Energy scarcity and environmental pollution are worldwide issues which plague human development.According to projections for economic development and population growth,global energy demand is anticipated to double by ...Energy scarcity and environmental pollution are worldwide issues which plague human development.According to projections for economic development and population growth,global energy demand is anticipated to double by 2050 and triple by2100.Better energy storage and conversion are glorious but arduous missions in the 21st century.Although the fossil展开更多
This paper designs a mechanical swing of placementing mobile phone, which is inspired by the mechanical watch automatic winding process. The use of the kinetic energy generated by human body motion drives the wheel sw...This paper designs a mechanical swing of placementing mobile phone, which is inspired by the mechanical watch automatic winding process. The use of the kinetic energy generated by human body motion drives the wheel swing and the generator, it can carry out mobile phone additional charge through the electronic components rectifier and DC/DC converter regulator, the use of human motion and light energy can extend a fixed charge mobile phone standby time. The human motion power uses electromagnetic coupling technique and collects energy by using foot swing, solar power generation uses DSP chip in TMS320F28927 control a plurality of charging circuit, inverter circuit and solar maximum power point tracking by sampling and multiple output PWM wave. Finally, charging process has the basic constant current process discovered by device testing, the design of human motion and light energy mobile phone charger can satisfy the need of mobile phone rechargeable lithium batteries.展开更多
We report a case of a 21-year-old man who had severe traumatic brain injury as a result of an accident at the age of 16 years. Two years and 4 months after the trauma, at the age of 19 years, he still had severe right...We report a case of a 21-year-old man who had severe traumatic brain injury as a result of an accident at the age of 16 years. Two years and 4 months after the trauma, at the age of 19 years, he still had severe right hemiplegia and cognitive dysfunction including aphasia and attention and memory disturbance. Conventional rehabilitation programs cou(d not resolve all of the neuropsychological problems. He started receiving Goshinjo therapy over a period of 22 months. Following the therapy, significant improvements in verbal intelligence quotient (assessed by the Wechsler Adult Intelligence Scale-Third Edition) and attention and concentration function (using the Wechsler Memory Scale-Revised), and remission of traumatic epilepsy were observed. Goshinjo therapy is suspected to be effective in the treatment of cognitive dysfunction in the chronic stage after severe traumatic brain injury.展开更多
The author's Process of Cold Fusion firstly was announced at the International Conference on Emerging Nuclear Energy Systems in 2007, after that it was presented at the International Conference on Emerging Nuclear En...The author's Process of Cold Fusion firstly was announced at the International Conference on Emerging Nuclear Energy Systems in 2007, after that it was presented at the International Conference on Emerging Nuclear Energy Systems in 2009. The product has already been applied since June, 2007. It was developed as a large Module of 300 cm x 40 cm, producing energy at 600 megawatts per hour, with unique waste of about 300 cubic meters of pure drinkable instant water a day. There is also a Portable Module, producing about 1 megawatt per hour, having in waste about 1 cubic meter of pure drinkable instant water a day. The important details: (1) we have the ability to stop the Module at any time; (2) the civil applications of this process is mentioned at the articles, published on the website of the European Scientific Parliament in the year of 2010; (3) the diverse modules became the object of special protocols, signed with a number of countries all over the world.展开更多
Harvesting energy from human movement and converting it into electricity is a promising method to address the issue of sustainable power supply for wearable electronic devices.Using traditional energy harvesters for p...Harvesting energy from human movement and converting it into electricity is a promising method to address the issue of sustainable power supply for wearable electronic devices.Using traditional energy harvesters for practical applications is difficult due to their low output power.In this paper,an energy harvester with high power and efficiency is reported based on the principle of electromagnetic induction.It adopts a tiny compound mechanism comprising symmetrical lever-sector gear,which can amplify the vertical displacement of the human heel of 1.44 times without affecting the flexibility and comfort of human movement.The lever-sector gear and gear acceleration mechanism can achieve high output power from the tiny vertical movements of the heel.The results demonstrated that the average power and energy harvesting efficiency of the device are 1 W and 63%,respectively.Moreover,combining a novel controllable electric switch and energy management circuit allows the energy harvester to be worn by individuals with different weights and functions as a continuous real-time power supply for various electronic devices(mobile phones,smartwatches,etc.).Therefore,this research provides a new approach for the highly efficient harvesting of human motion energy and sustainable power supply of wearable electronics.展开更多
A liquid metal magnetohydrodynamics generation system (LMMGS) was proposed and demonstrated in this paper for collecting parasitic power in shoe while walking. Unlike the conventional shoe-mounted human power harves...A liquid metal magnetohydrodynamics generation system (LMMGS) was proposed and demonstrated in this paper for collecting parasitic power in shoe while walking. Unlike the conventional shoe-mounted human power harvesters that use solid coil and gear mechanism, the proposed system employs liquid metal (Ga62In25Sn13) as energy carrier, where no moving part is requested in magnetohydrodynamics generators (MHGs). While walk- ing with the LMMGS, the foot alternately presses the two liquid metal pumps (LMPs) which are respectively placed in the front and rear of the sole. As a result, the liquid metal in the LMPs (LMP I and II) is extruded and flows through the MHGs (MHG I and II) in which electricity is produced. For a comparison, three types ofLMMGSs (LMMGS A, B and C) were built where all the parts are the same except for the LMPs. Furthermore, performances of these LMMGSs with different volume of injected liquid metal were tested respectively. Experimental results reveal that both the output voltage and power of the LMMGS increase with the volume of injected liquid metal and the size of the LMPs. In addition, a maximum output power of 80 mW is obtained by the LMMGS C with an efficiency of approximately 1.3%. Given its advantages of no side effect, light weight, small size and reliability, The LMMGS is well-suited for powering the wearable and implantable micro/nano device, such as wearable sensors, drug pumps and so on.展开更多
With the energy and environmental problems becoming increasingly serious, human power, as a pervasive, renewable, mobile and environment friendly energy, draws more and more attention over the world. In this paper, th...With the energy and environmental problems becoming increasingly serious, human power, as a pervasive, renewable, mobile and environment friendly energy, draws more and more attention over the world. In this paper, the most basic features of human power are presented. The currently available human power harvesting theories and devices are briefly reviewed and compared. Further, direct or indirect utilization of human power in daily life, especially transportation and home appliances, such as human-powered car, watercraft, air- craft, washing machine and television etc. are summarized. Considering that the total energy from an individual is rather limited, as previously focused by most of the former works, it is conceived in this paper that an important future for large scale use of human powers lies in the efficient conversion, collection and storage of such energy from discrete people and then use it later on as desired. With the huge amount of energy gathered, the application category of human power would be significantly expended. Starting from this point, three technical ways towards efficiently utilizing human power are sketched, which are termed as human-powered grid (HPG), human-powered charger (HPC) and human-powered storage (HPS), among which, HPG is capable of collecting the electric power produced by each individual at different regions and thus can supply unique and flexible power to the customers covered in the area, without relying on the conventional electricity grid. The HPC can then charge various kinds of electrical devices instantly by a human driven generator which converts human power into electricity. Finally, the HPS can store electricity in time for later use. In this way, even for the devices requiring electricity that is strong enough, the collected human power can also serve as its reliable energy source. Meanwhile, utilization of human power becomes rather convenient and timely which guarantees its practical value. It is expected that with further research and increasing applications, human power could partially relieve the current global electricity shortage and environmental issues via its pervasive contribution.展开更多
文摘Energy scarcity and environmental pollution are worldwide issues which plague human development.According to projections for economic development and population growth,global energy demand is anticipated to double by 2050 and triple by2100.Better energy storage and conversion are glorious but arduous missions in the 21st century.Although the fossil
文摘This paper designs a mechanical swing of placementing mobile phone, which is inspired by the mechanical watch automatic winding process. The use of the kinetic energy generated by human body motion drives the wheel swing and the generator, it can carry out mobile phone additional charge through the electronic components rectifier and DC/DC converter regulator, the use of human motion and light energy can extend a fixed charge mobile phone standby time. The human motion power uses electromagnetic coupling technique and collects energy by using foot swing, solar power generation uses DSP chip in TMS320F28927 control a plurality of charging circuit, inverter circuit and solar maximum power point tracking by sampling and multiple output PWM wave. Finally, charging process has the basic constant current process discovered by device testing, the design of human motion and light energy mobile phone charger can satisfy the need of mobile phone rechargeable lithium batteries.
文摘We report a case of a 21-year-old man who had severe traumatic brain injury as a result of an accident at the age of 16 years. Two years and 4 months after the trauma, at the age of 19 years, he still had severe right hemiplegia and cognitive dysfunction including aphasia and attention and memory disturbance. Conventional rehabilitation programs cou(d not resolve all of the neuropsychological problems. He started receiving Goshinjo therapy over a period of 22 months. Following the therapy, significant improvements in verbal intelligence quotient (assessed by the Wechsler Adult Intelligence Scale-Third Edition) and attention and concentration function (using the Wechsler Memory Scale-Revised), and remission of traumatic epilepsy were observed. Goshinjo therapy is suspected to be effective in the treatment of cognitive dysfunction in the chronic stage after severe traumatic brain injury.
文摘The author's Process of Cold Fusion firstly was announced at the International Conference on Emerging Nuclear Energy Systems in 2007, after that it was presented at the International Conference on Emerging Nuclear Energy Systems in 2009. The product has already been applied since June, 2007. It was developed as a large Module of 300 cm x 40 cm, producing energy at 600 megawatts per hour, with unique waste of about 300 cubic meters of pure drinkable instant water a day. There is also a Portable Module, producing about 1 megawatt per hour, having in waste about 1 cubic meter of pure drinkable instant water a day. The important details: (1) we have the ability to stop the Module at any time; (2) the civil applications of this process is mentioned at the articles, published on the website of the European Scientific Parliament in the year of 2010; (3) the diverse modules became the object of special protocols, signed with a number of countries all over the world.
基金supported by the National Key R&D Program of China (Grant No.2019YFE0120300)the National Natural Science Foundation of China (Grant Nos.62171414,52175554,52205608,62171415 and62001431)+1 种基金the Fundamental Research Program of Shanxi Province (Grant Nos.20210302123059 and 20210302124610)the Program for the Scientific and Technological Innovation Programs of Higher Education Institutions in Shanxi (Grant No.2020L0316)。
文摘Harvesting energy from human movement and converting it into electricity is a promising method to address the issue of sustainable power supply for wearable electronic devices.Using traditional energy harvesters for practical applications is difficult due to their low output power.In this paper,an energy harvester with high power and efficiency is reported based on the principle of electromagnetic induction.It adopts a tiny compound mechanism comprising symmetrical lever-sector gear,which can amplify the vertical displacement of the human heel of 1.44 times without affecting the flexibility and comfort of human movement.The lever-sector gear and gear acceleration mechanism can achieve high output power from the tiny vertical movements of the heel.The results demonstrated that the average power and energy harvesting efficiency of the device are 1 W and 63%,respectively.Moreover,combining a novel controllable electric switch and energy management circuit allows the energy harvester to be worn by individuals with different weights and functions as a continuous real-time power supply for various electronic devices(mobile phones,smartwatches,etc.).Therefore,this research provides a new approach for the highly efficient harvesting of human motion energy and sustainable power supply of wearable electronics.
文摘A liquid metal magnetohydrodynamics generation system (LMMGS) was proposed and demonstrated in this paper for collecting parasitic power in shoe while walking. Unlike the conventional shoe-mounted human power harvesters that use solid coil and gear mechanism, the proposed system employs liquid metal (Ga62In25Sn13) as energy carrier, where no moving part is requested in magnetohydrodynamics generators (MHGs). While walk- ing with the LMMGS, the foot alternately presses the two liquid metal pumps (LMPs) which are respectively placed in the front and rear of the sole. As a result, the liquid metal in the LMPs (LMP I and II) is extruded and flows through the MHGs (MHG I and II) in which electricity is produced. For a comparison, three types ofLMMGSs (LMMGS A, B and C) were built where all the parts are the same except for the LMPs. Furthermore, performances of these LMMGSs with different volume of injected liquid metal were tested respectively. Experimental results reveal that both the output voltage and power of the LMMGS increase with the volume of injected liquid metal and the size of the LMPs. In addition, a maximum output power of 80 mW is obtained by the LMMGS C with an efficiency of approximately 1.3%. Given its advantages of no side effect, light weight, small size and reliability, The LMMGS is well-suited for powering the wearable and implantable micro/nano device, such as wearable sensors, drug pumps and so on.
文摘With the energy and environmental problems becoming increasingly serious, human power, as a pervasive, renewable, mobile and environment friendly energy, draws more and more attention over the world. In this paper, the most basic features of human power are presented. The currently available human power harvesting theories and devices are briefly reviewed and compared. Further, direct or indirect utilization of human power in daily life, especially transportation and home appliances, such as human-powered car, watercraft, air- craft, washing machine and television etc. are summarized. Considering that the total energy from an individual is rather limited, as previously focused by most of the former works, it is conceived in this paper that an important future for large scale use of human powers lies in the efficient conversion, collection and storage of such energy from discrete people and then use it later on as desired. With the huge amount of energy gathered, the application category of human power would be significantly expended. Starting from this point, three technical ways towards efficiently utilizing human power are sketched, which are termed as human-powered grid (HPG), human-powered charger (HPC) and human-powered storage (HPS), among which, HPG is capable of collecting the electric power produced by each individual at different regions and thus can supply unique and flexible power to the customers covered in the area, without relying on the conventional electricity grid. The HPC can then charge various kinds of electrical devices instantly by a human driven generator which converts human power into electricity. Finally, the HPS can store electricity in time for later use. In this way, even for the devices requiring electricity that is strong enough, the collected human power can also serve as its reliable energy source. Meanwhile, utilization of human power becomes rather convenient and timely which guarantees its practical value. It is expected that with further research and increasing applications, human power could partially relieve the current global electricity shortage and environmental issues via its pervasive contribution.
