Estimate of China's energy carbon emissions peak and analysis on electric power carbon emissions

China＇s energy carbon emissions are projected to peak in 2030 with approximately 110% of its 2020 level under the following conditions： 1） China＇s gross primary energy consumption is 5 Gtce in 2020 and 6 Gtce in 2030; 2） coal＇s share of the energy consumption is 61% in 2020 and 55% in 2030; 3） non-fossil energy＇s share increases from 15% in 2020 to 20% in 2030; 4） through 2030, China＇s GDP grows at an average annual rate of 6%; 5） the annual energy consumption elasticity coefficient is 0.30 in average; and 6） the annual growth rate of energy consumption steadily reduces to within 1%. China＇s electricity generating capacity would be 1,990 GW, with 8,600 TW h of power generation output in 2020. Of that output 66% would be from coal, 5% from gas, and 29% from non-fossil energy. By 2030, electricity generating capacity would reach 3,170 GW with 11,900 TW h of power generation output. Of that output, 56% would be from coal, 6% from gas, and 37% from non-fossil energy. From 2020 to 2030, CO2 emissions from electric power would relatively fall by 0.2 Gt due to lower coal consumption, and rela- tively fall by nearly 0.3 Gt with the installation of more coal-fired cogeneration units. During 2020--2030, the portion of carbon emissions from electric power in China＇s energy consumption is projected to increase by 3.4 percentage points. Although the carbon emissions from electric power would keep increasing to 118% of the 2020 level in 2030, the electric power industry would continue to play a decisive role in achieving the goal of increase in non-fossil energy use. This study proposes countermeasures and recommendations to control carbon emissions peak, including energy system optimization, green-coal-fired electricity generation, and demand side management.

Undrained vane shear strength of sand-foam mixtures subjected to different shear rates

The shear strength of sand-foam mixtures plays a crucial role in ensuring successful earth pressure balance(EPB)shield tunneling.Since the sand-foam mixtures are constantly sheared by the cutterhead and the screw conveyor with varied rotation speeds during tunneling,it is non-trivial to investigate the effect of shear rates on the undrained shear strength of sand-foam mixtures under chamber pressures to extend the understanding on the tunneling process.This study conducted a series of pressurized vane shear tests to investigate the role of shear rates on the peak and residual strengths of sand-foam mixtures at different pore states.Different from the shear-rate characteristics of natural sands or clay,the results showed that the peak strength of sand-foam mixtures under high vertical total stress(σ_(v)≥200 kPa)and low foam injection ratio(FIR30%)decreased with the increase in shear rate.Otherwise,the peak strength was not measurably affected by shear rates.The sand-foam mixtures in the residual state resembled low-viscous fluid with yield stress and the residual strength increased slightly with shear rates.In addition,the peak and residual strengths were approximately linear with vertical effective stress regardless of the total stress and FIR.The peak effective internal friction angle remained almost invariant in a low shear rate(γ′<0.25 s1)but decreased when the shear rate continued increasing.The residual effective internal friction angle was lower than the peak counterpart and insensitive to shear rates.This study unveiled the role of shear rates in the undrained shear strength of sand-foam mixtures with various FIRs and vertical total stresses.The findings can extend the understanding of the rate-dependent shear characteristics of conditioned soils and guide the decision-making of soil conditioning schemes in the EPB shield tunneling practice.

Experimental research on influence mechanism of loading rates on rock pressure stimulated currents

The study of pressure stimulated current(PSC)changes of rocks is significant to monitor dynamic disasters in mines and rock masses.The existing studies focus on change laws and mechanism of currents generated under the loading of rocks.An electrical and mechanics test system was established in this paper to explore the impacts of loading rates on PSCs.The results indicated that PSC curves of different rocks had different change laws under low/high loading rates.When the loading rate was relatively low,PSC curves firstly changed gently and then increased exponentially.Under high loading rates,PSC curves experienced the rapid increase stage,gentle increase stage and sudden change stage.The compressive strength could greatly affect the peak PSC in case of rock failure.The loading rate was a key factor in average PSC.Under low loading rates,the variations of PSCs conformed to the damage charge model of fracture mechanics,while they did not at the fracture moment.Under high loading rates,the PSCs at low stress didn’t fit the model due to the stress impact effects.The experimental results could provide theoretical basis for the influence of loading rates on PSCs.

Efficient Rate Control Algorithm for Hierarchical Video Coding

For rate control (RC) of hierarchical structure coding, an independent rate-quantization (R-Q) model was proposed based on mean absolute differences (MADs) in different temporal levels (TLs). In the proposed R-Q model, a novel MAD model was developed according to the hierarchical structure. The experimental results demonstrate that the proposed algorithm provides better performance, in terms of average peak signal-to-noise ratio (PSNR) and quality smoothness, than the H.264 reference model, JM14.2, under various sequences.

Recovery Capacity, Haemodynamic and Blood Lactate Changes during Training and Competition in Elite Congolese Karate Athletes

Background: Rare are the studies which treated the effect of training and successive fights of karate on haemodynamic and blood lactate concentrations responses. Objectives: To evaluate and analyze the aerobic capacity of elite Congolese karate athletes, as well as their haemodynamic and blood lactate concentrations responses changes during Ruffier test and stimulated competition. Methods: Twelve karate athletes (6 seniors and 6 juniors) took part in the study. These karate athletes were selected within the national karate teams (senior and junior) of Congo-Brazzaville. Anthropometric, bioenergetic and haemodynamic (HR, SBP, DBP) parameters and blood lactate [La] concentrations were measured at rest, immediately after the end of Ruffier test and each fight (n = 3). Results: Peak aerobic power (PAP) and maximum oxygen uptake (VO2 max) values averaged 437 ± 23 watts and 57.61 ± 2.2 ml/kg/mn, values varying as function as age division (senior vs junior). The recovery index was 5.4 ± 3.4 for juniors and 6.8 ± 3.2 for seniors. SBP, HR and [La] concentrations increased significantly during fights, compared to the resting values. HRmax was 182.3 ± 1.6 bpm (89% theoretical HRmax) for seniors and 182.0 ± 13.5 bpm (86% theoretical HRmax) for juniors. Peak [La] concentrations were 10.3 ± 1.5 mmol/l for seniors and 10.8 ± 1.2 mmol/l for juniors. Conclusion: Congolese karate athletes call upon high levels of the anaerobic and aerobic capacities. The karate training program in Congo should emphasize more gold improvising lower body anaerobic power and endurance.

A Simple Adaptive Rate Control for H.264/AVC

The purpose of this paper is to improve allocation of the number of bits without skipping the frame by accurately estimating the target bits in H.264/AVC rate control.In our scheme,we propose an enhancement method of the target frame rate based H.264/AVC bit allocation.The enhancement uses a frame complexity estimation to improve the existing mean absolute difference(MAD)complexity measurement Bit allocation to each frame is not just computed by target frame rate but also adjusted by a combined frame complexity measure.Using the statistical characteristic,we obtain change of occurrence bit about QP to apply the bit amount by QP from the video characteristic and applied in the estimated bit amount of the current frame. Simulation results show that the proposed rate control scheme could not only achieves time saving of more than 99%over existing rate control algorithm,but also increase the average PSNR of reconstructed video for around 0.02～0.78 dB in all the sequences.

Climate Change and Energy Management Strategies

Current climate challenges and energy concerns have urged scientists, researchers, and governments to take action in order to reduce carbon footprint and energy consumption. Considering the growing need for energy supplies, the reliability and sustainability of power plants are another area of concern for communities. Since building is among the major consumers of electricity (almost 40%), the energy management strategies have been substantially focused on demand side management and building operation system. Energy efficiency, peak-load management, and demand response are among the most outstanding and widespread practices in order to reduce building energy consumption and peak demand. Smart grids and smart meters are considerably gaining the attention of policy makers in most developed and developing countries. This paper will revolve around these outstanding energy management strategies and technologies and their merits and drawbacks in the journey of current communities towards sustainability.

Reducing Peak-to-Average Power Ratio of a Turbo Coded OFDM

Peak to Average Power Ratio (PAPR) is defined as the instantaneous power (maximum value) to the average power ratio. PAPR is considered to be a major problem in OFDM systems. This problem can cause radical unexpected behavior of the signal fluctuation. This fluctuation is constituted by a large number of power states. The enormous number of these states leads to an additional complexity of ADCs and DACs. This research addresses the previous problem in OFDM systems utilizing Turbo Codes. μLaCP technique is employed for the purpose of decreasing PAPR. Moreover, our OFDM system was simulated in the presence of an AWGN channel with four types of codes (without the presence of ADCs and DACs). These were constituted of PCCC (typical and new), SCCC, and Convolutional Codes. Our Turbo Coded OFDM exhibited unchanged BER performance before and after the use of μLaCP technique. This was accomplished by modifying our previous PAPR reduction technique without sacrificing greatly its attributes.

中国式现代化目标下构建新型能源体系之路径思考

倡导人与自然和谐共生的中国式现代化,对中国能源领域的高质量可持续发展提出了新要求、新部署,“加快规划建设新型能源体系”势在必行。为了助推中国式现代化目标下新型能源体系的构建,分析了其提出的战略背景,明确了其重要意义,阐述了其内涵特征,提出了其路径建议。研究结果表明:①新型能源体系是社会主义现代化强国建设的关键抓手,是实现碳达峰碳中和目标以及推进生态文明建设的重要支撑,是国家能源安全和国家竞争力的有力保障;②新型能源体系以促进人与自然和谐共生为根本宗旨,以保证能源安全和经济社会发展稳定为基本前提,具有理念更新、能源结构更新、技术创新、治理创新、产业革新、电力革新等内涵特征;③新型能源体系的构建路径包括加快培育绿色低碳文化、加快推动能源结构转型、加快推动产业结构升级、加快攻关关键核心技术、加快构建体制机制保障等。结论认为,立足我国能源资源禀赋,坚持“先立后破”的方式构建清洁低碳、安全高效的新型能源体系,提高能源自给率,特别是油气自给率,确保能源转型平稳有序、能源保障安全可靠,可以为当前复杂国际形势下的国家能源安全提供强有力的保障。

老油田“3+2”大幅度提高采收率技术内涵、机理及实践

传统方式的化学驱项目一般采取“2+3”的协同方式,也就是先通过水驱井网调整一次到位,再实施化学驱,受剩余油认识和预测精度的影响,会出现部分低产低效井,化学驱含水谷底平台期短,提高采收率幅度有限。为此,胜利油田通过基础攻关和探索实践,创新提出了化学驱与动态优化调整加合增效的“3+2”大幅度提高采收率技术,该技术是指在化学驱过程中,充分发挥和利用驱油体系扩大波及体积、提高驱油效率、调整动态非均质性的特点,主动培育、壮大动态剩余油富集区(“油墙”),适时井网调整、重构流场、均衡注采,高效动用、采出“油墙”,最大程度延长化学驱含水谷底平台期,实现三次采油和二次采油(“3+2”)适配优化、大幅度提高采收率的目的。通过大量物理模拟和数值模拟研究,明确了“井网-驱油剂-剩余油”适配优化提高采收率的机理。该技术在胜坨油田二区东三段5砂组进行了应用,通过优化“3+2”井网调整方式、驱油体系和注入参数等,预计区块含水谷底平台期从3 a延长至8 a,最终采收率为60.5%,比原方案采收率再提高7.5百分点。该技术是老油田大幅度提高采收率的关键技术,可以为中外同类型油藏延长化学驱见效高峰期提供指导和借鉴。

基于核相关滤波和卡尔曼滤波预测的混合跟踪方法

针对核相关滤波(KCF)跟踪算法在遮挡场景中出现跟踪性能降低甚至跟踪失败的问题,提出了一种核相关滤波和卡尔曼滤波(KF)预测相结合的模型自适应抗遮挡图像目标跟踪算法KCF-KF。首先,考虑到传统KCF目标跟踪算法中缺少遮挡评估的问题,通过引入响应图的峰值旁瓣比来对图像目标的遮挡情况进行判断,并将遮挡类型划分为部分遮挡和严重遮挡。其次,根据遮挡程度采取不同的模型更新策略,当目标无遮挡或者部分遮挡时,替代传统KCF跟踪算法中采用固定学习率更新模型的方法,通过自适应地调整模型学习率来更新目标外观模型,避免跟踪漂移;当目标被严重遮挡时,停止KCF模型更新。最后,应用严重遮挡之前的运动信息构建卡尔曼滤波器状态空间和位置输出模型,设计卡尔曼滤波算法预测运动目标轨迹来估计遮挡情景下的目标位置,从而解决在遮挡场景中目标跟踪失败的问题。采用OTB-2013标准数据集进行大量实验,结果表明:所提的混合跟踪算法KCF-KF的距离精度为0.796,重叠成功率为0.692。与其他传统跟踪算法相比,该混合算法的跟踪精度和跟踪成功率均优于其他算法,并且在遇到目标遮挡挑战时具有更好的跟踪性能,有效地解决了跟踪过程中的遮挡干扰问题。

帝视观察用内窥镜辅助喉罩置入的临床效果

目的探讨帝视观察用内窥镜引导喉罩置入的效果,为临床麻醉气道管理提供依据。方法选择2022年3月至2024年3月在揭阳市人民医院行喉罩置入全身麻醉患者60例,采用随机数字表将纳入研究患者分为观察组和对照组,每组30例。观察组使用帝视观察用内窥镜辅助喉罩置入,对照组使用传统徒手喉罩置入法。记录两组患者喉罩置入成功总时间(喉罩进入口腔到判定喉罩置入成功)、喉罩首次置入成功率、气道峰压、口咽漏气压以及喉罩置入损伤并发症发生情况,包括麻醉恢复室拔除喉罩后喉罩表面有无血迹、术后24 h内咽痛发生率。结果与对照组比较,观察组喉罩置入成功总时间明显缩短(P<0.001),喉罩首次置入成功率明显升高(P<0.05),两组喉罩型号比较差异无统计学意义(P>0.05);与对照组比较,观察组气道峰压明显降低(P<0.001),口咽漏气压明显升高(P<0.001);两组喉罩表面有血迹、术后24 h内咽痛发生率比较差异无统计学意义(P>0.05)。结论帝视观察用内窥镜引导喉罩置入,可以提高喉罩首次置入成功率,缩短喉罩置入成功总时间,降低气道峰压,升高口咽漏气压,有较高安全性,值得推广。

机械性吸呼仪参数设置对模拟肺呼气峰流速、呼气容量的影响研究

目的:探讨使用机械性吸呼仪(mechanical in-exsufflation,MIE)治疗中的吸气压力设置参数(set inspiratory pressure,SIP)、呼气压力设置参数(set expiratory pressure,SEP)及SIP/SEP对模拟肺呼气峰流速(peak expiratory flow,PEF)和呼气容量(expiratory volume,EV)的影响,以为临床治疗中增强气道廓清的效果提供参考。方法:将MIE与模拟肺连接,在模拟肺无自主呼吸状态下分别针对健康成人、肺部感染成人、慢性阻塞性肺疾病成人、急性呼吸窘迫综合征成人设置气道阻力及肺顺应性。MIE压差(SIP与SEP的差值)分别设置为60、40、30 cmH_(2)O(1 cmH_(2)O=98.06 Pa),在固定压差下,SIP/SEP设置为1∶1、1∶2、2∶3。在每种参数设置状态下,MIE均工作5个周期,记录PEF、EV的平均值。分析MIE治疗中PEF的出现时间,对比不同参数设置下PEF、EV的平均值,并分析SIP及SEP分别与PEF、EV的相关性。采用SPSS 20.0统计学软件进行数据分析。结果:模拟肺在不同生理条件下,MIE治疗中的PEF均出现在呼气初始,当压力释放的瞬间产生最大的PEF。MIE设置的压差越大,产生的PEF、EV越大;在压差相同情况下,SIP/SEP为1∶1时产生的PEF、EV最大。SIP与PEF、EV的斯皮尔曼相关系数为0.919、0.990,SEP与PEF、EV的斯皮尔曼相关系数为-0.737、-0.674,SIP与PEF、EV的相关性高于SEP与PEF、EV的相关性。结论:MIE治疗中设置压差越大,产生的气道廓清效果越好;在压差相同情况下,将SIP/SEP设置为1∶1,能够产生咳嗽效应的最大化,从而增强气道廓清的效果。

广义频分复用系统峰均功率比抑制算法

为了降低广义频分复用系统存在着多载波系统中固有的高峰均功率比问题,本文提出了一种适用于广义频分复用系统的子载波抑制高峰均功率比算法。该算法以限幅法为基础,降低了系统的高峰均功率比,但与限幅法不同的是,该算法几乎不会对带外性能及误码率性能造成影响。由于子载波抑制高峰均功率比算法的峰均功率比抑制性能略差于限幅法,因此本文进一步提出将部分序列传输与子载波抑制高峰均功率比结合来进一步抑制系统高峰均功率比的算法。仿真表明:本文提出的算法的高峰均功率比抑制性能与限幅法相同,且不会对系统的带外与误码率性能造成影响。

再生粗骨料取代率及粒径对混凝土抗压性能影响试验研究

为研究单轴受压情况下再生粗骨料粒径范围、取代率对再生混凝土抗压性能的影响规律,分别以粒径范围5~10、10~20和20~31.5 mm,以及取代率分别为0%、10%、30%和50%为参量设计制作再生混凝土棱柱体试件,并对其开展单轴抗压性能试验研究。结果表明:在取代率相同时,粒径范围为5~10 mm时再生混凝土的抗压强度及峰值应变均比粒径范围为10~20、20~31.5 mm时的大;在粒径范围相同情况下,随取代率增大,再生混凝土抗压强度呈现出逐渐减小的变化趋势,而峰值应变则呈现出逐渐增大的变化趋势。根据试验数据,得出了再生混凝土抗压强度和峰值应变的函数关系式。

高频超声联合超声造影对阴囊肿块良恶性的鉴别价值

目的探究高频超声联合超声造影对阴囊肿块良恶性的鉴别价值,为临床诊治提供参考。方法选取2020年1月至2023年12月郑州大学第一附属医院收治的94例阴囊肿块患者作为研究对象,经病理检查结果分为恶性病变组54例和良性病变组40例,以病理检查结果为金标准,分析高频超声联合超声造影对阴囊肿块良恶性的鉴别价值。结果恶性病变组患者的阴囊肿块长径、短径分别为(5.67±2.85)cm、(3.73±2.04)cm,明显长于良性病变组的(3.84±2.56)cm、(2.31±1.45)cm,恶性病变组患者阴囊肿块位于睾丸位置的比例为96.30%,明显高于良性病变组的35.00%,差异均有统计学意义(P<0.05);高频超声、超声造影诊断阴囊肿块良恶性的准确率分别为75.53%(71/94)、77.66%(73/94),两种诊断方式联合的准确率为94.68%(89/94),明显高于两者单独诊断,差异有统计学意义(P<0.05);良、恶性阴囊肿块的形态、钙化、内部回声、血流比较,差异均有统计学意义(P<0.05),但边界和回声分布比较差异均无统计学意义(P>0.05);良、恶性阴囊肿块的增强强度、增强均匀度、造影剂进入与消退方式、增强形式比较,差异均有统计学意义(P<0.05);阴囊肿块良性病变平均渡越时间为(28.04±8.65)s,明显短于恶性病变的(49.21±15.29)s,开始增强时间为(20.53±7.17)s,明显晚于恶性病变的(17.14±4.91)s,差异均有统计学意义(P<0.05);阴囊肿块良性病变的峰值强度为(50.17±8.64)dB,明显高于恶性病变的(45.41±4.31)dB,AUC值、上升支斜率分别为(1043.82±304.25)mm^(2)、(0.21±0.17)dB/s,明显低于恶性病变的(1400.59±340.08)mm^(2)、(0.90±0.20)dB/s,差异均有统计学意义(P<0.05)。结论高频超声联合超声造影应用于阴囊肿块良恶性鉴别的准确率较高,不同病变性质阴囊肿块的高频超声、超声造影表现有明显差异。

奖励机制与用户意愿结合的高峰期负荷博弈调度策略

在高峰时段,居民冷/热设备占尖峰负荷的比重不断攀升,影响了低压配电网的安全稳定优化运行。为补充供给侧调节能力,提升调控灵活性,亟须引导用户侧可调资源参与电网供需互动。该文提出一种奖励机制与用户意愿相结合的高峰期负荷博弈调度策略。依据用户用能意愿对高峰时段用电负荷进行动态划分,制定基于负载率-奖励函数的差异化补贴机制。将高峰时段需要提升功率的负荷群视为领导者,将具有灵活削减能力的负荷群视为追随者,建立Stackelberg博弈模型,证明博弈均衡的唯一性。进而该文提出了Stackelberg博弈下的用电高峰期负荷日内优化调度方法,优化博弈双方在追求效益最大时的策略。该文构建多通路混合专家网络求解设备动作意愿,提出基于用户意愿的单功率-多功率级负荷联合控制策略,实现负荷的实时精细化调控。最后,算例表明所提策略能够在实现聚合商与用户侧双赢、遵从用户调控意愿的同时,有效地平抑用电高峰期的负荷波动,减小峰谷差。

基于未来降雨的水库实时优化调度研究

为了充分利用未来降雨信息指导水库调度,构建了以最大削峰为目标的水库实时调度模型,提出了一种考虑未来降雨信息的水库优化调度方法,基于水箱模型利用24 h降雨量预报信息预测入库流量并建立每个时段的泄洪指标求解模型。以山美水库防洪调度为例进行研究,与降雨启发信息优化调度方法进行比较,结果表明,此优化调度方法在目标函数上表现更好,与利用洪水预报的优化调度方法效果相近,能较好地解决来水不确定性的问题。

加热速率对中心直裂纹巴西圆盘试样断裂行为影响规律研究

为了研究不同加热速率处理后花岗岩的断裂特性与损伤机理,对中心直裂纹巴西圆盘(CSTBD)试样在4组加热温度下分别进行4种加热速率的高温处理,冷却至室温后使用电液伺服压力机进行巴西劈裂实验,分析其静力学断裂过程。结果表明:(1)经过不同高温处理的花岗岩,从脆性破坏向延性破坏转变。(2)在同一目标温度下,经不同加热速率处理的花岗岩,峰值破坏载荷随着加热速率的增大而降低。表观颜色无明显区别,而表观裂缝逐渐增多。(3)不同加热速率下,200℃和400℃下的纵波波速和弹性模量变化较小,而600℃以上时,随着加热速率的增大,纵波波速和弹性模量显著降低。(4)花岗岩的断裂韧度随着温度升高呈现逐渐衰减特征,同一温度下花岗岩试样的I型断裂韧度值随加热速率的增大而减小,400℃下加热速率对花岗岩断裂韧度的影响最大。

一类折叠Gamma分布的尖峰厚尾性质及应用

组合分布思想的出现及扩展为研究现实数据分布提供了优良方案。鉴于许多数据的尖峰后尾特征,文章从Gamma分布出发,构造了具有尖峰厚尾性质的折叠Gamma分布,进而讨论了折叠Gamma分布的性质,并在Newton-Raphson算法下给出了分布参数的矩估计和极大似然估计,同时以数值模拟证明了估计的可行性,最后以实际数据对比研究折叠Gamma分布和正态分布的拟合效果。结果表明:折叠Gamma分布能更好地拟合尖峰厚尾数据,且其拟合效果随着数据样本量的增大而变好。