)分别测量了聚硫醚酰亚胺热聚合反应过程中转化率和粘度随时间的变化。
Thermogravimetry analysis(TGA) and Dynamic Stress Rheometer(DSR) were used to measure the conversion and viscosity changing with time during the thermopolymerization to form polythioetherimides.
为了建立汽车尾气催化转化器冷启动过程温度场变化的数学模型,必须正确地选取对流换热系数关联式。
To choose the proper correlation for convection coefficient is very important in modeling the temperature field in a cold-start Automotive Catalytic Converter.
热等离子体裂解煤制乙炔过程为煤的直接化工利用提供了一条有前景的、清洁转化途径。
Coal pyrolysis to acetylene in thermal plasma provides a direct route to make chemicals from coal resources.
热等离子体裂解煤制乙炔过程为煤的直接化工利用提供了一条有前景的、清洁转化途径。
Coal pyrolysis to acetylene in thermal plasma provides a direct route to make chemicals from coal resources.
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