SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W639877237> ?p ?o ?g. }

Showing items 1 to 100 of ±123 with 100 items per page.

W639877237 endingPage "241" @default.
W639877237 startingPage "229" @default.
W639877237 abstract "This paper empirically investigates both price and volatility spillover effects in a comprehensive VEC–MGARCH framework. The hedging strategy is further discussed using the spillover effects. Crude oil and natural gas markets of US, Europe and Japan are examined for regional segmentation and different pricing mechanisms of natural gas. Our results show that the European and Japanese gas prices are cointegrated with Brent oil prices, but US gas price is decoupled from oil due to natural gas market liberalization and shale gas expansion. In all cases, the results support the presence of price spillover from crude oil markets to natural gas markets, but a reverse relationship does not exist. The asymmetric price spillover effects might be explained by the relative size of each market. It was also found that the volatility in oil market seems to spillover to the natural gas market, and vice versa, in both US and Europe. On the contrary, volatility seems to be independent in natural gas and oil markets in Japan. The difference in the results of the volatility spillover effects could be explained by the pricing mechanism of natural gas, especially the risk avoidance mechanism in gas pricing in Japan. The risk management performance of hedging strategy is remarkable considering volatility spillover." @default.
W639877237 created "2016-06-24" @default.
W639877237 creator A5003679114 @default.
W639877237 creator A5016117915 @default.
W639877237 date "2015-10-01" @default.
W639877237 modified "2023-10-14" @default.
W639877237 title "The spillover effects across natural gas and oil markets: Based on the VEC–MGARCH framework" @default.
W639877237 cites W1549357193 @default.
W639877237 cites W1567579011 @default.
W639877237 cites W1963497267 @default.
W639877237 cites W1965617878 @default.
W639877237 cites W1967194555 @default.
W639877237 cites W1973032420 @default.
W639877237 cites W1977480757 @default.
W639877237 cites W1982952301 @default.
W639877237 cites W1988036721 @default.
W639877237 cites W1990383443 @default.
W639877237 cites W1992783043 @default.
W639877237 cites W1998968611 @default.
W639877237 cites W2000624020 @default.
W639877237 cites W2007119655 @default.
W639877237 cites W2008702027 @default.
W639877237 cites W2013958753 @default.
W639877237 cites W2014673962 @default.
W639877237 cites W2014898289 @default.
W639877237 cites W2017027898 @default.
W639877237 cites W2025281662 @default.
W639877237 cites W2026934023 @default.
W639877237 cites W2034326699 @default.
W639877237 cites W2036587662 @default.
W639877237 cites W2038790677 @default.
W639877237 cites W2039573460 @default.
W639877237 cites W2039734130 @default.
W639877237 cites W2041802061 @default.
W639877237 cites W2044597042 @default.
W639877237 cites W2048373198 @default.
W639877237 cites W2050875934 @default.
W639877237 cites W2052775749 @default.
W639877237 cites W2061326864 @default.
W639877237 cites W2061648687 @default.
W639877237 cites W2073453731 @default.
W639877237 cites W2073879376 @default.
W639877237 cites W2076632931 @default.
W639877237 cites W2085183024 @default.
W639877237 cites W2085845054 @default.
W639877237 cites W2088915174 @default.
W639877237 cites W2089639499 @default.
W639877237 cites W2093476454 @default.
W639877237 cites W2094269351 @default.
W639877237 cites W2099342535 @default.
W639877237 cites W2114407659 @default.
W639877237 cites W2153562738 @default.
W639877237 cites W2169342941 @default.
W639877237 cites W2171826116 @default.
W639877237 cites W2183223730 @default.
W639877237 cites W3121677267 @default.
W639877237 cites W3122186884 @default.
W639877237 cites W3124026623 @default.
W639877237 cites W3124437139 @default.
W639877237 cites W3125929572 @default.
W639877237 doi "https://doi.org/10.1016/j.apenergy.2015.05.123" @default.
W639877237 hasPublicationYear "2015" @default.
W639877237 type Work @default.
W639877237 sameAs 639877237 @default.
W639877237 citedByCount "106" @default.
W639877237 countsByYear W6398772372015 @default.
W639877237 countsByYear W6398772372016 @default.
W639877237 countsByYear W6398772372017 @default.
W639877237 countsByYear W6398772372018 @default.
W639877237 countsByYear W6398772372019 @default.
W639877237 countsByYear W6398772372020 @default.
W639877237 countsByYear W6398772372021 @default.
W639877237 countsByYear W6398772372022 @default.
W639877237 countsByYear W6398772372023 @default.
W639877237 crossrefType "journal-article" @default.
W639877237 hasAuthorship W639877237A5003679114 @default.
W639877237 hasAuthorship W639877237A5016117915 @default.
W639877237 hasConcept C106159729 @default.
W639877237 hasConcept C149782125 @default.
W639877237 hasConcept C162324750 @default.
W639877237 hasConcept C175444787 @default.
W639877237 hasConcept C178790620 @default.
W639877237 hasConcept C185592680 @default.
W639877237 hasConcept C34447519 @default.
W639877237 hasConcept C55527203 @default.
W639877237 hasConcept C556758197 @default.
W639877237 hasConcept C58823610 @default.
W639877237 hasConcept C59427239 @default.
W639877237 hasConcept C91602232 @default.
W639877237 hasConceptScore W639877237C106159729 @default.
W639877237 hasConceptScore W639877237C149782125 @default.
W639877237 hasConceptScore W639877237C162324750 @default.
W639877237 hasConceptScore W639877237C175444787 @default.
W639877237 hasConceptScore W639877237C178790620 @default.
W639877237 hasConceptScore W639877237C185592680 @default.
W639877237 hasConceptScore W639877237C34447519 @default.
W639877237 hasConceptScore W639877237C55527203 @default.
W639877237 hasConceptScore W639877237C556758197 @default.