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Application of direct steam injection system to minimize browning of white radish(Raphanus sativus)broth during sterilization
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作者 Tae Hoon Ham Won Byong Yoon 《International Journal of Agricultural and Biological Engineering》 SCIE EI CAS 2017年第6期210-220,共11页
Direct steam injection(DSI)was applied to minimize the quality changes of white radish(Raphanus sativus)broth during sterilization.This study compared the degree of browning of white radish broth from a retort sterili... Direct steam injection(DSI)was applied to minimize the quality changes of white radish(Raphanus sativus)broth during sterilization.This study compared the degree of browning of white radish broth from a retort sterilization system and a DSI system.The quality changes after thermal treatments,such as retorting and DSI,were evaluated by Lab color values,the browning index(BI)and sensory evaluation.As the volume of the retort pouch increased,the thermal processing time increased.Significant increases of a and b values,color difference and BI were observed.Unlike the retort sterilization,the DSI treatment showed no significant differences in color properties of the radish broth with a wide range of sterilization temperature.The highest sensory score among the DSI treated samples was observed at the lowest sterilization temperature(125℃).The results demonstrated that the DSI treatment showed a higher stability in the quality associated with the browning reaction,such as the color indices and BI because the DSI process rapidly increased the temperature of the radish broth by transferring the latent heat of steam to the fluid. 展开更多
关键词 direct steam injection(DSI) RETORT STERILIZATION quality BROWNING white radish broth sensory evaluation
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Analysis and Calculation of the Flow Pressure in the Multipoint Steam Injection String of a Horizontal Well 被引量:1
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作者 Xu Xin 《International Journal of Technology Management》 2014年第9期72-74,共3页
The multipoint steam injection string of the horizontal well is a commonly used downhole component for high efficiency steam injection of the thermal recovery horizontal well. A reasonable layout of the valves to ensu... The multipoint steam injection string of the horizontal well is a commonly used downhole component for high efficiency steam injection of the thermal recovery horizontal well. A reasonable layout of the valves to ensure an even steam output of each point is still not well designed. At present, a general design method which is urgently necessary isn' t applied by each factory. According to the balance relationship of the momentum, the energy and the mass of the fluid flowing in the string, the pressure distribution equation of the fluid flowing in the multipoint steam injection string is built. On the basis of this equation, the design calculation method of the multipoint steam injection string is come up with. A specific example is given in the paper. Study shows that, with the equation built in this paper, the string can be designed with each axial valve having the same output, so that the technical demand of an even steam injection of the horizontal well section can be met. 展开更多
关键词 horizontal well multipoint steam injection PRESSURE CALCULATION
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Coupled thermo-hydro analysis of steam flow in a horizontal wellbore in a heavy oil reservoir
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作者 Li Mingzhong Wang Yiping Wang Weiyang 《Petroleum Science》 SCIE CAS CSCD 2012年第4期498-505,共8页
A novel model for dynamic temperature distribution in heavy oil reservoirs is derived from the principle of energy conservation.A difference equation of the model is firstly separated into radial and axial difference ... A novel model for dynamic temperature distribution in heavy oil reservoirs is derived from the principle of energy conservation.A difference equation of the model is firstly separated into radial and axial difference equations and then integrated.Taking into account the coupling of temperature and pressure in the reservoir and wellbore,models for calculating distributions of the reservoir temperature,reservoir pressure,and water saturation are also developed.The steam injected into the wellbore has a more significant effect on reservoir pressure than on reservoir temperature.Calculation results indicate that the reservoir temperature and pressure decrease exponentially with increasing distance from the horizontal wellbore.The radial variation range of the pressure field induced by steam is twice as wide as that of the temperature field,and both variation ranges decrease from the wellbore heel to the toe.Variation of water saturation induced by steam is similar to the temperature and pressure fields.The radial variation ranges of the reservoir temperature and pressure increase with steam injection time,but rate of increase diminishes gradually. 展开更多
关键词 steam injection horizontal well dynamic temperature field thermo-hydro coupling model temperature profile pressure profile
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Injection-production parameters optimization research SAGD production stage
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作者 Fu Yu Qu Wenchi Song Xin 《International Journal of Technology Management》 2014年第9期119-120,共2页
Steam assisted gravity drainage (SAGD) technology has been industrialized popularization and application in our country, according to the characteristics of Xing group I SAGD experimental zone in liaohe oilfield, SA... Steam assisted gravity drainage (SAGD) technology has been industrialized popularization and application in our country, according to the characteristics of Xing group I SAGD experimental zone in liaohe oilfield, SAGD production stage injection-production parameters such as the operating pressure, Sub - Cool control, steam injection rate, steam dryness, production factor are studied and selected. 展开更多
关键词 injection-production parameters PRESSURE steam injection rate steam quality production factor
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Application of steam injection in iron ore sintering:fuel combustion efficiency and CO emissions 被引量:2
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作者 Yi-fan Wang Tao Yang +3 位作者 Hao-yu Wang Long Ding Yun-fei Luo Hong-ming Long 《Journal of Iron and Steel Research International》 SCIE EI CAS CSCD 2023年第1期31-39,共9页
Improving the combustion efficiency of fuels is essential to reducing pollutant emissions in the iron ore sintering process.The sintering bed surface steam-injection technology has attracted significant research inter... Improving the combustion efficiency of fuels is essential to reducing pollutant emissions in the iron ore sintering process.The sintering bed surface steam-injection technology has attracted significant research interest for its potential advantages in low-energy consumption and low emission.The effect of steam injection on fuel combustion efficiency and CO emission was studied by comparing the thermodynamic response from the sintering process before and after steam injection.The mechanism of improving combustion efficiency was also revealed.The results indicated that the sintering gas medium of H_(2)O-H_(2)-N_(2)-O_(2) with the blown steam improved the heat transfer conditions of fuel combustion and promoted the water gas reaction.The optimum state of steam injection was achieved at 15 min after ignition with 0.02 m^(3) min^(-1).The CO emission reduction is 10.91% compared with the base case.The combustion efficiency was 88.83%,6.15% higher than conventional sintering,and the solid fuel consumption was reduced by 1.15 kg t^(-1).It was indicated that steam injection would improve combustion efficiency and reduce solid fuel consumption.Meanwhile,the steam injection could improve the combustion kinetic conditions in the zone of unburned fuel and low oxygen partial pressure.It was conducive to the reaction of H_(2)O with C and CO to convert the CO of reducing atmosphere to CO_(2),which in turn realized the complete combustion of fuel and CO and improved the efficiency of fuel combustion. 展开更多
关键词 SINTERING steam injection FUEL Combustion efficiency CO emission
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Thermal oil recovery factors from sandpacks of variable mineralogy
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作者 Viacheslau Y.Kudrashou Hisham A.Nasr-El-Din 《Petroleum Research》 EI 2023年第4期481-489,共9页
S Steam injection is commonly used for production of viscous crude oil.Reservoir rock often contains clay minerals.Reactive nature of steam and clay minerals may lead to formation damage.This work in-vestigates oil re... S Steam injection is commonly used for production of viscous crude oil.Reservoir rock often contains clay minerals.Reactive nature of steam and clay minerals may lead to formation damage.This work in-vestigates oil recovery and changes in petrophysical properties as a function of the mineralogy.Sand-packs with quartz,calcite,feldspar,kaolinite,smectite,and illite were prepared for steam injection experiments.Permeability of the steamed sandpacks was determined using coreflood experiments.Chemical composition of the produced aqueous samples was determined using ICP-OES(inductively coupled plasma-optical emission spectroscopy).Morphology of the rock samples was studied using SEM-EDs(scanning electron microscope-energy dispersive X-ray spectroscopy).Mineralogy and elemental content of the solid samples were determined using XRD(X-ray diffraction)analysis and XRF(X-ray fluorescence)respectively.It was found that aqueous phase samples produced from clay-rich sandpacks tend to have higher pH than samples produced from samples without clay minerals.Oil recovery factors for 100%quartz case was determined to be 65 wt%.Calcite-and feldspar-rich sandpacks produced 56 and 61 wt%of oil respectively.Sandpacks with clay fractions have shown the lowest oil recovery-39,29,and 28 wt%for kaolinite-,smectite-,and illite-rich samples respectively.Mineral dissolution and pre-cipitation were the dominant damaging mechanism for quartz and calcite cases.Feldspar-rich sandpack demonstrated signs of structural destruction of the mineral and fines release.Kaolinite's effect on oil recovery was found to be associated with fines migration.Smectite hydration and swelling in presence of steam was the dominant formation damage effect on the oil production.Steam interaction with illite-rich sandpack caused formation of amorphous silica.This paper presents oil recovery factors as a function of injected pore volume(PV)of steam for sandpacks of different mineralogy.Obtained results characterize petrophysical changes caused by steam interaction with minerals in presence of oil.This data provides insights into effects of steam on minerals with different structures and properties. 展开更多
关键词 steam injection Oilrecovery KAOLINITE SMECTITE Ilite Sandpack
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Design and application of a novel coal-fired drum boiler using saline water in heavy oil recovery
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作者 Junping GU Yuxin WU +3 位作者 Liping WU Man ZHANG Hairui YANG Junfu LYU 《Frontiers in Energy》 SCIE CSCD 2020年第4期715-725,共11页
In this paper,the design and operation of a novel coal-fired circulating fluidized bed(CFB)drum boiler that can generate superheated steam using saline water were introduced.The natural circulation water dynamics with... In this paper,the design and operation of a novel coal-fired circulating fluidized bed(CFB)drum boiler that can generate superheated steam using saline water were introduced.The natural circulation water dynamics with a drum was adopted instead of the traditional once-through steam generator(OTSG)design,so that superheated steam can be generated for the better performance of the steam assisted gravity drainage(SAGD)technology in heavy oil recovery.The optimized staged evaporation method was proposed to further decrease the salinity of water in the clean water section of the boiler.The evaporating pipes of the salted water section were rearranged in the back pass of the boiler,where the heat load is low,to further improve the heat transfer safety.A CFB combustion technology was used for coal firing to achieve a uniform heat transfer condition with low heat flux.Pollutant control technologies were adopted to reduce pollutant emissions.Based on the field test,the recommended water standard for the coal-fired CFB drum boilers was determined.With the present technology,the treated recovery wastewater can be reused in steam-injection boilers to generate superheated steam.The engineering applications show that the boiler efficiency is higher than 90%,the blowdown rate is limited within 5.5%,and the superheat of steam can reach up to 30 K.Besides,the heavy oil recovery efficiency is significantly improved.Moreover,the pollutant emissions of SO2,NOV and dust are controlled within the ranges of 20-90 mg/(N·m^(3)),30-90 mg/(N·m^(3))and 2-10 mg/(N·m^(3))respectively. 展开更多
关键词 drum steam injection boiler natural circulation recovery wastewater staged evaporation circulating fluidized bed(CFB)
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