Hydraulic Design of Thermally Coupled Columns and a DWC for NGL Fractionation Plants

Combining a conventional demethanizer with thermally coupled deethanizer and propane-butane recovery columns or a three-product dividing wall column (DWC) provides a realistic opportunity for natural gas liquids (NGL) fractionation complexes as encountered in floating, as well as on-land natural gas liquefaction plants, to minimize energy requirements and reduce carbon dioxide emissions accordingly, in a cost-effective way. The present paper addresses and discusses hydraulic design aspects of these two thermal coupling arrangements, including the choice of the most appropriate column internals that largely depends on important design, construction, and operating considerations that differ for floating and on-land plants

An Effective Method for Establishing the Stage and Reflux Requirement of Three-product Dividing Wall Columns

This paper introduces an effective method for determination and optimisation of stage and reflux requirement of a three-product dividing wall column, arranged within a commercial software package by combining a fundamentally sound shortcut method providing reliable initial guesses and a detailed, four-column model, which appeared to be the most flexible among possible configurations, for both steady state and dynamic simulations. The applicability and usability of the method is demonstrated using an industrially relevant, platformate splitter application in an aromatics plant of a petroleum refinery as the base case. Results of this study indicate that compared to actual, two-columns- in-series configuration, a dividing wall column requires approximately 43 % less energy to deliver three fractions at required product specifications

Notable Radiophysicists and Radiochemists in Croatia by 1945

U ovome preglednom radu dan je uvid u život i rad doajena znanosti o zračenju i zaštite od zračenja u Hrvatskoj do 1945. godine. Efektivni počeci znanosti o zračenju, pa tako i zaštite od zračenja na području Hrvatske sežu čak do kraja 19. stoljeća. Fizičari i kemičari bili su među prvima mogućim žrtvama izloženosti ionizirajućem zračenju, pa su tako i bili prvi koji su upozoravali na štetne učinke radijacije na žive organizme. Pretraživanje dostupnih arhiva i poznate literature nije samo rasvijetlilo život i rad doajena znanosti o zračenju već je omogućilo sistematičan uvid u do sada nepoznate detalje važne za povijest i razvoj znanosti o zračenju, zaštite od zračenja, kao i o medicinskoj fi zici. Sve to pokazuje da Hrvatska od samoga početka ne samo da slijedi najsuvremenije znanstvene spoznaje iz tih područja, već i njima aktivno pridonosi.Physicists and chemists were among the first potential victims of occupational exposure to ionising radiation and they were also the first to warn about the harmful effects of radiation on living organisms. This review presents the work of the first notable scientists in the field of radiation science in Croatia from the discovery of radiation (Henry Becquerel in 1896) to 1945. The beginning of radiation science and radiation protection in Croatia can be traced to the end of the 19th century. Our research of the archived material and literature not only gave a deeper insight to the life and work of some of these notable scientists, but also gave a glimpse of previously unknown facts and details important for the history and development of radiation science, radiation protection, as well as medical physics. Our research has shown that Croatian scientists not only kept pace with contemporary scientific knowledge but also made notable contributions from the very beginning