Proceeding of Annual/Fall Meetings of the Japan Petroleum Institute 37th Petroleum-Petrochemical Symposium of the Jpn. Petrol. Inst. (Sapporo)

Evaluation of risk for human health at mineral oil contaminated soil through bacterial degradation

Reacently, contaminated soil by mineral oil has been the biggest environmental issue, and remediation technologies have developed. In these technologies, bioremediation is effective to decompose mineral oil. However evaluation of risk for human health has not been carried out through bioremediation process. This study investigate that the change of risk though the bioremediation process evaluate using a risk analyizing system.

The role of copper ions in methane monooxygenase from M. trichosporium OB3b

Methane monooxygenase (MMO) catalyzes the hydroxylation of methane to methanol. MMO is a multicopper enzyme, and contains Type II and Type III copper ions. The role of the copper ions for catalysis was studied. When EDTA was added to MMO, the copper ion content decreased and MMO became inactive. EPR spectrum of MMO is derived from Type II copper (II) ions, and the signal intensity decreases when duroquinol is added as a reductant, suggesting that a part of those copper ions included in MMO was eliminated by EDTA, and that this copper ion is related to an electron transfer from a reductant.

Isolation and Characterization of hydrogen evolution microorganisms

In order to enhance hydrogen yield from biomass by fermentation technology, hydrogen producing microorganism with the high hydrogen yield was searched. 1294 samples were collected from 491 places, enrichment culture was carried out. As the result, the strain with the ability of hydrogen yield 1.11 mol/mol-glucose was obtained.

Photoinduced hydrogen evolution with Zn porphyrin intercalated cytochrome c₃

Cytochrome c₃ has four hemes per molecule, and donates electrons to hydrogenase catalysing hydrogen evolution. In this study, Zn porphyrin intercalated cytochrome c₃ was prepared in order to utilize high affinity of cytochrome c₃ to hydrogenase in photoinduced hydrogen evolution systems. Photodriven reduction of Zn porphyrin intercalated cytochrome c₃ occurs by visible light irradiation. An electron transfers from photoexcited Zn porphyrin to intrinsic Fe porphyrin. Procedures of Zn porphyrin was prepared by the intercalation of Zn porphyrin to apo type cytochrome c₃. The apo type cytochrome c₃ was obtained by removing one of four hemes in cytochrome c₃. Photoinduced hydrogen evolution was observed by the irradiation, and photoinduced electron transfer occurs from Zn porphyrin to hemes and then to hydrogenase.

Optimized combination of lubricants and coatings

New lubricants and coatings are developing for saving energy and resources. Tribological performance of lubricants is dependent on their components as well as materials. Better combination of lubricant and DLC as a hard coating will be discussed based on chemical structure of tribofilms.

Bio-degradable lubricants

Bio-degradable lubricants have been paid attention by lubrication engineers, from a viewpoint of global environment protection. Recently, "renewable resources" are desirable for industrial materials. Vegetable oils are one of the candidates of lubricants that meet these requirements. In this work, effects and mechanism of lubricant additives such as friction modifiers and anti-wear agents, are investigated.

Properties of biodiesel mixed fuels and the improvement of their oxidation stabilities by a selective hydrogenation catalyst

Oxidation tests of the various biodiesel-petroleum diesel blends according to the new Japanese regulation were examined. Most biodiesel blends could not meet the regulation. In order to improve oxidation stability of the biodiesel blends, we examined selective hydrogenation of BDF over the noble metal catalysts under atmospheric pressure. Oxidation stability of hydrogenated BDF (B100) increased with increasing hydrogenation temperature. Oxidation stability of hydrogenated BDF/petroleum diesel blends contained less than 20wt% BDF meet the new Japanese regulation. Optimum hydrogenation condition depended on the degree of C=C bond saturation of original BDF feedstock.

Hydrodeoxygenation of oils and fats-thermal reaction and catalytic reaction

Gas oil blended with biodiesel oil has become a practical fuel. however, in order to deal with the going out of fossil resorces, production of every fuel oil from biomass is very important. Behavior of oxygen atoms in palm oil is presented here under hydrogen pressure of 6.5 MPa (cold charge) and at the temperature range of 225 to 400°centigrade.

Active state of calcium oxide in heterogeneous catalytic transesterification of soybean oil with methanol

We found that calcium oxide is a very active in catalyzing transesterification of vegetable oil with methanol. Since calcium oxide was also very active in reacting with alcohols, change of calcium oxide in catalyzing the transesterification was investigated through the reaction experiments recycling the catalyst sample. The obtained data must be significant for developing the heterogeneous catalytic process using calcium oxide for biodiesel production. In transesterification of edible soybean oil at reflux of methanol, calcium oxide was turned into calcium diglyceroxide by reacting with the by-produced glycerol. Calcium diglyceroxide matched calcium oxide at catalyzing the transesterification. Further, calcium diglyceroxide was very tolerant of air exposure.