Identifying spilled oil may be difficult - Chemical & Engineering News

Sep 8, 1975 - The consequences of oil spills, particularly crude oil spills in international waters, have led to something approaching a clamor for a ...
0 downloads 0 Views 115KB Size
strument has as many as eight chro­ matographic channels in a centrifugal rotor. Cuvette windows at the end of each chromatographic column allow photometric monitoring of each column eluate as it passes through a stationary photometric detector. Preliminary re­ sults indicate, Scott says, that several serum proteins can be determined in­ dividually from a single serum sample by affinity chromatography. An anti­ body to each of the serum proteins is bound to the stationary phase of each of the columns. Several other developments de­ scribed at the symposium deal with specific applications and techniques. For example, Dr. Charles W. Gehrke of the University of Missouri, Columbia, detailed the use of chromatographic techniques to monitor "biological markers" in cancer. According to Gehrke and his coworkers, body fluid levels of polyamines, nucleosides, organ­ ic acids, and many other compounds can provide useful indications of the course of disease and the efficacy of treatment. Dr. Phyllis R. Brown of the Universi­ ty of Rhode Island is carrying out work aimed at developing methods for ana­ lyzing phosphorus compounds by highpressure liquid chromatography. And Dr. Peter T. Kissinger of Purdue Uni­ versity has a new method for measur­ ing ascorbic acid in body fluids, using liquid chromatography with electro­ chemical detection. The method also may be used to measure ascorbic acid concentration in foods and pharmaceu­ ticals. •

Identifying spilled oil may be difficult

ΓΗ CAC7.0 The consequences of oil spills, particu­ larly crude oil spills in international waters, have led to something approach­ ing a clamor for a method of identi­ fying the source of the crude oil. The assumption is that, if the source can be identified, the carrier, who is usually considered to be the spiller, also can be determined and punitive action taken against him. This approach presumes that chemi­ cal analysis of spills can be performed quickly, reliably, and at reasonable cost. It further presumes that crude oils from various fields have unique characteristics which can be deter­ mined by analysis. But it may not be that easy, according to Harold J. Cole­ man, of the Energy Research & Devel­ opment Administration's Bartlesville Energy Research Center. He has just finished a study of the methods avail­ able for analysis of spills. With the benefit of 50 years of re­ 22

C&EN Sept. 8, 1975

search on petroleum by what was then the Bureau of Mines' Bartlesville labo­ ratories to back him up, Coleman con­ cludes that although it might be possi­ ble to establish the source of a given spill, it would be exceedingly difficult. The biggest impediment isn't the ana­ lytical methods available, but the lack of necessary data on the world's oils. From the analyst's viewpoint, Cole­ man told the Division of Petroleum Chemistry, a major problem is the "weathering" of a spill. The more vola­ tile components are quickly lost, and there are often subtle changes that take place in the remainder before the analyst is brought into the picture. Both effects render the spill different in composition from that at the time of the spill. Even so, there is still a rea­ sonable expectation that some of the unique characteristics are not changed and are detectable, but with great ef­ fort. Among the analytical methods used in spill identification are gas-liquid chromatography, atomic absorption spectrophotometry, infrared spectros­ copy, mass spectrometry, and ultravio­ let spectrophotometry. In the case of GLC, the major problem is interpreta­ tion of results. Often recommended for oil charac­ terization is the vanadium and nickel contents of crude, both of which vary widely. Even when weathering has been prolonged, it is believed that the vanadium-to-nickel ratio remains con­ stant. The preferred analytical method for vanadium and nickel is atomic ab­ sorption spectrophotometry. Infrared spectroscopy has great ap­ peal because it is easy and cheap to perform. Unfortunately, Coleman says, the results are often of limited value, because of variability in duplicate runs. The method is regarded as valu­ able as a confirmatory technique, and is of greatest use if weathering is slight. Mass spectrometry is severely limit­ ed by the cost of equipment, and the necessity for highly trained personnel. Where available, however, the method can yield useful characteristics for oil spills research. The only factor interfering with the use of sulfur and nitrogen contents is disagreement on the quantitative ef­ fects of weathering on the samples. As in the case of vanadium and nickel, the sulfur-to-nitrogen ratio appears to be stable, since weathering affects both about the same way. Sulfur and nitro­ gen analyses are considered to be among the more reliable tests applied to crude oil spills. Other techniques are of value as con­ firmatory tests, but Coleman believes his study indicates that the most use­ ful are GLC, vanadium-nickel analysis by atomic absorption, and sulfur-nitro­ gen determinations. They all are sim­ ple, reliable, rapid, and inexpensive. However, the lack of data on crude oils from various fields around the world renders even the best analyses impo­

tent if there is nothing to compare the analyses with. Coleman believes that international cooperation will eventually relieve the problems and that spill analysis will become more useful in determining the source of a crude and the identity of the spillers. However, at present, he says, spill analysis is not capable of routinely identifying either. •

Cyclohexanones new route to catechols

1H

JEUUL J

Catechols find numerous uses in pro­ duction of plastics, antiseptics, photo­ graphic chemicals, dyes, and other products. Their production has cen­ tered on reactions of alkylcyclohexanediones, which result in high yields of alkylcatechols. However, despite the relatively easy aromatization of diones, the synthesis of diones themselves is difficult and expensive. Aiming at decreasing reactant costs, Mahmoud S. Kablaoui of Texaco's re­ search and technical department has developed a synthesis for alkylcatechols using less expensive, commercially available intermediates—specifically, cyclohexanones. Cyclohexanones can be used to produce catechols with nearly the same procedure that had been pre­ viously used with diones. Alkylcyclohexanones can be reacted with sulfuric acid in an acetic anhy­ dride solvent to produce an intermedi­ ate that is then hydrolyzed to a mix­ ture of o-alkylphenols and alkylcat­ echols. Distillation of the mixture, Kablaoui told the Division of Petrole­ um Chemistry, separates the catechols frqm the alkylphenols in about a 30%/70% split. Although the primary work was done with acetic anhydride solvents, Ka­ blaoui says that the desired reactions also can be carried out in hydrocarbon solvents to which some acetic anhydride has been added. The overall yield with hydrocarbon solvents is 5 to 10% less. The use of sulfuric acid is necessary, and its concentration has a marked ef­ fect on the aromatization step. The progress of the reaction is measured by evolution of sulfur dioxide, which comes off as a by-product. Two moles of sulfuric acid per mole of cyclohexanone seems to give the best yield. Higher concentrations of sulfuric acid favor the formation of alkylphenols. The mechanism for the reaction pro­ posed by Kablaoui involves o-acetylation of the enol form followed either by two hydride abstractions to give o-cresol or by two hydride abstractions and acetoxylation to give 3-methylcatechol and sulfur dioxide. •