give balanced equation of Coke to water gas
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Water gas is a mixture of carbon monoxide and hydrogen produced from synthesis gas. Synthesis gas is a useful product, but requires careful handling due to its flammability and the risk of carbon monoxide poisoning. The water-gas shift reaction can be used to reduce the carbon monoxide while producing additional hydrogen, resulting in water gas.
Synthesis gas is made by passing steam over a red-hot carbon fuel such as coke:
{H2}+ CO \ (\Delta H = +131 kJ/mol)}}}">{\displaystyle {\ce {{H2O}+ C -> {H2}+ CO \ (\Delta H = +131 kJ/mol)}}} {H2}+ CO \ (\Delta H = +131 kJ/mol)}}}" style="margin: 0px; padding: 0px; border: 0px; font-style: inherit; font-variant: inherit; font-weight: inherit; font-stretch: inherit; line-height: inherit; font-family: inherit; font-size: 16px; vertical-align: middle; background: none; display: inline-block; animation: fadeInImage 0.3s ease-in; width: 45.266ex; height: 3.009ex;">
The reaction is endothermic, so the fuel must be continually re-heated to keep the reaction going. In order to do this, an air stream, which alternates with the vapor stream, is introduced for the combustion of carbon to take place.
CO2 \ (\Delta H = -393 kJ/mol)}}}">{\displaystyle {\ce {O2 + C -> CO2 \ (\Delta H = -393 kJ/mol)}}} CO2 \ (\Delta H = -393 kJ/mol)}}}" style="margin: 0px; padding: 0px; border: 0px; font-style: inherit; font-variant: inherit; font-weight: inherit; font-stretch: inherit; line-height: inherit; font-family: inherit; font-size: 16px; vertical-align: middle; background: none; display: inline-block; animation: fadeInImage 0.3s ease-in; width: 37.907ex; height: 3.009ex;">
Theoretically, to make 6 L of water gas, 5 L of air is required.
Or, alternatively, to prevent contamination with nitrogen, energy can be provided by using pure oxygen to burn carbon into carbon monoxide.
2 CO \ (\Delta H = -221 kJ/mol)}}}">{\displaystyle {\ce {O2 + 2 C -> 2 CO \ (\Delta H = -221 kJ/mol)}}} 2 CO \ (\Delta H = -221 kJ/mol)}}}" style="margin: 0px; padding: 0px; border: 0px; font-style: inherit; font-variant: inherit; font-weight: inherit; font-stretch: inherit; line-height: inherit; font-family: inherit; font-size: 16px; vertical-align: middle; background: none; display: inline-block; animation: fadeInImage 0.3s ease-in; width: 39.952ex; height: 3.009ex;">
In this case 1 L of oxygen will create 5.3 L of pure water gas.
The water-gas shift reaction was discovered by Italian physicist Felice Fontana in 1780.
Water gas was made in England from 1828 by blowing steam through white-hot coke.[1]
Lowe's gas processEdit
In 1873, Thaddeus S. C. Lowe developed and patented the water gas process by which large amounts of hydrogen gas could be generated for residential and commercial use in heating and lighting. This gas provided a more efficient heating fuel than the common coal gas, or coke gas, which was used in municipal service. The process used the water-gas shift reaction:
CO2 + H2}}}">{\displaystyle {\ce {CO + H2O -> CO2 + H2}}} CO2 + H2}}}" style="margin: 0px; padding: 0px; border: 0px; font-style: inherit; font-variant: inherit; font-weight: inherit; font-stretch: inherit; line-height: inherit; font-family: inherit; font-size: 16px; vertical-align: middle; background: none; display: inline-block; animation: fadeInImage 0.3s ease-in; width: 26.206ex; height: 2.843ex;">
The process was discovered by passing high-pressure steam over hot coal, the major source of coke gas. Lowe's process improved upon the chimney systems by which the coal could remain superheated, thereby maintaining a consistently high supply of the gas. The reaction produced carbon dioxide and hydrogen, which, after a process of cooling and "scrubbing", produced hydrogen gas.
The process spurred on the industry of gas manufacturing, and gasification plants were established quickly along the Eastern seaboard of the United States. Similar processes, like the Haber–Bosch process, led to the manufacture of ammonia (NH3) by the combining of nitrogen, found in air, with hydrogen. This spurred on the refrigeration industry, which long used ammonia as its refrigerant. Prof. Lowe also held several patents on artificial ice making machines and was able to run successful businesses in cold storage, as well as products which operated on hydrogen gas.
Synthesis gas is made by passing steam over a red-hot carbon fuel such as coke:
{H2}+ CO \ (\Delta H = +131 kJ/mol)}}}">{\displaystyle {\ce {{H2O}+ C -> {H2}+ CO \ (\Delta H = +131 kJ/mol)}}} {H2}+ CO \ (\Delta H = +131 kJ/mol)}}}" style="margin: 0px; padding: 0px; border: 0px; font-style: inherit; font-variant: inherit; font-weight: inherit; font-stretch: inherit; line-height: inherit; font-family: inherit; font-size: 16px; vertical-align: middle; background: none; display: inline-block; animation: fadeInImage 0.3s ease-in; width: 45.266ex; height: 3.009ex;">
The reaction is endothermic, so the fuel must be continually re-heated to keep the reaction going. In order to do this, an air stream, which alternates with the vapor stream, is introduced for the combustion of carbon to take place.
CO2 \ (\Delta H = -393 kJ/mol)}}}">{\displaystyle {\ce {O2 + C -> CO2 \ (\Delta H = -393 kJ/mol)}}} CO2 \ (\Delta H = -393 kJ/mol)}}}" style="margin: 0px; padding: 0px; border: 0px; font-style: inherit; font-variant: inherit; font-weight: inherit; font-stretch: inherit; line-height: inherit; font-family: inherit; font-size: 16px; vertical-align: middle; background: none; display: inline-block; animation: fadeInImage 0.3s ease-in; width: 37.907ex; height: 3.009ex;">
Theoretically, to make 6 L of water gas, 5 L of air is required.
Or, alternatively, to prevent contamination with nitrogen, energy can be provided by using pure oxygen to burn carbon into carbon monoxide.
2 CO \ (\Delta H = -221 kJ/mol)}}}">{\displaystyle {\ce {O2 + 2 C -> 2 CO \ (\Delta H = -221 kJ/mol)}}} 2 CO \ (\Delta H = -221 kJ/mol)}}}" style="margin: 0px; padding: 0px; border: 0px; font-style: inherit; font-variant: inherit; font-weight: inherit; font-stretch: inherit; line-height: inherit; font-family: inherit; font-size: 16px; vertical-align: middle; background: none; display: inline-block; animation: fadeInImage 0.3s ease-in; width: 39.952ex; height: 3.009ex;">
In this case 1 L of oxygen will create 5.3 L of pure water gas.
The water-gas shift reaction was discovered by Italian physicist Felice Fontana in 1780.
Water gas was made in England from 1828 by blowing steam through white-hot coke.[1]
Lowe's gas processEdit
In 1873, Thaddeus S. C. Lowe developed and patented the water gas process by which large amounts of hydrogen gas could be generated for residential and commercial use in heating and lighting. This gas provided a more efficient heating fuel than the common coal gas, or coke gas, which was used in municipal service. The process used the water-gas shift reaction:
CO2 + H2}}}">{\displaystyle {\ce {CO + H2O -> CO2 + H2}}} CO2 + H2}}}" style="margin: 0px; padding: 0px; border: 0px; font-style: inherit; font-variant: inherit; font-weight: inherit; font-stretch: inherit; line-height: inherit; font-family: inherit; font-size: 16px; vertical-align: middle; background: none; display: inline-block; animation: fadeInImage 0.3s ease-in; width: 26.206ex; height: 2.843ex;">
The process was discovered by passing high-pressure steam over hot coal, the major source of coke gas. Lowe's process improved upon the chimney systems by which the coal could remain superheated, thereby maintaining a consistently high supply of the gas. The reaction produced carbon dioxide and hydrogen, which, after a process of cooling and "scrubbing", produced hydrogen gas.
The process spurred on the industry of gas manufacturing, and gasification plants were established quickly along the Eastern seaboard of the United States. Similar processes, like the Haber–Bosch process, led to the manufacture of ammonia (NH3) by the combining of nitrogen, found in air, with hydrogen. This spurred on the refrigeration industry, which long used ammonia as its refrigerant. Prof. Lowe also held several patents on artificial ice making machines and was able to run successful businesses in cold storage, as well as products which operated on hydrogen gas.
sam671:
only balance equ. not mahabharat
thanks yaar mujhe toh samajh me hi nahi aaraha tha
Answered by
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C+O2 ---------> CO2
2Na + 2H2O -------->2NaOH + H2
2Na + 2H2O -------->2NaOH + H2
thats like my boy
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