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An Integrated Oil Production Enhancement Technology Based on Waterflooding Energy Recovery
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作者 Aleksandr Lekomtsev Vitaliy Bakaneev +4 位作者 Ivan Stepanenko Petr Maximov Yulia Rozhkova Alexey Dengaev Wanli Kang 《Fluid Dynamics & Materials Processing》 EI 2023年第2期285-301,共17页
A new integrated oil production enhancement technology based on water-flooding energy recovery is proposed.After providing an extensive review of the existing scientific and technical literature on this subject,the pr... A new integrated oil production enhancement technology based on water-flooding energy recovery is proposed.After providing an extensive review of the existing scientific and technical literature on this subject,the proposed integrated technology is described together with the related process flow diagram,the criteria used to select a tar-get facility for its implementation and the outcomes of the laboratory studies conducted to analyze emulsion formation and separation kinetics.Moreover,the outcomes of numerical simulations performed using Ansys CFX software are also presented.According to these results,using the proposed approach the incremental oil production may reach 1.2 t/day(with a 13%increase)and more,even at low flow rates(less than 10 t/day),thereby providing evidence for the benefits associated with this integrated technology. 展开更多
关键词 Oil production jet pump waterflooding system energy recovery Ansys CFX
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Research on AC Electronic Load with Energy Recovery Based on Finite Control Set Model Predictive Control
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作者 Jian Wang Jianzhong Zhu +2 位作者 Xueyu Dong Chenxi Liu Jiazheng Shen 《Energy Engineering》 EI 2023年第4期965-984,共20页
Nowadays,AC electronic loads with energy recovery are widely used in the testing of uninterruptible power supplies and power supply equipment.To tackle the problems of control difficulty,strategy complexity,and poor d... Nowadays,AC electronic loads with energy recovery are widely used in the testing of uninterruptible power supplies and power supply equipment.To tackle the problems of control difficulty,strategy complexity,and poor dynamic performance of AC electronic load with energy recovery of the conventional control strategy,a control strategy of AC electronic load with energy recovery based on Finite Control Set Model Predictive Control(FCSMPC)is developed.To further reduce the computation burden of the FCS-MPC,a simplified FCS-MPC with transforming the predicted variables and using sector to select expected state is proposed.Through simplified model and equivalent approximation analysis,the transfer function of the system is obtained,and the stability and robustness of the system are analyzed.The performance of the simplified FCS-MPC is compared with space vector control(SVPWM)and conventional FCS-MPC.The results show that the FCS-MPC method performs better dynamic response and this advantage is more obvious when simulating high power loads.The simplified FCS-MPC shows similar control performance to conventional FCS-MPC at less computation burden.The control performance of the system also shows better simulation results. 展开更多
关键词 AC electronic load energy recovery finite control set model predictive control computation burden
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Powering a Low Power Wireless Sensor in a Harsh Industrial Environment: Energy Recovery with a Thermoelectric Generator and Storage on Supercapacitors
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作者 Vincent Boitier Bruno Estibals Lionel Seguier 《Energy and Power Engineering》 2023年第11期372-398,共27页
Wireless sensor networks are widely used for monitoring in remote areas. They mainly consist of wireless sensor nodes, which are usually powered by batteries with limited capacity, but are expected to last for long pe... Wireless sensor networks are widely used for monitoring in remote areas. They mainly consist of wireless sensor nodes, which are usually powered by batteries with limited capacity, but are expected to last for long periods of time. To overcome these limitations and achieve perpetual autonomy, an energy harvesting technique using a thermoelectric generator (TEG) coupled with storage on supercapacitors is proposed. The originality of the work lies in the presentation of a maintenance-free, robust, and tested solution, well adapted to a harsh industrial context with a permanent temperature gradient. The harvesting part, which is attached to the hot spot in a few seconds using magnets, can withstand temperatures of 200°C. The storage unit, which contains the electronics and supercapacitors, operates at temperatures of up to 80°C. More specifically, this article describes the final design of a 3.3 V 60 mA battery-free power supply. An analysis of the thermal potential and the electrical power that can be recovered is presented, followed by the design of the main electronic stages: energy recovery using a BQ25504, storage on supercapacitors and finally shaping the output voltage with a boost (TPS610995) followed by an LDO (TPS71533). 展开更多
关键词 energy recovery Battery-Free System SUPERCAPACITOR Thermoelectric Generator TEG BQ25504 energy Management Thermal Gradient
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Blended Regenerative Anti-Lock Braking System and Electronic Wedge Brake Coordinate Control Ensuring Maximal Energy Recovery and Stability of All-Wheel-Motor-Drive Electric Vehicles
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作者 Mahmoud Said Jneid Péter Harth 《Journal of Transportation Technologies》 2023年第3期465-495,共31页
ABS is an active safety system which showed a valuable contribution to vehicle safety and stability since it was first introduced. Recently, EVs with in-wheel-motors have drawn increasing attention owing to their grea... ABS is an active safety system which showed a valuable contribution to vehicle safety and stability since it was first introduced. Recently, EVs with in-wheel-motors have drawn increasing attention owing to their greatest advantages. Wheels torques are precisely and swiftly controlled thanks to electric motors and their advanced driving techniques. In this paper, a regenerative-ABS control RABS is proposed for all-in-wheel-motors-drive EVs. The RABS is realized as a pure electronic braking system called brake-by-wire. A coordination strategy is suggested to control RABS compromising three layers. First, wheels slip control takes place, and braking torque is calculated in the higher layer. In the coordinate interlayer, torque is allocated between actuators ensuring maximal energy recovery and vehicle stability. While in the lower layer, actuator control is performed. The RABS effectiveness is validated on a 3-DOF EVSimulink model through two straight-line braking manoeuvres with low and high initial speeds of 50 km/h and 150 km/h, respectively. Both regular and emergency braking manoeuvres are considered with ABS enabled and disabled for comparison. Simulation results showed the high performance of the proposed RABS control in terms of vehicle stability, brake response, stopping distance, and battery re-charging. 展开更多
关键词 EV Stability Regenerative-ABS Blended Braking energy recovery In-Wheel-Motor Electronic-Wedge-Brake Brake-by-Wire
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Quasi-Static Energy Recovery Logic with Single Power-Clock Supply
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作者 李舜 周锋 +2 位作者 陈春鸿 陈华 吴一品 《Journal of Semiconductors》 EI CAS CSCD 北大核心 2007年第11期1729-1734,共6页
This paper presents a new quasi-static single-phase energy recovery logic (QSSERL), which unlike any other existing adiabatic logic family,uses a single sinusoidal supply-clock without additional timing control volt... This paper presents a new quasi-static single-phase energy recovery logic (QSSERL), which unlike any other existing adiabatic logic family,uses a single sinusoidal supply-clock without additional timing control volta- ges. This not only ensures lower energy dissipation, but also simplifies the clock design, which would be otherwise more complicated due to the signal synchronization requirement. It is demonstrated that QSSERL circuits operate as fast as conventional two-phase energy recovery logic counterparts. Simulation with an 8bit logarithmic look- ahead adder (LLA) using static CMOS,clocked CMOS adiabatic logic (CAL,an existing typical single-phase ener- gy recovery logic),and QSSERL,under 128 randomly generated input vectors,shows that the power consumption of the QSSERL adder is only 45% of that of the conventional static CMOS counterpart at 10MHz, and the QS- SERL adder achieves better energy efficiency than CAL when the input frequency finput is larger than 2MHz. 展开更多
关键词 energy recovery adiabatic logic low power digital CMOS VLSI
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Energy Recovery Device with a Fluid Switcher for Seawater Reverse Osmosis System 被引量:7
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作者 孙家喜 王越 +1 位作者 徐世昌 王世昌 《Chinese Journal of Chemical Engineering》 SCIE EI CAS CSCD 2008年第2期329-332,共4页
Energy recovery device (ERD) is an important part of the seawater reverse osmosis (SWRO) desalination system. There are principally two kinds of ERDs, the centrifugal type and the positive displacement (PD) type... Energy recovery device (ERD) is an important part of the seawater reverse osmosis (SWRO) desalination system. There are principally two kinds of ERDs, the centrifugal type and the positive displacement (PD) type. The PD type is of extensive concern and is preferred in large-scale plants. In this article, an innovative fluid switcher was presented and a two-cylinder hydraulic energy recovery unit with a lab-scale fluid switcher was set up. Tap water was used as the working medium instead of the actual seawater and brine in SWRO desalination plants. Under steady state operating conditions, the experimental results were obtained on the variations of the pressure and flow rate to and from the energy recovery unit. The hydraulic recovery efficiency (En) of the energy recovery unit with the fluid switcher reached up to 76.83%. 展开更多
关键词 energy recovery seawater reverse osmosis work exchanger fluid switcher
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Energy Recovery Capacitance Coupling Logic and Its Synthesis Methodology
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作者 杨骞 周润德 《Journal of Semiconductors》 EI CAS CSCD 北大核心 2005年第7期1334-1339,共6页
A novel energy recovery logic style ERCCL (energy recovery capacitance coupling logic) , which has good energy performance compared to the conventional CMOS logic and other advanced energy recovery logic, is propose... A novel energy recovery logic style ERCCL (energy recovery capacitance coupling logic) , which has good energy performance compared to the conventional CMOS logic and other advanced energy recovery logic, is proposed. ERCCL uses capacitance coupling to perform a logic function, so it can energy-efficiently implement a high fan-in complex logic in a single gate. ERCCL is also a type of threshold logic. The gate count of a system based on ERCCL can be significantly reduced,which,in turn,will decrease the energy loss. A threshold logic synthesis methodology for ERCCL is also presented. MCNC benchmarks are run through the proposed synthesis methodology. The results indicate that about an 80% reduction in gate count can be obtained when compared with the synthesis results of SIS. 展开更多
关键词 energy recovery threshold logic logic synthesis capacitance coupling CMOS circuits
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Energy Recovery Threshold Logic and Power Clock Generation Circuits
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作者 杨骞 周润德 《Journal of Semiconductors》 EI CAS CSCD 北大核心 2004年第11期1403-1408,共6页
Energy recovery threshold logic (ERTL) is proposed,which combines threshold logic with adiabatic approach.ERTL achieves low energy as well as low gate complexity.A high efficiency power clock generator is also propose... Energy recovery threshold logic (ERTL) is proposed,which combines threshold logic with adiabatic approach.ERTL achieves low energy as well as low gate complexity.A high efficiency power clock generator is also proposed,which can adjust duty cycle of MOS switch in power clock generator depending on logic complexity and operating frequency to achieve optimum energy efficiency.Closed-form results are derived,which facilitate efficiency-optimized design of the power clock generator.An ERTL PLA and a conventional PLA are designed and simulated on 0.35μm process.The energy efficiency of the proposed power clock generator can reach 77%~85% operating between 20~100MHz.Simulation results indicate that ERTL is a low energy logic.Including power loss of power clock circuits,ERTL PLA still shows 65%~77% power savings compared to conventional PLA. 展开更多
关键词 energy recovery low power power clock threshold logic CMOS circuits
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Hydrogen energy recovery from high strength organic wastewater with ethanol type fermentation using acidogenic EGSB reactor 被引量:5
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作者 任南琪 郭婉茜 +1 位作者 王相晶 张露思 《Journal of Harbin Institute of Technology(New Series)》 EI CAS 2005年第6期603-607,共5页
A lab-scale expanded granular sludge bed (EGSB) reactor was employed to evaluate the feasibility of the hydrogen energy recovery potential from high strength organic wastewater. The results showed that a maximum hyd... A lab-scale expanded granular sludge bed (EGSB) reactor was employed to evaluate the feasibility of the hydrogen energy recovery potential from high strength organic wastewater. The results showed that a maximum hydrogen production rate of 7.43 m^3 H2/m^3 reactor · d and an average hydrogen production rate of 6.44- ms H^2/ms reactor · d were achieved with the hydrogen content of 50% -56% in the biogas during the 90-day operation. At the acidogenic phase, COD removal rate was stable at about 15%. In the steady operation period, the main liquid end products were ethanol and acetic acid, which represented ethanol type fermentation. Among the liquid end products, the concentration percentage of ethanol and acetic acid amounted to 69.5% - 89. 8% and the concentration percentage of ethanol took prominent about 51.7% - 59. 1%, which is better than the utilization of substrate for the methanogenic bacteria. An ethanol type fermentation pathway was suggested in the operation of enlarged industrial continuous hydrogen bio-producing reactors. 展开更多
关键词 hydrogen production ethanol-acetate fermentation EGSB reactor acidogenic energy recovery
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A power plant for integrated waste energy recovery from liquid air energy storage and liquefied natural gas 被引量:3
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作者 Tongtong Zhang Xiaohui She Yulong Ding 《Chinese Journal of Chemical Engineering》 SCIE EI CAS CSCD 2021年第6期242-257,共16页
Liquefied natural gas(LNG)is regarded as one of the cleanest fossil fuel and has experienced significant developments in recent years.The liquefaction process of natural gas is energy-intensive,while the regasificatio... Liquefied natural gas(LNG)is regarded as one of the cleanest fossil fuel and has experienced significant developments in recent years.The liquefaction process of natural gas is energy-intensive,while the regasification of LNG gives out a huge amount of waste energy since plenty of high grade cold energy(-160℃)from LNG is released to sea water directly in most cases,and also sometimes LNG is burned for regasification.On the other hand,liquid air energy storage(LAES)is an emerging energy storage technology for applications such as peak load shifting of power grids,which generates 30%-40%of compression heat(-200℃).Such heat could lead to energy waste if not recovered and used.The recovery of the compression heat is technically feasible but requires additional capital investment,which may not always be economically attractive.Therefore,we propose a power plant for recovering the waste cryogenic energy from LNG regasification and compression heat from the LAES.The challenge for such a power plant is the wide working temperature range between the low-temperature exergy source(-160℃)and heat source(-200℃).Nitrogen and argon are proposed as the working fluids to address the challenge.Thermodynamic analyses are carried out and the results show that the power plant could achieve a thermal efficiency of 27%and 19%and an exergy efficiency of 40%and 28%for nitrogen and argon,respectively.Here,with the nitrogen as working fluid undergoes a complete Brayton Cycle,while the argon based power plant goes through a combined Brayton and Rankine Cycle.Besides,the economic analysis shows that the payback period of this proposed system is only 2.2 years,utilizing the excess heat from a 5 MW/40 MWh LAES system.The findings suggest that the waste energy based power plant could be co-located with the LNG terminal and LAES plant,providing additional power output and reducing energy waste. 展开更多
关键词 Waste energy recovery Power plant Liquid air energy storage Liquefied natural gas INTEGRATION
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Control strategy for energy recovery system in hybrid forklift
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作者 龚俊 何清华 +3 位作者 张大庆 赵喻明 刘昌盛 唐中勇 《Journal of Central South University》 SCIE EI CAS 2014年第8期3119-3125,共7页
After analyzing the working condition of the conventional diesel forklift,an energy recovery system in hybrid forklift is considered and its simulation model is built.Then,the control strategy for the proposed energy ... After analyzing the working condition of the conventional diesel forklift,an energy recovery system in hybrid forklift is considered and its simulation model is built.Then,the control strategy for the proposed energy recovery system is discussed,which is validated and evaluated by simulation.The simulation results show that the proposed control strategy can achieve balance of the power and keep the state of charge(SOC) of ultra capacitor in a reasonable range,and the fuel consumption can be reduced by about 20.8% compared with the conventional diesel forklift.Finally,the feasibility of the simulation results is experimentally verified based on the lifting energy recovery system. 展开更多
关键词 hybrid power forklift truck energy recovery control strategy ultra capacitor
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Kinetic Energy Recovery from the Chimney Flue Gases Using Ducted Turbine System
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作者 Harjeet S.Mann Pradeep K.Singh 《Chinese Journal of Mechanical Engineering》 SCIE EI CAS CSCD 2017年第2期472-482,共11页
An innovative idea of extracting kinetic energy from man-made wind resources using ducted turbine system for on-site power generation is introduced in this paper. A horizontal axis ducted turbine is attached to the to... An innovative idea of extracting kinetic energy from man-made wind resources using ducted turbine system for on-site power generation is introduced in this paper. A horizontal axis ducted turbine is attached to the top of the chimney to harness the kinetic energy of flue gases for producing electricity. The turbine system is positioned beyond the chimney outlet, to avoid any negative impact on the chimney performance. The convergentdivergent duct causes increase in the flue gas velocity and hence enhances the performance of the turbine. It also acts as a safety cover to the energy recovery system. The results from the CFD based simulation analysis indicate that sig- nificant power 34 kW can be harnessed from the chimney exhaust. The effect of airfoils NACA4412 and NACA4416 and the diffuser angle on the power extraction by the energy recovery system using a 6-bladed ducted turbine has been studied with the CFD simulation. It is observed that the average flue gas velocity in the duct section at the throat is approximately twice that of the inlet velocity, whereas maximum velocity achieved is 2.6 times the inlet velocity. The simulated results show that about power may be extracted from the chimney flue gases of 660 MW power plant. The system can be retrofitted to existing chimneys of thermal power plants, refineries and other industries. 展开更多
关键词 Chimney flue gases energy recovery system ·Kinetic energy Ducted turbine CFD
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Monotricat, Innovative Displacement Hull High Hydrodynamic Efficiency and Energy Recovery, Navigating at Speeds of Planing Hulls on Spray Self-produced
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作者 Luigi MASCELLARO 《Journal of Shipping and Ocean Engineering》 2015年第5期229-241,共13页
The need to have naval units ever faster pushed the ship design to design hull shapes with increasingly higher performance thanks to the use of lightweight materials such as aluminum, and more powerful engines, etc., ... The need to have naval units ever faster pushed the ship design to design hull shapes with increasingly higher performance thanks to the use of lightweight materials such as aluminum, and more powerful engines, etc., but without substantially modifying the traditional forms of hull. The hull patented Monotricat high hydrodynamic efficiency and energy saving it represents an evolution of the traditional architectures of the hulls, as its shape is adapted to recover wave formation engendered from the bow and sprays associated with it so as to reduce the resistance to the benefit of the speed, and navigating in displacement at speeds of planing hulls with an efficiency of about 20%. The patented hull Monotricat represents the overcoming of distinction between displacement and planing hulls, because, unlike previous solutions, the hull conventionally called Monotricat is the first displacement hull that can navigate at both displacement and planning speeds, with a resistance curve almost straight, maintaining the characteristics of a displacement hull, since it combines the characteristics of displacement and planning hull. It presents an innovative architecture that could be defined as a hybrid between a monohull and catamaran, navigating on spray self-produced. The combination of these three types of naval hulls allows it to ensure: safety, comfort navigation, best seakeeping and maneuverability in restricted waters, stability, reduction of resistance to motion, cost management, regularity on the routes even in adverse weather-sea. These characteristics of the hull have been studied, tested and validated by leading research institutes and universities with more ameliorative results in each subsequent experimentation, reported in the present work, which demonstrated a greater hydrodynamic efficiency compared to conventional hulls of 20%. 展开更多
关键词 Innovative naval hull energy recovery hydrodynamic efficiency displacement hull planing hull spray self-produced resistance curve straight line.
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Solar Energy Recovery and Storage System for Powering Wireless Communicating Nodes
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作者 Salick Diagne Abdou Karim Farota +2 位作者 Ognadon Assogba Bouya Diop Thierry Val 《Energy and Power Engineering》 2021年第12期377-391,共15页
We find nowadays in several fields of application the presence of IoT technology such as wireless sensor and actuator networks. In this technology, one of the main points of study is the management of energy consumpti... We find nowadays in several fields of application the presence of IoT technology such as wireless sensor and actuator networks. In this technology, one of the main points of study is the management of energy consumption. In this article, we provide a solar energy harvesting and storage system for powering wireless nodes. The system we propose uses a low power solar pane a P</span></span><span><span><span style="font-family:""> </span></span></span><span style="font-family:Verdana;"><span style="font-family:Verdana;"><span style="font-family:Verdana;">&</span></span></span><span><span><span style="font-family:""> </span></span></span><span style="font-family:Verdana;"><span style="font-family:Verdana;"><span style="font-family:Verdana;">O control adapted to fuzzy logic for the MPPT. For energy storage, we used the supercapacitor technology. The simulation of the models shows better results than using the P</span></span></span><span><span><span style="font-family:""> </span></span></span><span style="font-family:Verdana;"><span style="font-family:Verdana;"><span style="font-family:Verdana;">&</span></span></span><span><span><span style="font-family:""> </span></span></span><span style="font-family:Verdana;"><span style="font-family:Verdana;"><span style="font-family:Verdana;">O command for an autonomous power supply of the wireless communicating nodes in the study region. 展开更多
关键词 Solar energy energy recovery SUPERCAPACITOR Fuzzy Logic
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Novel Technology and Products: Fluidized Bed Incineration and Energy Recovery for Waste Disposal——Developed by the Institute for Thermal Power Engineering, Zhejiang University
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《China's Foreign Trade》 1997年第7期34-35,共2页
The waste referred to includes solid waste and sludge. Solid waste is mainly from urban garbage and industrial waste. Sludge is from water treatment factories, paper mills, chemical factories, pharmaceutical factories... The waste referred to includes solid waste and sludge. Solid waste is mainly from urban garbage and industrial waste. Sludge is from water treatment factories, paper mills, chemical factories, pharmaceutical factories, rivers and lakes. The waste and sludge are very harmful to water organisms, human health and drinking water, and directly affect the environment. Sludge and waste also occupy large areas of land. There are several methods to treat waste and sludge, such as burial, chemical treatment and incineration. Incineration is more effective than the 展开更多
关键词 In Novel Technology and Products Zhejiang University Developed by the Institute for Thermal Power Engineering Fluidized Bed Incineration and energy recovery for Waste Disposal
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Control Algorithm for Non-isolated Supercapacitor Based Kinetic Energy Recovery System
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作者 Luka Lopin Slobodan Vukosavié Nikola Lepojevié 《Journal of Electrical Engineering》 2018年第3期177-185,共9页
This paper presents the control algorithm for supercapacitor based kinetic energy recovery system. Supercapacitor shares energy with the motor drive DC link through bidirectional non-isolated converter. Two cascaded l... This paper presents the control algorithm for supercapacitor based kinetic energy recovery system. Supercapacitor shares energy with the motor drive DC link through bidirectional non-isolated converter. Two cascaded linear regulators control feedback linearized states of the system. As a result, the DC link voltage is stabilized and the supercapacitor voltage and current are limited. Control algorithm does not increase ripple of voltages and currents, and thus life time expectancy of supercapacitor is prolonged. In torque-controlled motor drives, current on DC side can rapidly change with bandwidth as high as 2 kHz. Based on measurements of KERS states, the algorithm estimates rapidly changing motor drive current on DC side and stabilizes the DC link voltage with overshoot less than 2%. Controller is independent from the motor drive parameters and relies only on its own measurements. This enables kinetic energy recovery system (KERS) to be a standalone device. 展开更多
关键词 Supercapacitor KERS energy storage regenerative braking energy recovery control system.
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A novel predictive braking energy recovery strategy for electric vehicles considering motor thermal protection
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作者 YANG Chao SUN TongLin +2 位作者 YANG LiuQuan ZHANG YuHang WANG WeiDa 《Science China(Technological Sciences)》 SCIE EI CAS CSCD 2024年第4期1253-1269,共17页
Braking energy recovery(BER)aims to recover the vehicle's kinetic energy by coordinating the motor and mechanical braking torque to extend the driving range of the electric vehicle(EV).To achieve this goal,the mot... Braking energy recovery(BER)aims to recover the vehicle's kinetic energy by coordinating the motor and mechanical braking torque to extend the driving range of the electric vehicle(EV).To achieve this goal,the motor/generator mode requires frequent switching and prolonged operation during driving.In this case,the motor temperature will unavoidably rise,potentially triggering motor thermal protection(MTP).Activating MTP increases the risk of motor component failure,and the EV typically disables the BER function.Thus,maximizing BER while reducing the risk of motor overheating is a challenging problem.To address this issue,this article proposes a predictive BER strategy with MTP using the non-smooth Pontryagin Minimum Principle(NSPMP)for EVs.Firstly,a Markov long short-term memory(MLSTM)model is designed to obtain future velocity information.Secondly,the BER problem with MTP in the studied EV is embedded in a model predictive control(MPC)framework.Then,under the MPC framework,the NSPMP strategy is proposed to resolve the problem of MTP.Finally,the performance of the proposed strategy is verified through simulation and a hardware-in-loop test.The results show that in two real-world driving cycles,compared to the rule-based strategy,the proposed strategy reduced power consumption by 1.24%and0.96%,respectively,and effectively limited motor temperature.Additionally,under global cycle conditions,this strategy demonstrated better MTP control performance compared to other benchmark strategies. 展开更多
关键词 electric vehicle braking energy recovery strategy motor thermal protection non-smooth PMP
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Novel control strategy for the energy recovery system of a hydraulic excavator
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作者 Changsheng Liu Qinghua He +3 位作者 Qijun Tang Kai Ren Jun Gong Daqing Zhang 《International Journal of Agricultural and Biological Engineering》 SCIE 2024年第2期94-101,共8页
The energy saving of hydraulic excavators is always an essential research.An energy recovery system can effectively recover the boom potential energy and rotational kinetic energy.Based on the standard working cycle o... The energy saving of hydraulic excavators is always an essential research.An energy recovery system can effectively recover the boom potential energy and rotational kinetic energy.Based on the standard working cycle of hydraulic excavators,a dynamic programming(DP)control strategy for hybrid hydraulic excavators was proposed to recover the boom potential energy and rotational kinetic energy.The hybrid hydraulic excavator simulation model was built by Simulink software.The simulation results indicated that the fuel consumption of hybrid hydraulic excavators using the DP control strategy was about 21.3%lower than that of the conventional hydraulic excavator.In order to experimentally verify the simulation results,an experimental platform for hybrid hydraulic excavators was built.The experimental results indicated that the fuel consumption of hybrid hydraulic excavators using the DP control strategy was about 18.9%lower than that of the conventional hydraulic excavator.This paper shows that the DP control strategy applied to hybrid hydraulic excavators can recycle the boom potential energy and rotational kinetic energy,and reduce the fuel consumption of hybrid hydraulic excavators. 展开更多
关键词 hybrid excavator energy recovery control strategy simulation analysis test platform
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Implementable Strategy Research of Brake Energy Recovery Based on Dynamic Programming Algorithm for a Parallel Hydraulic Hybrid Bus 被引量:6
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作者 Zhong-Liang Zhang Jie Chen 《International Journal of Automation and computing》 EI CSCD 2014年第3期249-255,共7页
The purpose of this paper is to develop an implementable strategy of brake energy recovery for a parallel hydraulic hybrid bus. Based on brake process analysis, a dynamic programming algorithm of brake energy recovery... The purpose of this paper is to develop an implementable strategy of brake energy recovery for a parallel hydraulic hybrid bus. Based on brake process analysis, a dynamic programming algorithm of brake energy recovery is established. And then an implementable strategy of brake energy recovery is proposed by the constraint variable trajectories analysis of the dynamic programming algorithm in the typical urban bus cycle. The simulation results indicate the brake energy recovery efficiency of the accumulator can reach 60% in the dynamic programming algorithm. And the hydraulic hybrid system can output braking torque as much as possible.Moreover, the accumulator has almost equal efficiency of brake energy recovery between the implementable strategy and the dynamic programming algorithm. Therefore, the implementable strategy is very effective in improving the efficiency of brake energy recovery.The road tests show the fuel economy of the hydraulic hybrid bus improves by 22.6% compared with the conventional bus. 展开更多
关键词 Implementable strategy brake energy recovery dynamic programming parallel hydraulic hybrid bus shifting schedule pump/motor displacement.
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A perspective analysis on municipal solid waste(MSW) energy recovery in China 被引量:1
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作者 He Pinjing, Shao Liming National Laboratory of Pollution Control and Reclamation, School of Environmental Engineering, Tongji University, Shanghai 200092, China 《Journal of Environmental Sciences》 SCIE EI CAS CSCD 1997年第2期96-100,共5页
The paper analysed the current situation of municipal solid waste(MSW) quantity and quality in China and the changing tendencies of its composition. Further more, the energy value of MSW was discussed. To the point ... The paper analysed the current situation of municipal solid waste(MSW) quantity and quality in China and the changing tendencies of its composition. Further more, the energy value of MSW was discussed. To the point of the technical and economic aspects, the feasibility of the energy recovery from MSW was also analysed. The conclusion is that the energy can be effectively recovered through a landfill gas utilization process and the energy produced by an incineration process. Through a suitable energy recovery process, it is possible to improve the economic viability of a MSW treatment process. 展开更多
关键词 perspective analysis energy recovery energy value municipal solid waste(MSW) MSW in China.
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