GB2125818A

GB2125818A - Fuel gas composition for use in cutting welding or hot working metals and glass

Info

Publication number: GB2125818A
Application number: GB08317257A
Authority: GB
Inventors: Yoshio Horiguchi
Original assignee: Suzuki Shokan Co Ltd
Current assignee: Suzuki Shokan Co Ltd
Priority date: 1982-06-26
Filing date: 1983-06-24
Publication date: 1984-03-14
Also published as: JPS591594A; GB8317257D0; DE3322362A1; FR2529222A1

Abstract

A gas composition containing about 1% to about 20% by volume of a normally gaseous aliphatic hydrocarbon and the balance being essentially hydrogen is suitable for use in cutting, welding or hot working of metals or glass.

Description

SPECIFICATION Fuel gas composition for use in cutting, welding or hot working metals and glass The present invention relates to a fuel gas composition suitable for use in gas cutting, gas-welding and hotworking of metals and glass.

It is well known that hydrogen can be used as fuel gas in the practice of cutting, welding, hot working and the like of metals. However, an oxyhydrogen flame resulting from the burning of hydrogen is different from an oxyacetyleneflame in that the former does not form a white cone and therefore it is hardiy possible to see a frame cone with the naked eye. Accordingly, it is extremely difficult to adjust and manipulate the oxyhydrogen flame. In addition, a not necessarily reasonable notion has been universally prevalent that hydrogen, when mixed with air, explodes very easily.

In these circumstances, acetylene has been exciusively used for the purposes of gas cutting, gaswelding, hot working and the like of metals and hydrogen has been little used for these purposes.

The present invention provides a fuel gas composition consisting of a mixture of hydrogen with a small amount of a normally gaseous aliphatic hydrocarbon, this mixed gas, when burnt in the presence of an appropriate amount of oxygen, being capable of forming a flame which has a white cone and is easy to adjustand manipulate, ~ ~~ That is to say, the fuel gas composition according to the present invention contains about 1% to about 20% by volume of one or more C1 to C4 aliphatic hydrocarbons, the balance being essentially hydrogen. This fuel gas composition, which forms a flame with a white cone when burnt with an appropriate amount of oxygen, can be used in the cutting, welding and hot working of metals and glass.

The fuel gas composition of the present invention is prepared by mixing hydrogen with one or more Ci to C4 aliphatic hydrocarbons, e.g. methane, ethane, propane or butane, in an amount of about 1% to about 20% by volume, and charged in cylinders for storing and transporting purposes. Typically examples of the fuel gas composition according to the present invention include a gas composition consisting of about 1% to about 20% by volume of methane or natural gas and hydrogen and a gas composition consisting of about 1% to about 20% by volume of ethane or propane and hydrogen. The gas preferably contains about 90% by volume of hydrogen and about 10% by volume of methane or natural gas.

Gas mixtures containing a gaseous aliphatic hydrocarbon in an amount of less than about 1% by volume, when burnt, cannot form a flame with a stable white cone. On the other hand, a gas mixture containing more than about 20% by volume of the hydrocarbon, is, when burnt, likely to generate soot.

In contrast, the fuel gas composition of the invention, when burnt, forms a flame with a stable white cone which is easy to see with the naked eye and is thus easy to adjust, and only gives combustion products such as water and a small amount of carbon dioxide.

Furthermore, the flame obtained from the gas composition of the present invention forms the white cone which is better defined than that of the oxyacetylene flame, and therefore is very suitable for cutting, welding and hot working of metals or glass. In the semi-automatic gas cutting of steel plates which are 6mm, 1 2mm, 25mm and 50mm in thickness using the preferred gas composition of the invention, it was confirmed that in each case the portions other than the cut portion were only very slightly affected by heat and the base metal's distortion by heat was very slight.

In the gas composition of the present invention, the minimum explosive concentration may be lower than that of hydrogen except for the case where the aliphatic hydrocarbon is methane. There is however, no possibility of the minimum being lower than that of acetylene, i.e. 2.50% by volume. Although the gas composition of the present invention is substantially colourless and odourless, it may be scented to facilitate detection by leaks.

1. A fuel gas composition which contains about 1%to about 20% by volume of one or more C1 - C4 aliphatic hydrocarbons, the balance being essentially hydrogen.

2. Afuel gas composition as claimed in claim 1 wherein said aliphatic hydrocarbon is natural gas or methane.

3. A method of gas cutting, welding or hot working a metal or glass in which the fuel gas used is a composition as claimed in claim 1 or claim 2.

4. A gas composition as claimed in claim 1 or claim 2 when for use in a method as claimed in claim 3.

**WARNING** end of DESC field may overlap start of CLMS **.

Claims

**WARNING** start of CLMS field may overlap end of DESC **. SPECIFICATION Fuel gas composition for use in cutting, welding or hot working metals and glass The present invention relates to a fuel gas composition suitable for use in gas cutting, gas-welding and hotworking of metals and glass. It is well known that hydrogen can be used as fuel gas in the practice of cutting, welding, hot working and the like of metals. However, an oxyhydrogen flame resulting from the burning of hydrogen is different from an oxyacetyleneflame in that the former does not form a white cone and therefore it is hardiy possible to see a frame cone with the naked eye. Accordingly, it is extremely difficult to adjust and manipulate the oxyhydrogen flame. In addition, a not necessarily reasonable notion has been universally prevalent that hydrogen, when mixed with air, explodes very easily. In these circumstances, acetylene has been exciusively used for the purposes of gas cutting, gaswelding, hot working and the like of metals and hydrogen has been little used for these purposes. The present invention provides a fuel gas composition consisting of a mixture of hydrogen with a small amount of a normally gaseous aliphatic hydrocarbon, this mixed gas, when burnt in the presence of an appropriate amount of oxygen, being capable of forming a flame which has a white cone and is easy to adjustand manipulate, ~ ~~ That is to say, the fuel gas composition according to the present invention contains about 1% to about 20% by volume of one or more C1 to C4 aliphatic hydrocarbons, the balance being essentially hydrogen. This fuel gas composition, which forms a flame with a white cone when burnt with an appropriate amount of oxygen, can be used in the cutting, welding and hot working of metals and glass. The fuel gas composition of the present invention is prepared by mixing hydrogen with one or more Ci to C4 aliphatic hydrocarbons, e.g. methane, ethane, propane or butane, in an amount of about 1% to about 20% by volume, and charged in cylinders for storing and transporting purposes. Typically examples of the fuel gas composition according to the present invention include a gas composition consisting of about 1% to about 20% by volume of methane or natural gas and hydrogen and a gas composition consisting of about 1% to about 20% by volume of ethane or propane and hydrogen. The gas preferably contains about 90% by volume of hydrogen and about 10% by volume of methane or natural gas. Gas mixtures containing a gaseous aliphatic hydrocarbon in an amount of less than about 1% by volume, when burnt, cannot form a flame with a stable white cone. On the other hand, a gas mixture containing more than about 20% by volume of the hydrocarbon, is, when burnt, likely to generate soot. In contrast, the fuel gas composition of the invention, when burnt, forms a flame with a stable white cone which is easy to see with the naked eye and is thus easy to adjust, and only gives combustion products such as water and a small amount of carbon dioxide. Furthermore, the flame obtained from the gas composition of the present invention forms the white cone which is better defined than that of the oxyacetylene flame, and therefore is very suitable for cutting, welding and hot working of metals or glass. In the semi-automatic gas cutting of steel plates which are 6mm, 1 2mm, 25mm and 50mm in thickness using the preferred gas composition of the invention, it was confirmed that in each case the portions other than the cut portion were only very slightly affected by heat and the base metal's distortion by heat was very slight. In the gas composition of the present invention, the minimum explosive concentration may be lower than that of hydrogen except for the case where the aliphatic hydrocarbon is methane. There is however, no possibility of the minimum being lower than that of acetylene, i.e. 2.50% by volume. Although the gas composition of the present invention is substantially colourless and odourless, it may be scented to facilitate detection by leaks. CLAIMS