2,877 research outputs found
Revealing the binary origin of Type Ic superluminous supernovae through nebular hydrogen emission
We propose that nebular H-alpha emission as detected in the Type Ic
superluminous supernova iPTF13ehe stems from matter which is stripped from a
companion star when the supernova ejecta collide with it. The temporal
evolution, the line broadening, and the overall blueshift of the emission are
consistent with this interpretation. We scale the nebular H-alpha luminosity
predicted for Type Ia supernovae in single-degenerate systems to derive the
stripped mass required to explain the H-alpha luminosity of iPTF13ehe. We find
a stripped mass of 0.1 - 0.9 solar masses, assuming that the supernova
luminosity is powered by radioactivity or magnetar spin down. Because a central
heating source is required to excite the H-alpha emission, an
interaction-powered model is not favored for iPTF13ehe if the H-alpha emission
is from stripped matter. We derive a companion mass of more than 20 solar
masses and a binary separation of less than about 20 companion radii based on
the stripping efficiency during the collision, indicating that the supernova
progenitor and the companion formed a massive close binary system. If Type Ic
superluminous supernovae generally occur in massive close binary systems, the
early brightening observed previously in several Type Ic superluminous
supernovae may also be due to the collision with a close companion.
Observations of nebular hydrogen emission in future Type Ic superluminous
supernovae will enable us to test this interpretation.Comment: 4 pages, 1 figure, 1 table, accepted by Astronomy & Astrophysics
Letter
Upgrading hydrothermal liquefaction biocrude oil from wet biowaste into transportation fuel
The objective of this study is to develop viable technologies to upgrade biocrude oil converted from wet biowaste via hydrothermal liquefaction (HTL). Three types of feedstocks (algae, swine manure, and food processing waste) were converted into biocrude oil via HTL for upgradation processes, which includes pretreating feedstocks, separation, esterification and neutralization of biocrude oil.
Previous studies have revealed that excessive ash content in mixed-culture algal biomass (AW) appeared to reduce the higher heating value (HHV) and hydrocarbon compositions in the biocrude oil. To resolve this issue, physical pretreatments on AW biomass were carried out to decrease the ash content and improve the biocrude oil quality. AW biomass with different ash content was converted into biocrude oil via HTL at 300°C for 1 h reaction time, which is the previously determined optimum condition for producing biocrude oil. As the ash content of AW biomass was decreased from 53.3 wt.% to 39.0-43.5 wt.% after screen pretreatments, the HHV of the biocrude oil was substantially improved from 27.5 MJ/kg to 32.3 MJ/kg and the amounts of the light oil (boiling point of 100-300°C) were increased from 31wt.% to 49 wt.%. In contrast, GC-MS analyses of pretreated algal biocrude oil and aqueous products demonstrate that the ash content promoted denitrogenation, catalyzed the formation of hydrocarbons, and mitigated the recalcitrant compounds in aqueous products under the HTL processes. In order to elucidate the role of the ash content under the HTL processes, model algae, Chlorella, with different amounts of representative ash content (egg shells in this study) were converted into biocrude oil at the same reaction condition (i.e., 300°C for 1 hr reaction time). Elemental and thermogravimetric analyses of the biocrude oil both show that when the ash content in the algal feedstock was below 40 wt.%, the HHV and boiling point distribution of the algal biocrude oil could be hardly changed. This result signifies the feasibility of using ash-rich biomass as an HTL feedstock and diminishes the necessity of multi-step pretreatments of ash-rich biomass for biofuel applications.
This study also demonstrates a proof-of-concept in the production of high quality renewable biofuel from wet biowaste via hydrothermal liquefaction (HTL). Distillation was employed to effectively separate the biocrude converted from swine manure (SW), food processing waste (FPW), and Spirulina platensis (SP) via HTL into different fractions. Distillation curves of different types of HTL biocrude oil were reported. Physicochemical characterizations, including density, viscosity, elemental test, chemical compositions, and acidity, were conducted on distillates separated from different feedstocks. SW-, FPW-, and SP-derived biocrude respectively contains 15 wt.% , 56 wt.%, and 15 wt.% distillates with heating values of 43-46 MJ/kg and alkanes with carbon numbers ranging from C8 to C18. Compared to the distillates from SW- and SP-derived biocrude oil, the distillates from FPW-derived biocrude demonstrate the closest density and energy content to petroleum diesel, though this type of distillates contained an excessively high acidity that need to be reduced from 35.3 mg KOH/g to ≤ 3 mg/g (the requirements suggested by the ASTM standard for a 10 vol.% biodiesel). Therefore, an orthogonal array design of esterification experiment was performed to optimize the reaction temperature (50-70°C), reaction time (0.5h-6h), catalysts concentration (0.5 wt.%-2 wt.%), and the molar ratio of FPW-distillates to methanol (1:5-1:15), for achieving the lowest acidity. Compared to other available methods to upgrade HTL biocrude oil, the integrative upgrading approach proposed by this study (distillation plus esterification/neutralization) demonstrates a competitive energy consumption ratio (0.03-0.06) to zeolite cracking (0.07), supercritical fluid (SCF) treatment (0.17), and hydrotreating (0.24) (assuming 50% heat is recovered from upgrading processes). Moreover, the reaction severity of the upgrading approach used in this study (with log Ro of 5.9-9.5) is much lower than those of zeolite cracking (with log Ro of 11.0), SCF treatment (with log Ro of 10.6), and hydrotreating (with log Ro of 11.3), without the consumption of high pressure hydrogen gas. Finally, the fuel specification analysis and engine test were conducted with the drop-in biodiesel, which was prepared with 10 vol.% (HTL10) and 20 vol.% (HTL20) upgraded distillates and 80-90 vol.% petroleum diesel. According to the fuel specification analysis, HTL10 and HTL20 exhibited a qualified Cetane number (>40 min), lubricity (6 hr), as well as a comparable viscosity (0.2%-19% lower) and net heat of combustion (3%-4% lower) to those of petroleum diesel. Further, diesel engine tests demonstrated that HTL10 can lead to a superior power output (8% higher) and lower emissions of NOx (3-7%), CO (1-44%), CO2 (1-4%), and unburned hydrocarbons (10-21%). The present study showcases an energy-efficient and technically cohesive approach to produce renewable high-quality drop-in biofuels for demanding transport applications
Form factors of transition within the light-front quark models
In this paper, we calculate the vector, axial-vector and tensor form factors
of transition within the standard light-front~(SLF) and covariant
light-front~(CLF) quark models~(QMs). The self-consistency and Lorentz
covariance of CLF QM with two types of correspondence schemes are investigated.
The zero-mode effects and the spurious -dependent contributions to the
form factors of transition are analyzed. Employing a self-consistent
CLF QM, we present our numerical predictions for the vector, axial-vector and
tensor form factors of ~() induced , , , transitions and induced , , , transitions.
Finally, in order to test the obtained form factors, the semileptonic ~() and
decays are studied. It is expected that our
results for the form factors of transition can be applied further to
the relevant phenomenological studies of meson decays.Comment: 41 pages, 7figures. arXiv admin note: text overlap with
arXiv:1908.0467
Primary Pulmonary Synovial Sarcoma: A Case Report
We report a rare case of primary synovial sarcoma of the lung. A 57-year-old man had a well-defined tumor in the right middle lobe seen on chest computed tomography, and underwent lobectomy. Grossly, the nonencapsulated tumor measured 4.5 cm in greatest diameter, with a solid and tan-white cut surface. Histologically, the tumor was mainly composed of a dense proliferation of spindle cells. Immunohistochemical studies were focally positive for epithelial membrane antigen, and diffusely positive for CD99 and Bcl-2. Cytokeratin, S-100 protein, desmin, smooth muscle actin, and CD34 were absent. SYT-SSX1 gene fusion transcript was detected by reverse transcription-polymerase chain reaction, which is diagnostic of primary synovial sarcoma of the lung. We also review the literature with regard to the clinicopathologic, immunohisto-chemical, and molecular studies of primary pulmonary synovial sarcoma
Preventive and therapeutic role of traditional Chinese herbal medicine in hepatocellular carcinoma
AbstractHepatocellular carcinoma (HCC) is one of the most prevalent malignancies worldwide. The clinical management of HCC remains a substantial challenge. Although surgical resection of tumor tissues seems promising, a high recurrence and/or metastasis rate accounting for disease-related death has led to an urgent need for improved postsurgical preventive/therapeutic clinical intervention. Developing advanced target-therapy agents such as sorafenib appears to be the only effective clinical intervention for patients with HCC to date, but only limited trials have been conducted in this regard. Because of their enhanced preventive/therapeutic effects, traditional Chinese herbal medicine (CHM)-derived compounds are considered suitable agents for HCC treatment. The CHM-derived compounds also possess multilevel, multitarget, and coordinated intervention effects, making them ideal candidates for inhibition of tumor progression and HCC metastasis. This article reviews the anticancer activity of various CHMs with the hope of providing a better understanding of how to best use CHM for HCC treatment
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