It is assumed from the energy level that ultraviolet (UV) photons may have intensifying effect on BaFBr∶Eu 2+. In this paper, effect of UV photons (220~290 nm) on the PSL intensity of X-ray irradiated BaFBr∶Eu 2+...It is assumed from the energy level that ultraviolet (UV) photons may have intensifying effect on BaFBr∶Eu 2+. In this paper, effect of UV photons (220~290 nm) on the PSL intensity of X-ray irradiated BaFBr∶Eu 2+ was measured and compared to that on the PSL intensity of 220 nm photons irradiated BaFBr∶Eu 2+. It was found that after the excitation of UV photons the PSL intensity of X-ray irradiated samples decreases least at 250 nm and that of 220 nm photons irradiated samples increases most at 250 nm. When the irradiation sources are X-rays and 220 nm photons the excited electrons are photoelectron and thermal-electrons, respectively, and they have different possibility of being captured by electron traps or combined with luminescent centers. And the peak at 250 nm can be explained with the model of electrons tunneling. It is assumed that the electrons excited by 250 nm have the most possibility of tunneling.展开更多
The world economy in 2024 proved surprisingly resilient despite multiple shocks. This resilience can largely be attributed to the effects of tight monetary policies and the strong performance of labor markets in major...The world economy in 2024 proved surprisingly resilient despite multiple shocks. This resilience can largely be attributed to the effects of tight monetary policies and the strong performance of labor markets in major economies. Although a recession was narrowly avoided, the intensifying strategic rivalries among major powers, rising geopolitical risks, the resurgence of trade protectionism and sluggish global growth have all cast a shadow over the economic outlook.展开更多
The year 2024 marks the tenth anniversary of General Secretary Xi Jinping’s proposal for a new energy security strategy and the start of the second decade of the Belt and Road Initiative.During this year,the internat...The year 2024 marks the tenth anniversary of General Secretary Xi Jinping’s proposal for a new energy security strategy and the start of the second decade of the Belt and Road Initiative.During this year,the international situation grew increasingly complex,with intensifying rivalries among major powers and sporadic occurrences of geopolitical conflicts and localized disturbances.CNPC’s international operations focus on maintaining stability while making progress,successfully overcoming various intertwined risks and achieving new milestones in international business development.For six consecutive years,the overseas equity production has maintained an equivalent of 100 million tons.International trade has achieved stable progress,and engineering services have made new breakthroughs in market expansion,contributing new momentum to CNPC’s establishment as a world-class enterprise.展开更多
Since 2023,the situation in the South China Sea has become more tense and volatile,characterized by frequent maritime frictions between China and the Philippines,which have intensified public opinion battles around th...Since 2023,the situation in the South China Sea has become more tense and volatile,characterized by frequent maritime frictions between China and the Philippines,which have intensified public opinion battles around this issue.The increased military presence of extra-territorial forces,in particular the United States and Japan,along with their support for and encouragement of the Philippines,is undoubtedly the primary external factor contributing to the escalation of tensions in the South China Sea.In recent years,the South China Sea has emerged as a critical part of the collaborative efforts of the US and Japan to advance the Indo-Pacific strategy and enlist regional countries to contain China.Through mutual support via coordinated actions,the two countries have increased their presence in the South China Sea across various levels and domains,exerting a detrimental impact on the regional situation,China-ASEAN relations,and the overall regional order.Following his assumption of office,Prime Minister of Japan Shigeru Ishiba has continued to hype up the narrative of“China’s unilateral change to the status quo in the South China Sea,”and pledged to strengthen maritime security cooperation with Vietnam,Indonesia,and other ASEAN member states under the pretext of“maintaining stability in the South China Sea.”During his second term,US President Donald Trump will likely maintain a policy of strong interference in the South China Sea.The future dynamics of US-Japan collusion in this region necessitate closer monitoring and heightened vigilance.展开更多
1 Foreword The crises produced by the COVID-19 pandemic and the ongoing Russia-Ukraine conflict have starkly highlighted the critical need for scientific innovation and global cooperation.The pandemic underscored the ...1 Foreword The crises produced by the COVID-19 pandemic and the ongoing Russia-Ukraine conflict have starkly highlighted the critical need for scientific innovation and global cooperation.The pandemic underscored the urgency of swift,science-driven responses to worldwide health emergencies,while the war has intensified energy shortages and material scarcities,amplifying the demand for sustainable and resilient solutions.展开更多
Surface morphology and inner structure of the dust were observed by ICP-AES, SEM-EDS and XRD to examine the strengthening measures of leaching potassium salt from the sintering dust by water. The results showed that t...Surface morphology and inner structure of the dust were observed by ICP-AES, SEM-EDS and XRD to examine the strengthening measures of leaching potassium salt from the sintering dust by water. The results showed that the main component of the sintering dust was iron-oxygen compound, with KCl adsorbed on its surface. Leaching experiments showed that the KCl in the ESP dust could be separated and recovered by water leaching and fractional crystallization. The yield of K-Na vaporized crystalline salt was 18.56%, in which the mass fractions of KCl, NaCl, CaSO4 and K2SO4 were about 61.21%, 13.40%, 14.62%and 10.86%, respectively. The leaching kinetics of potassium salt from the sintering dust fits the external diffusion model well. The leaching speed and the leaching rate of the potassium salt can be increased by increasing the leaching temperature, strengthening the stirring speed and increasing the liquid-solid ratio.展开更多
Liquid storage tanks are essential structures that are often located in residential and industrial areas; thus an assessment of their seismic performance is an important engineering issue. In this paper, the seismic r...Liquid storage tanks are essential structures that are often located in residential and industrial areas; thus an assessment of their seismic performance is an important engineering issue. In this paper, the seismic response ofunanchored steel liquid storage tanks is investigated using the endurance time (ET) dynamic analysis procedure and compared to responses obtained for anchored tanks under actual ground motions and intensifying ET records. In most cases, the results from ground motions are properly obtained with negligible differences using ET records. It is observed that uplifting of the tank base, which is closely related to the tank aspect ratio, has the greatest significance in the responses of the tank and can be predicted with reasonable accuracy by using currently available ET records.展开更多
Calculation of moderator analogues for 14 MeV neutrons as source were made at a IBM/PC AT computer using TAMAKER-ANISN program and 46 groups (25 neutron groups, 21 photon groups) UW cross section data. The intensifyin...Calculation of moderator analogues for 14 MeV neutrons as source were made at a IBM/PC AT computer using TAMAKER-ANISN program and 46 groups (25 neutron groups, 21 photon groups) UW cross section data. The intensifying effect of lead and natural uranium for moderating 14 MeV neutrons is confirmed. Adopting proper structure of the moderator, the intensifying factor M (times) may be larger than 3. Using lead and natural uranium in sub-critical assemblies (or call boosters),with 14 MeV neutrons as source, with the same dimension as that of above, the intensifying effect is also condrmed. With a proper structure of sub-critical assembly,the intensifying factor M may be close to or eved larger than (1 - k)-1 where k isthe effective multiplication factor.展开更多
Based on the holographic theory, a pair of reflective holographic lenses have been utilized with an aim to improve the optical properties of night vision goggles. The aberration distribution of the holographic lens ha...Based on the holographic theory, a pair of reflective holographic lenses have been utilized with an aim to improve the optical properties of night vision goggles. The aberration distribution of the holographic lens has been confirmed by experiments and compensated by a conventional symmetrical spherical system. Resulting data of the whole optical system are given.展开更多
AIM:To investigate whether neoadjuvant-intensified radiochemotherapy improved overall and disease-free survival in patients with locally advanced rectal cancer.METHODS:Between January 2007 and December 2011,80 patient...AIM:To investigate whether neoadjuvant-intensified radiochemotherapy improved overall and disease-free survival in patients with locally advanced rectal cancer.METHODS:Between January 2007 and December 2011,80 patients with histologically confirmed rectal adenocarcinoma were enrolled.Tumors were clinically classified as either T3 or T4 and by the N stage based on the presence or absence of positive regional lymph nodes.Patients received intensified combined modality treatment,consisting of neoadjuvant radiation therapy(50.4-54.0 Gy) and infusional chemotherapy(oxaliplatin 50 mg/m 2) on the first day of each week,plus five daily continuous infusions of fluorouracil(200 mg/m 2 per die) from the first day of radiation therapy until radiotherapy completion.Patients received five or six cycles of oxaliplatin based on performance status,clinical lymph node involvement,and potential risk of a non-sphincter-conserving surgical procedure.Surgery was planned 7 to 9 wk after the end of radiochemotherapy treatment;adjuvant chemotherapy treatment was left to the oncologist's discretion and was recommended in patients with positive lymph nodes.After treatment,all patients were monitored every three months for the first year and every six months for the subsequent years.RESULTS:Of the 80 patients enrolled,75 patients completed the programmed neoadjuvant radiochemotherapy treatment.All patients received the radiotherapy prescribed total dose;five patients suspended chemotherapy indefinitely because of chemotherapyrelated toxicity.At least five cycles of oxaliplatin were administered to 73 patients.Treatment was well tolerated with high compliance and a good level of toxicity.Most of the acute toxic effects observed were classified as grades 1-2.Proctitis grade 2 was the most common symptom(63.75%) and the earliest manifestation of acute toxicity.Acute toxicity grades 3-4 was reported in 30% of patients and grade 3 or 4 diarrhoea reported in just three patients(3.75%).Seventy-seven patients underwent surgery;low anterior resection was performed in 52 patients,Miles' surgery in 11 patients and total mesorectal excision in nine patients.Fifty patients showed tumor downsizing ≥ 50% pathological downstaging in 88.00% of tumors.Out of 75 patients surviving surgery,67 patients(89.33%) had some form of downstaging after preoperative treatment.A pathological complete response was achieved in 23.75% of patients and a nearly pathologic complete response(stage ypT1ypN0) in six patients.An involvement of the radial margin was never present.During surgery,intra-abdominal metastases were found in only one patient(1.25%).Initially,45 patients required an abdominoperineal resection due to a tumor distal margin ≤ 5 cm from the anal verge.Of these patients,only seven of them underwent Miles' surgery and sphincter preservation was guaranteed in 84.50% of patients in this subgroup.Fourteen patients received postoperative chemotherapy.In the full analysis of enrolled cohort,eight of the 80 patients died,with seven deaths related to rectal cancer and one to unrelated causes.Local recurrences were observed in seven patients(8.75%) and distant metastases in 17 cases(21.25%).The fiveyear rate of overall survival rate was 90.91%.Using a median follow-up time of 28.5 mo,the cumulative incidence of local recurrences was 8.75%,and the overall survival and disease-free survival rates were 90.00% and 70.00%,respectively.CONCLUSION:The results of this study suggest oxaliplatin chemotherapy has a beneficial effect on overall survival,likely due to an increase in local tumor control.展开更多
Experiments were conducted to investigate the behavior of the sequential system of intensified zero-valent iron process(IZVI) and anaerobic filter and biological aerated filter(AF/BAF) reactors for advanced treatment ...Experiments were conducted to investigate the behavior of the sequential system of intensified zero-valent iron process(IZVI) and anaerobic filter and biological aerated filter(AF/BAF) reactors for advanced treatment of biologically pretreated coking wastewater. Particular attention was paid to the performance of the integrated system for the removal of chemical oxygen demand(COD), ammonia nitrogen(NH3-N) and total nitrogen(TN). The average removal efficiencies of COD, NH3-N and TN were 76.28%, 96.76% and 59.97%, with the average effluent mass concentrations of 56, 0.53 and 18.83 mg/L, respectively, reaching the first grade of the national discharge standard. Moreover, the results of gas chromatography/mass spectrum(GC/MS) and gel permeation chromatography(GPC) analysis demonstrated that the refractory organic compounds with high relative molecular mass were partly removed in IZVI process by the function of oxidation-reduction, flocculation and adsorption which could also enhance the biodegradability of the system effluent. The removal efficiencies of NH3-N and TN were achieved mainly in the subsequent AF/BAF reactors by nitrification and denitrification. Overall, the results obtained show that the application of IZVI in combination with AF/BAF is a promising technology for advanced treatment of biologically pretreated coking wastewater.展开更多
It was very difficult for the smelting of vanadium-bearing titanomagnetite by blast furnace because the content of TiO2 of blast furnace slag could amount to 20%-25%.After long term development and continuous improvem...It was very difficult for the smelting of vanadium-bearing titanomagnetite by blast furnace because the content of TiO2 of blast furnace slag could amount to 20%-25%.After long term development and continuous improvement,special intensified smelting technologies for vanadium-bearing titanomagnetite by blast furnace were obtained and improved gradually.With the improvement of beneficiated material level and equipment level,smelting intensity has been increased gradually and the highest comprehensive smelting intensity reached 1.45 t/(m3·d).Technical-economic indexes of blast furnace have also been increased remarkably.The highest utilization coefficient exceeded 2.7 t/(m3·d)on the condition that the burden grade was only about 50%.展开更多
Dioecious species evolved from species with monomorphic sex systems in order to achieve overall fitness gains by separating male and female functions.As reproductive organs,unisexual flowers have different reproductiv...Dioecious species evolved from species with monomorphic sex systems in order to achieve overall fitness gains by separating male and female functions.As reproductive organs,unisexual flowers have different reproductive roles and exhibit conspicuous sexual dimorphism.To date,little is known about the temporal variations in and molecular mechanisms underlying the morphology and reproductive costs of dioecious flowers.We investigated male and female flowers of Salix paraplesia in three flowering stages before pollination(the early,blooming and late stages)via transcriptional sequencing as well as metabolite content and phenotypic analysis.We found that a large number of sex-biased genes,rather than sex-limited genes,were responsible for sexual dimorphism in S.paraplesia flowers and that the variation in gene expression in male flowers intensified this situation throughout flower development.The temporal dynamics of sex-biased genes derived from changes in reproductive function during the different flowering stages.Sexually differentiated metabolites related to respiration and flavonoid biosynthesis exhibited the same bias directions as the sex-biased genes.These sex-biased genes were involved mainly in signal transduction,photosynthesis,respiration,cell proliferation,phytochrome biosynthesis,and phenol metabolism;therefore,they resulted in more biomass accumulation and higher energy consumption in male catkins.Our results indicated that sex-biased gene expression in S.paraplesia flowers is associated with different reproductive investments in unisexual flowers;male flowers require a greater reproductive investment to meet their higher biomass accumulation and energy consumption needs.展开更多
Coal fly ash(FA),a valuable industrial solid residue generated from coal combustion,is composed of various metal oxides and has a high thermal stability.Given that the coal-based energy will continue to account for a ...Coal fly ash(FA),a valuable industrial solid residue generated from coal combustion,is composed of various metal oxides and has a high thermal stability.Given that the coal-based energy will continue to account for a significant portion of global electricity generation in the coming years,the lack of effective management strategies exacerbates the threat of FA wastes to the surrounding environment and human health.For a sustainable development,green and renewable hydrogen economy and CO_(2)capture efforts provide appealing opportunities to valorize FA as catalysts and/or sorbents due to their appealing physicochemical properties.Hydrogen applications along with carbon neutrality are potential strategies to mitigate climate change crisis,but high processing costs(catalysts/sorbents)are challenging to realize this purpose.In this context,the utilization of FA not only enhances industrial competitiveness(by reducing manufacturing costs),but also provides ecologically friendly approaches to minimizing this solid waste.This state-of-the-art review highlights a wide-ranging outlook on the valorization of FA as catalysts and sorbents for hydrogen-rich gas production via conventional/intensified processes(CO_(2)/H_(2)O reforming,ammonia decomposition,hydride hydrolysis).The fundamental physicochemical characterizations and hazards/utilization of FA,which significantly affect the FA's utilization in various fields,are first introduced.The influence of several factors(like FA types and catalysis/sorption operation conditions)on the activity performance of FA-based materials is then discussed in detail.This critical review aims to open the window to further innovative ideas regarding the application of different FA residues in other catalytic and sorption processes.展开更多
Intensifying effects of ferrous sulfate and pyrite on bioleaching of low-grade molybdenite concentrate were studied in this paper. The experimental results show that the oxidation dissolution of molybdenite can be acc...Intensifying effects of ferrous sulfate and pyrite on bioleaching of low-grade molybdenite concentrate were studied in this paper. The experimental results show that the oxidation dissolution of molybdenite can be accelerated with the addition of either ferrous sulfate or pyrite in bi- oleaching medium. Pyrite has better enhancing effect than ferrous sulfate, and the highest molybdenum leaching rate in pyrite-added solutions is 20.85 %, increasing by 12.64 % compared with that in 9 K leaching system. Molybdenum leaching rate does not increase linearly with the increase of the addition of either ferrous sulfate or pyrite in each type solution. Great amounts of [NH4Fe3(SO4)2(OH)6] and [KFe3(SO4)2(OH)6] with different morphologies will be deposited on molybdenite ores when the additions of Fe from ferrous sulfate or pyrite exceed that from 9 K leaching system by 0.5 times, and these deposits hinder the oxidation dissolution of molybdenite to some extent.展开更多
Dividing-wall columns(DWCs)are widely used in the separation of ternary mixtures,but rarely seen in the separation of petroleum fractions.This work develops two novel and energy-efficient designs of lubricant-type vac...Dividing-wall columns(DWCs)are widely used in the separation of ternary mixtures,but rarely seen in the separation of petroleum fractions.This work develops two novel and energy-efficient designs of lubricant-type vacuum distillation process(LVDP)for the separation of hydroisomerization fractions(HIF)of a hydrocracking tail oil(HTO).First,the HTO hydroisomerization reaction is investigated in an experimental fixed-bed reactor to achieve the optimum liquid HIF by analyzing the impact of the operating conditions.A LVDP used for HIF separation is proposed and optimized.Subsequently,two thermal coupling intensified technologies,including side-stream(SC)and dividing-wall column(DWC),are combined with the LVDP to develop side-stream vacuum distillation process(SC-LVDP)and dividing-wall column vacuum distillation process(DWC-LVDP).The performance of LVDP,SC-LVDP,and DWC-LVDP are evaluated in terms of energy consumption,capital cost,total annual cost,product yields,and stripping steam consumption.The results demonstrates that the intensified processes,SC-LVDP and DWC-LVDP significantly decreases the energy consumption and capital cost compared with LVDP.DWC-LVDP further decreases in capital cost due to the removal of the side stripper and narrows the overlap between the third lube oils and fourth lube oils.This study attempts to combine DWC structure into the separation of petroleum fractions,and the proposed approach and the results presented provide an incentive for the industrial implementation of high-quality utilization of HTO through intensified LVDP.展开更多
The removal of disinfection by-products formation potential(DBPFP) in artificially intensified biological activated carbon(IBAC) process which is developed on the basis of traditional ozone granular activated carbon w...The removal of disinfection by-products formation potential(DBPFP) in artificially intensified biological activated carbon(IBAC) process which is developed on the basis of traditional ozone granular activated carbon was evaluated. By IBAC removals of 31% and 68% for THMFP and HAAFP were obtained respectively. Under identical conditions, the removals of the same substances were 4% and 32% respectively only by the granular activated carbon(GAC) process. Compared with GAC, the high removal rates of the two formed potential substances were due to the increasing of bioactivity of the media and the synergistic capabilities of biological degradation cooperating with activated carbon adsorption of organic compounds. A clear linear correlation(R 2=0.9562 and R 2=0.9007) between DOC HAAFP removal rate and Empty Bed Contact Time(EBCT) of IBAC process was observed, while that between THMFP removal rate and EBCT of GAC was R 2=0.9782. In addition certain linear correlations between THMFP, HAAFP and UV 254 (R 2=0.855 and R 2=0.7702) were found for the treated water. For IBAC process there are also more advantages such as long backwashing cycle time, low backwashing intensity and prolonging activated carbon lifetime and so on.展开更多
Fluorescence lifetime imaging microscopy(FLIM)is increasingly used in biomedicine,material science,chemistry,and other related research fields,because of its advantages of high specificity and sensitivity in monitorin...Fluorescence lifetime imaging microscopy(FLIM)is increasingly used in biomedicine,material science,chemistry,and other related research fields,because of its advantages of high specificity and sensitivity in monitoring cellular microenvironments,studying interaction between proteins,metabolic state,screening drugs and analyzing their efficacy,characterizing novel materials,and diagnosing early cancers.Understandably,there is a large interest in obtaining FLIM data within an acquisition time as short as possible.Consequently,there is currently a technology that advances towards faster and faster FLIM recording.However,the maximum speed of a recording technique is only part of the problerm.The acquisition time of a FLIM image is a complex function of many factors.These include the photon rate that can be obtained from the sample,the amount of information a technique extracts from the decay functions,the fficiency at which it determines fluorescence decay parameters from the recorded photons,the demands for the accuracy of these parameters,the number of pixels,and the lateral and axial resolutions that are obtained in biological materials.Starting from a discussion of the parameters which determine the acquisition time,this review will describe existing and emerging FLIM techniques and data analysis algo-rithms,and analyze their performance and recording speed in biological and biomedical applications.展开更多
文摘It is assumed from the energy level that ultraviolet (UV) photons may have intensifying effect on BaFBr∶Eu 2+. In this paper, effect of UV photons (220~290 nm) on the PSL intensity of X-ray irradiated BaFBr∶Eu 2+ was measured and compared to that on the PSL intensity of 220 nm photons irradiated BaFBr∶Eu 2+. It was found that after the excitation of UV photons the PSL intensity of X-ray irradiated samples decreases least at 250 nm and that of 220 nm photons irradiated samples increases most at 250 nm. When the irradiation sources are X-rays and 220 nm photons the excited electrons are photoelectron and thermal-electrons, respectively, and they have different possibility of being captured by electron traps or combined with luminescent centers. And the peak at 250 nm can be explained with the model of electrons tunneling. It is assumed that the electrons excited by 250 nm have the most possibility of tunneling.
文摘The world economy in 2024 proved surprisingly resilient despite multiple shocks. This resilience can largely be attributed to the effects of tight monetary policies and the strong performance of labor markets in major economies. Although a recession was narrowly avoided, the intensifying strategic rivalries among major powers, rising geopolitical risks, the resurgence of trade protectionism and sluggish global growth have all cast a shadow over the economic outlook.
文摘The year 2024 marks the tenth anniversary of General Secretary Xi Jinping’s proposal for a new energy security strategy and the start of the second decade of the Belt and Road Initiative.During this year,the international situation grew increasingly complex,with intensifying rivalries among major powers and sporadic occurrences of geopolitical conflicts and localized disturbances.CNPC’s international operations focus on maintaining stability while making progress,successfully overcoming various intertwined risks and achieving new milestones in international business development.For six consecutive years,the overseas equity production has maintained an equivalent of 100 million tons.International trade has achieved stable progress,and engineering services have made new breakthroughs in market expansion,contributing new momentum to CNPC’s establishment as a world-class enterprise.
文摘Since 2023,the situation in the South China Sea has become more tense and volatile,characterized by frequent maritime frictions between China and the Philippines,which have intensified public opinion battles around this issue.The increased military presence of extra-territorial forces,in particular the United States and Japan,along with their support for and encouragement of the Philippines,is undoubtedly the primary external factor contributing to the escalation of tensions in the South China Sea.In recent years,the South China Sea has emerged as a critical part of the collaborative efforts of the US and Japan to advance the Indo-Pacific strategy and enlist regional countries to contain China.Through mutual support via coordinated actions,the two countries have increased their presence in the South China Sea across various levels and domains,exerting a detrimental impact on the regional situation,China-ASEAN relations,and the overall regional order.Following his assumption of office,Prime Minister of Japan Shigeru Ishiba has continued to hype up the narrative of“China’s unilateral change to the status quo in the South China Sea,”and pledged to strengthen maritime security cooperation with Vietnam,Indonesia,and other ASEAN member states under the pretext of“maintaining stability in the South China Sea.”During his second term,US President Donald Trump will likely maintain a policy of strong interference in the South China Sea.The future dynamics of US-Japan collusion in this region necessitate closer monitoring and heightened vigilance.
文摘1 Foreword The crises produced by the COVID-19 pandemic and the ongoing Russia-Ukraine conflict have starkly highlighted the critical need for scientific innovation and global cooperation.The pandemic underscored the urgency of swift,science-driven responses to worldwide health emergencies,while the war has intensified energy shortages and material scarcities,amplifying the demand for sustainable and resilient solutions.
基金Projects (2012AA062502,2012AA06A118) supported by the High-tech Research and Development Program of China
文摘Surface morphology and inner structure of the dust were observed by ICP-AES, SEM-EDS and XRD to examine the strengthening measures of leaching potassium salt from the sintering dust by water. The results showed that the main component of the sintering dust was iron-oxygen compound, with KCl adsorbed on its surface. Leaching experiments showed that the KCl in the ESP dust could be separated and recovered by water leaching and fractional crystallization. The yield of K-Na vaporized crystalline salt was 18.56%, in which the mass fractions of KCl, NaCl, CaSO4 and K2SO4 were about 61.21%, 13.40%, 14.62%and 10.86%, respectively. The leaching kinetics of potassium salt from the sintering dust fits the external diffusion model well. The leaching speed and the leaching rate of the potassium salt can be increased by increasing the leaching temperature, strengthening the stirring speed and increasing the liquid-solid ratio.
文摘Liquid storage tanks are essential structures that are often located in residential and industrial areas; thus an assessment of their seismic performance is an important engineering issue. In this paper, the seismic response ofunanchored steel liquid storage tanks is investigated using the endurance time (ET) dynamic analysis procedure and compared to responses obtained for anchored tanks under actual ground motions and intensifying ET records. In most cases, the results from ground motions are properly obtained with negligible differences using ET records. It is observed that uplifting of the tank base, which is closely related to the tank aspect ratio, has the greatest significance in the responses of the tank and can be predicted with reasonable accuracy by using currently available ET records.
文摘Calculation of moderator analogues for 14 MeV neutrons as source were made at a IBM/PC AT computer using TAMAKER-ANISN program and 46 groups (25 neutron groups, 21 photon groups) UW cross section data. The intensifying effect of lead and natural uranium for moderating 14 MeV neutrons is confirmed. Adopting proper structure of the moderator, the intensifying factor M (times) may be larger than 3. Using lead and natural uranium in sub-critical assemblies (or call boosters),with 14 MeV neutrons as source, with the same dimension as that of above, the intensifying effect is also condrmed. With a proper structure of sub-critical assembly,the intensifying factor M may be close to or eved larger than (1 - k)-1 where k isthe effective multiplication factor.
文摘Based on the holographic theory, a pair of reflective holographic lenses have been utilized with an aim to improve the optical properties of night vision goggles. The aberration distribution of the holographic lens has been confirmed by experiments and compensated by a conventional symmetrical spherical system. Resulting data of the whole optical system are given.
文摘AIM:To investigate whether neoadjuvant-intensified radiochemotherapy improved overall and disease-free survival in patients with locally advanced rectal cancer.METHODS:Between January 2007 and December 2011,80 patients with histologically confirmed rectal adenocarcinoma were enrolled.Tumors were clinically classified as either T3 or T4 and by the N stage based on the presence or absence of positive regional lymph nodes.Patients received intensified combined modality treatment,consisting of neoadjuvant radiation therapy(50.4-54.0 Gy) and infusional chemotherapy(oxaliplatin 50 mg/m 2) on the first day of each week,plus five daily continuous infusions of fluorouracil(200 mg/m 2 per die) from the first day of radiation therapy until radiotherapy completion.Patients received five or six cycles of oxaliplatin based on performance status,clinical lymph node involvement,and potential risk of a non-sphincter-conserving surgical procedure.Surgery was planned 7 to 9 wk after the end of radiochemotherapy treatment;adjuvant chemotherapy treatment was left to the oncologist's discretion and was recommended in patients with positive lymph nodes.After treatment,all patients were monitored every three months for the first year and every six months for the subsequent years.RESULTS:Of the 80 patients enrolled,75 patients completed the programmed neoadjuvant radiochemotherapy treatment.All patients received the radiotherapy prescribed total dose;five patients suspended chemotherapy indefinitely because of chemotherapyrelated toxicity.At least five cycles of oxaliplatin were administered to 73 patients.Treatment was well tolerated with high compliance and a good level of toxicity.Most of the acute toxic effects observed were classified as grades 1-2.Proctitis grade 2 was the most common symptom(63.75%) and the earliest manifestation of acute toxicity.Acute toxicity grades 3-4 was reported in 30% of patients and grade 3 or 4 diarrhoea reported in just three patients(3.75%).Seventy-seven patients underwent surgery;low anterior resection was performed in 52 patients,Miles' surgery in 11 patients and total mesorectal excision in nine patients.Fifty patients showed tumor downsizing ≥ 50% pathological downstaging in 88.00% of tumors.Out of 75 patients surviving surgery,67 patients(89.33%) had some form of downstaging after preoperative treatment.A pathological complete response was achieved in 23.75% of patients and a nearly pathologic complete response(stage ypT1ypN0) in six patients.An involvement of the radial margin was never present.During surgery,intra-abdominal metastases were found in only one patient(1.25%).Initially,45 patients required an abdominoperineal resection due to a tumor distal margin ≤ 5 cm from the anal verge.Of these patients,only seven of them underwent Miles' surgery and sphincter preservation was guaranteed in 84.50% of patients in this subgroup.Fourteen patients received postoperative chemotherapy.In the full analysis of enrolled cohort,eight of the 80 patients died,with seven deaths related to rectal cancer and one to unrelated causes.Local recurrences were observed in seven patients(8.75%) and distant metastases in 17 cases(21.25%).The fiveyear rate of overall survival rate was 90.91%.Using a median follow-up time of 28.5 mo,the cumulative incidence of local recurrences was 8.75%,and the overall survival and disease-free survival rates were 90.00% and 70.00%,respectively.CONCLUSION:The results of this study suggest oxaliplatin chemotherapy has a beneficial effect on overall survival,likely due to an increase in local tumor control.
基金Project(2006BAJ04A)suppprted by the National Sci-Tech Support Plan,China
文摘Experiments were conducted to investigate the behavior of the sequential system of intensified zero-valent iron process(IZVI) and anaerobic filter and biological aerated filter(AF/BAF) reactors for advanced treatment of biologically pretreated coking wastewater. Particular attention was paid to the performance of the integrated system for the removal of chemical oxygen demand(COD), ammonia nitrogen(NH3-N) and total nitrogen(TN). The average removal efficiencies of COD, NH3-N and TN were 76.28%, 96.76% and 59.97%, with the average effluent mass concentrations of 56, 0.53 and 18.83 mg/L, respectively, reaching the first grade of the national discharge standard. Moreover, the results of gas chromatography/mass spectrum(GC/MS) and gel permeation chromatography(GPC) analysis demonstrated that the refractory organic compounds with high relative molecular mass were partly removed in IZVI process by the function of oxidation-reduction, flocculation and adsorption which could also enhance the biodegradability of the system effluent. The removal efficiencies of NH3-N and TN were achieved mainly in the subsequent AF/BAF reactors by nitrification and denitrification. Overall, the results obtained show that the application of IZVI in combination with AF/BAF is a promising technology for advanced treatment of biologically pretreated coking wastewater.
文摘It was very difficult for the smelting of vanadium-bearing titanomagnetite by blast furnace because the content of TiO2 of blast furnace slag could amount to 20%-25%.After long term development and continuous improvement,special intensified smelting technologies for vanadium-bearing titanomagnetite by blast furnace were obtained and improved gradually.With the improvement of beneficiated material level and equipment level,smelting intensity has been increased gradually and the highest comprehensive smelting intensity reached 1.45 t/(m3·d).Technical-economic indexes of blast furnace have also been increased remarkably.The highest utilization coefficient exceeded 2.7 t/(m3·d)on the condition that the burden grade was only about 50%.
基金the Second Tibetan Plateau Scientific Expedition and Research Program(2019QZKK0404)the Strategic Priority Research Program of the Chinese Academy of Sciences(XDA20020401)+1 种基金the National Natural Science Foundation of China(31770650)the Fundamental Research Funds for the Central Universities.
文摘Dioecious species evolved from species with monomorphic sex systems in order to achieve overall fitness gains by separating male and female functions.As reproductive organs,unisexual flowers have different reproductive roles and exhibit conspicuous sexual dimorphism.To date,little is known about the temporal variations in and molecular mechanisms underlying the morphology and reproductive costs of dioecious flowers.We investigated male and female flowers of Salix paraplesia in three flowering stages before pollination(the early,blooming and late stages)via transcriptional sequencing as well as metabolite content and phenotypic analysis.We found that a large number of sex-biased genes,rather than sex-limited genes,were responsible for sexual dimorphism in S.paraplesia flowers and that the variation in gene expression in male flowers intensified this situation throughout flower development.The temporal dynamics of sex-biased genes derived from changes in reproductive function during the different flowering stages.Sexually differentiated metabolites related to respiration and flavonoid biosynthesis exhibited the same bias directions as the sex-biased genes.These sex-biased genes were involved mainly in signal transduction,photosynthesis,respiration,cell proliferation,phytochrome biosynthesis,and phenol metabolism;therefore,they resulted in more biomass accumulation and higher energy consumption in male catkins.Our results indicated that sex-biased gene expression in S.paraplesia flowers is associated with different reproductive investments in unisexual flowers;male flowers require a greater reproductive investment to meet their higher biomass accumulation and energy consumption needs.
基金supported by the Natural Sciences and Engineering Research Council of Canada(NSERC)the China Scholarship Council(CSC,201708130079)。
文摘Coal fly ash(FA),a valuable industrial solid residue generated from coal combustion,is composed of various metal oxides and has a high thermal stability.Given that the coal-based energy will continue to account for a significant portion of global electricity generation in the coming years,the lack of effective management strategies exacerbates the threat of FA wastes to the surrounding environment and human health.For a sustainable development,green and renewable hydrogen economy and CO_(2)capture efforts provide appealing opportunities to valorize FA as catalysts and/or sorbents due to their appealing physicochemical properties.Hydrogen applications along with carbon neutrality are potential strategies to mitigate climate change crisis,but high processing costs(catalysts/sorbents)are challenging to realize this purpose.In this context,the utilization of FA not only enhances industrial competitiveness(by reducing manufacturing costs),but also provides ecologically friendly approaches to minimizing this solid waste.This state-of-the-art review highlights a wide-ranging outlook on the valorization of FA as catalysts and sorbents for hydrogen-rich gas production via conventional/intensified processes(CO_(2)/H_(2)O reforming,ammonia decomposition,hydride hydrolysis).The fundamental physicochemical characterizations and hazards/utilization of FA,which significantly affect the FA's utilization in various fields,are first introduced.The influence of several factors(like FA types and catalysis/sorption operation conditions)on the activity performance of FA-based materials is then discussed in detail.This critical review aims to open the window to further innovative ideas regarding the application of different FA residues in other catalytic and sorption processes.
基金financially supported by the National Natural Science Foundation of China(Nos.51304151 and 51174062)the High-Tech Research and Development Program of China(No.2012AA061501)
文摘Intensifying effects of ferrous sulfate and pyrite on bioleaching of low-grade molybdenite concentrate were studied in this paper. The experimental results show that the oxidation dissolution of molybdenite can be accelerated with the addition of either ferrous sulfate or pyrite in bi- oleaching medium. Pyrite has better enhancing effect than ferrous sulfate, and the highest molybdenum leaching rate in pyrite-added solutions is 20.85 %, increasing by 12.64 % compared with that in 9 K leaching system. Molybdenum leaching rate does not increase linearly with the increase of the addition of either ferrous sulfate or pyrite in each type solution. Great amounts of [NH4Fe3(SO4)2(OH)6] and [KFe3(SO4)2(OH)6] with different morphologies will be deposited on molybdenite ores when the additions of Fe from ferrous sulfate or pyrite exceed that from 9 K leaching system by 0.5 times, and these deposits hinder the oxidation dissolution of molybdenite to some extent.
基金funded by Shanghai Sailing Program (No.19YF1410800)National Natural Science Foundation of China(No. 21908056)。
文摘Dividing-wall columns(DWCs)are widely used in the separation of ternary mixtures,but rarely seen in the separation of petroleum fractions.This work develops two novel and energy-efficient designs of lubricant-type vacuum distillation process(LVDP)for the separation of hydroisomerization fractions(HIF)of a hydrocracking tail oil(HTO).First,the HTO hydroisomerization reaction is investigated in an experimental fixed-bed reactor to achieve the optimum liquid HIF by analyzing the impact of the operating conditions.A LVDP used for HIF separation is proposed and optimized.Subsequently,two thermal coupling intensified technologies,including side-stream(SC)and dividing-wall column(DWC),are combined with the LVDP to develop side-stream vacuum distillation process(SC-LVDP)and dividing-wall column vacuum distillation process(DWC-LVDP).The performance of LVDP,SC-LVDP,and DWC-LVDP are evaluated in terms of energy consumption,capital cost,total annual cost,product yields,and stripping steam consumption.The results demonstrates that the intensified processes,SC-LVDP and DWC-LVDP significantly decreases the energy consumption and capital cost compared with LVDP.DWC-LVDP further decreases in capital cost due to the removal of the side stripper and narrows the overlap between the third lube oils and fourth lube oils.This study attempts to combine DWC structure into the separation of petroleum fractions,and the proposed approach and the results presented provide an incentive for the industrial implementation of high-quality utilization of HTO through intensified LVDP.
文摘The removal of disinfection by-products formation potential(DBPFP) in artificially intensified biological activated carbon(IBAC) process which is developed on the basis of traditional ozone granular activated carbon was evaluated. By IBAC removals of 31% and 68% for THMFP and HAAFP were obtained respectively. Under identical conditions, the removals of the same substances were 4% and 32% respectively only by the granular activated carbon(GAC) process. Compared with GAC, the high removal rates of the two formed potential substances were due to the increasing of bioactivity of the media and the synergistic capabilities of biological degradation cooperating with activated carbon adsorption of organic compounds. A clear linear correlation(R 2=0.9562 and R 2=0.9007) between DOC HAAFP removal rate and Empty Bed Contact Time(EBCT) of IBAC process was observed, while that between THMFP removal rate and EBCT of GAC was R 2=0.9782. In addition certain linear correlations between THMFP, HAAFP and UV 254 (R 2=0.855 and R 2=0.7702) were found for the treated water. For IBAC process there are also more advantages such as long backwashing cycle time, low backwashing intensity and prolonging activated carbon lifetime and so on.
基金support from the National Key R&D Program of China(2017YFA0700500)National Natural Science Foundation of China(61775144/61525503/61620106016/61835009/81727804)+2 种基金(Key)Project of Department of Education of Guangdong Province(2015KGJHZ002/2016KCXTD007)Guangdong Natural Science Foundation(2014A030312008,2017A030310132,2018A030313362)Shenzhen Basic Research Project(JCYJ20170818144012025/JCYJ20170818141701667/JCYJ20170412105003520/JCYJ20150930104948169).
文摘Fluorescence lifetime imaging microscopy(FLIM)is increasingly used in biomedicine,material science,chemistry,and other related research fields,because of its advantages of high specificity and sensitivity in monitoring cellular microenvironments,studying interaction between proteins,metabolic state,screening drugs and analyzing their efficacy,characterizing novel materials,and diagnosing early cancers.Understandably,there is a large interest in obtaining FLIM data within an acquisition time as short as possible.Consequently,there is currently a technology that advances towards faster and faster FLIM recording.However,the maximum speed of a recording technique is only part of the problerm.The acquisition time of a FLIM image is a complex function of many factors.These include the photon rate that can be obtained from the sample,the amount of information a technique extracts from the decay functions,the fficiency at which it determines fluorescence decay parameters from the recorded photons,the demands for the accuracy of these parameters,the number of pixels,and the lateral and axial resolutions that are obtained in biological materials.Starting from a discussion of the parameters which determine the acquisition time,this review will describe existing and emerging FLIM techniques and data analysis algo-rithms,and analyze their performance and recording speed in biological and biomedical applications.
