FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W1969055409> ?p ?o ?g. }

• W1969055409 endingPage "299" @default.
• W1969055409 startingPage "287" @default.
• W1969055409 abstract "The global demand for energy is constantly on the rise because of population explosion, rapid urbanization, and industrial growth. Existing energy resources are struggling to cope with the current energy requirements. Aside from exploring renewable energy alternatives, available energy resources must be utilized to their maximum potential. Coke oven gas (COG) is highly rated as a valuable by-product of coal carbonization to produce coke in the steel industry. Typically, a single ton of coke generates approximately 360 m3 COG. China annually produces 70 billion N m3 COG; however, only 20% of the gas produced is utilized as fuel. Disposing COG without an effective recovery and efficient utilization is a serious waste of an energy resource and results in environmental pollution. COG is regarded as a potential feedstock for hydrogen separation, methane enrichment, and syn-gas and methanol production. It can also be effectively utilized to produce electricity and liquefied natural gas. The availability, properties, purification, and utilization of COG are reviewed in the current study. COG utilization routes are summarized in detail, with focus on some major industrial projects in China and other countries that are based on COG utilization technology." @default.
• W1969055409 created "2016-06-24" @default.
• W1969055409 creator A5009340564 @default.
• W1969055409 creator A5080236960 @default.
• W1969055409 creator A5089278692 @default.
• W1969055409 date "2013-11-01" @default.
• W1969055409 modified "2023-10-14" @default.
• W1969055409 title "Coke oven gas: Availability, properties, purification, and utilization in China" @default.
• W1969055409 cites W1965824479 @default.
• W1969055409 cites W1966034183 @default.
• W1969055409 cites W1966158069 @default.
• W1969055409 cites W1967451881 @default.
• W1969055409 cites W1968000170 @default.
• W1969055409 cites W1969324223 @default.
• W1969055409 cites W1969806432 @default.
• W1969055409 cites W1970182913 @default.
• W1969055409 cites W1970354534 @default.
• W1969055409 cites W1974247862 @default.
• W1969055409 cites W1978772868 @default.
• W1969055409 cites W1980158088 @default.
• W1969055409 cites W1980442654 @default.
• W1969055409 cites W1981475799 @default.
• W1969055409 cites W1981714094 @default.
• W1969055409 cites W1981859909 @default.
• W1969055409 cites W1981925870 @default.
• W1969055409 cites W1984905914 @default.
• W1969055409 cites W1985421748 @default.
• W1969055409 cites W1985962879 @default.
• W1969055409 cites W1994856910 @default.
• W1969055409 cites W1999778568 @default.
• W1969055409 cites W2000677823 @default.
• W1969055409 cites W2003947678 @default.
• W1969055409 cites W2004794535 @default.
• W1969055409 cites W2007298640 @default.
• W1969055409 cites W2008915870 @default.
• W1969055409 cites W2009456317 @default.
• W1969055409 cites W2010424308 @default.
• W1969055409 cites W2010441152 @default.
• W1969055409 cites W2011358714 @default.
• W1969055409 cites W2016005882 @default.
• W1969055409 cites W2016792056 @default.
• W1969055409 cites W2019493091 @default.
• W1969055409 cites W2020720108 @default.
• W1969055409 cites W2021326377 @default.
• W1969055409 cites W2022042730 @default.
• W1969055409 cites W2022120476 @default.
• W1969055409 cites W2028668200 @default.
• W1969055409 cites W2031602536 @default.
• W1969055409 cites W2036864956 @default.
• W1969055409 cites W2042628177 @default.
• W1969055409 cites W2043450932 @default.
• W1969055409 cites W2043622947 @default.
• W1969055409 cites W2044077731 @default.
• W1969055409 cites W2046906488 @default.
• W1969055409 cites W2047027460 @default.
• W1969055409 cites W2047138080 @default.
• W1969055409 cites W2047408953 @default.
• W1969055409 cites W2047992262 @default.
• W1969055409 cites W2050861621 @default.
• W1969055409 cites W2050994498 @default.
• W1969055409 cites W2051248278 @default.
• W1969055409 cites W2053373055 @default.
• W1969055409 cites W2054452272 @default.
• W1969055409 cites W2054476554 @default.
• W1969055409 cites W2058983968 @default.
• W1969055409 cites W2063619209 @default.
• W1969055409 cites W206684586 @default.
• W1969055409 cites W2067344221 @default.
• W1969055409 cites W2068445648 @default.
• W1969055409 cites W2070713693 @default.
• W1969055409 cites W2073506675 @default.
• W1969055409 cites W2075097249 @default.
• W1969055409 cites W2076522263 @default.
• W1969055409 cites W2077926662 @default.
• W1969055409 cites W2078666512 @default.
• W1969055409 cites W2081178306 @default.
• W1969055409 cites W2082613228 @default.
• W1969055409 cites W2082721329 @default.
• W1969055409 cites W2084783684 @default.
• W1969055409 cites W2084815649 @default.
• W1969055409 cites W2086455408 @default.
• W1969055409 cites W2086823028 @default.
• W1969055409 cites W2087432656 @default.
• W1969055409 cites W2089073320 @default.
• W1969055409 cites W2093249196 @default.
• W1969055409 cites W2097685362 @default.
• W1969055409 cites W2110154495 @default.
• W1969055409 cites W2129248796 @default.
• W1969055409 cites W2135320310 @default.
• W1969055409 cites W2135701719 @default.
• W1969055409 cites W2170456717 @default.
• W1969055409 cites W2313899375 @default.
• W1969055409 cites W2322588385 @default.
• W1969055409 cites W2501470878 @default.
• W1969055409 cites W3023624136 @default.
• W1969055409 cites W3121489404 @default.
• W1969055409 cites W70585878 @default.
• W1969055409 doi "https://doi.org/10.1016/j.fuel.2013.05.070" @default.

• next