等离子体裂解

交流非平衡等离子体裂解甲烷制C2烃

Conversion of methane to c_2 hydrocarbons in AC nonequilibrium plasma

等离子体裂解煤制乙炔碳-氢体系的热力学平衡分析

Thermodynamic Analysis of the Hydrogen-Carbon System for Acetylene Production by Plasma

热等离子体裂解煤制乙炔的研究进展脱氧炔诺酮乙炔雌二醇

Research progress of coal pyrolysis to acetylene in thermal plasma reactor

等离子体裂解煤制乙炔固相产物的研究

Study on solid products in acetylene production by plasma from coal

氢等离子体裂解煤制取乙炔的研究

Study on Coal Pyrolysis by Hydrogen Plasma to Produce Acetylene

提高等离子体裂解煤制乙炔收率的方案研究

Study on methods to improve acetylene yield from coal by plasma pyrolysis

热等离子体裂解甲烷的热力学与动力学分析

Kinetic and Thermodynamic Analysis of the Thermal Plasma Decomposition System of Methane

氢/氩热等离子体裂解煤碳-氢-氧-氩多相多组分体系的热力学分析

Thermodynamic Analysis of Hydrogen-Carbon-Oxygen-Argon System for Coal Pyrolysis in Hydrogen-Argon Thermal Plasma

激光光谱法等离子体裂解甲烷深度的实验研究

Experimental research of degree of methane decomposition in plasma using laser spectrum method

热等离子体裂解天然气的研究进展

Pyrolysis of natural gas using thermal plasma technology

热等离子体裂解煤研究综述

Review on Thermal Plasma Pyrolysis of Coal

热等离子体裂解天然气和煤制乙炔乙烯

Co-cracking of natural gas and coal for synthesis of c_2h_2 and c_2h_4 by thermal plasma

以煤层气为冷却剂的等离子体裂解煤制乙炔方案研究

Study on Scheme for Acetylene Production from Coal by Plasma Pyrolysis with Coal-bed Methane as Refrigeration

等离子体裂解天然气制纳米炭黑和乙炔

Study on the Direct Conversion of Nature gas to Nano Carbon Black and Acetylene via Nitrogen Plasma

微波低温等离子体裂解天然气制乙炔装置与工艺研究

Study on the Apparatus and Techniques for Acetylene Production from Natural Gas by Microwave Induced Low Temperature Plasma

氢等离子体裂解煤制乙炔实验信息显示系统的设计与实现

The Devise and Realization of the Information Display System in the Experiment of Coal Pyrolysis in H-Plasma Producing Acetylene

本文通过理论和实验研究了热等离子体裂解天然气制纳米炭黑和乙炔的机理。

In this paper the mechanism of methane pyrolysis into nano-carbon black and acetylene via thermal plasma has been studied theoretically and experimentally .

等离子体裂解煤生产乙炔工艺，具有低碳、低污染、流程短、洁净高效等特点，有望成为煤炭清洁利用的一条重要途径。

Producing acetylene by coal pyrolysis in plasma is attractive because it is a short , clean and efficient process with low-carbon and low-pollution .

将反应体系的温度升高到升华点以上，是提高等离子体裂解煤制乙炔收率的必由之路。

In order to improve acetylene yield from coal by plasma pyrolysis , it is necessary to raise the temperature of reaction system up to sublimation point of carbon .

在等离子体裂解煤制乙炔实验过程中，对该系统各参量的实时采集、实时显示、存储以及控制都非常重要。

During the tests of coal pyrolysis in plasma producing acetylene , the signals of system are acquired , showed , restored and controlled in real time is very important .

等离子体裂解煤制乙炔工艺，具有流程短、低资源消耗、环境友好等优点，是煤直接转化的一条有效途径，具有很好的发展前景。

The production of acetylene by plasma pyrolysis of coal is a direct conversion from coal , and has the advantages of short flow-sheet , low resources consumption and environmentally friendliness .

目前尚处于研究、开发阶段的等离子体裂解煤制乙炔技术被认为是最有希望替代传统的煤制乙炔的新方法。

Coal pyrolysis in arc plasma jet to produce acetylene is the most promising process , which substitutes for conventional coal - based yielding means . Currently it is still on the developing stage .

热等离子体裂解天然气是可以高效转化天然气的技术手段之一，当以氮气为工作气体时主要产物有乙炔、乙烯、氢气。

Cracking natural gas with thermal plasma is one of the technical tools to convert natural gas efficiently . With nitrogen as the working gas , the main products include acetylene , ethylene and hydrogen .

本文针对等离子体裂解煤制乙炔工艺中的水淬冷过程，建立了水淬冷过程的数学模型，并开发了新型的环隙式淬冷器。

This thesis studies the water quenching process in the acetylene production by coal pyrolysis in plasma . A mathematical model which can describe the quenching process is proposed . A new annular-type quenching cooler is designed .

实验发现：在5～15kW功率范围内，氮等离子体炬裂解天然气时要得到最大乙炔收率，天然气与氮气流量比应以1∶1.8左右为佳；

Experiments find in the range of 5 & 15 kW power , when cracking natural gas with plasma torch , the best flow ratio of natural gas to nitrogen is about 1:1.8 to obtain the maximal yield of acetylene .

等离子体射流裂解甲烷制乙炔的数值模拟

Numerical simulation of methane conversion to acetylene in plasma jet reactor

针对漏斗形射流反应器中热等离子体法裂解天然气制乙炔的过程进行研究。

Methane conversion to acetylene in a plasma jet reactor was studied .

等离子体煤裂解测控方案的探讨

Discussion of the measurement and control programme for plasma coal splitting decomposition process

氮等离子体炬裂解天然气制乙炔乙烯的研究

On the Preparation of Acetylene and Ethylene from Natural Gas in Nitrogen Plasma Jet

红外吸收光谱法研究等离子体甲烷裂解规律

Study on fluoroquinolones by triple quadrupole mass spectrometer Decomposition of Methane in Plasma Based on Infrared Absorption Spectroscopy