Abstract: Microalgae are potential energy resources for production of biofuels, such as biodiesel, ethanol, and butanol. A method for enhancing cell growth of microalgae enhances transgenic expression of a bicarbonate transporter (HCO3? transporter) in microalgae and thereby obtains a genetically modified microalgae capable of enhanced inorganic carbon fixation, efficient photosynthesis, and expeditious cell growth. The genetically modified microalgae are fit for use in biofuel production.

Abstract: A bulk heterojunction solar cell comprises an electron donor, an electron acceptor, and a multi-substituted fullerene derivative. The electron acceptor further comprises a nano-scale electron acceptor material, and a meso-scale mixture of electron donor/acceptor material. The multi-substituted fullerene derivative further comprises a single fullerene structure and a multi-substituted derivative connected to the single fullerene structure. The multi-substituted fullerene derivative is utilized to prevent the meso-scale mixture of electron donor/acceptor material from large-scale segregation of acceptor over a specific temperature after a specific period (thermally unstable state), thereby maintaining the thermal stability and the sizes of the nano-scale acceptor material and meso-scale mixture of electron donor/acceptor material. In the conventional knowledge, the large-scale segregation and corresponding degradation of power efficiency are cause mainly by the nano-scale acceptor material.

Abstract: A cyclone device for separating a sticky material from a gas stream, comprising a tin body; an introducing tube, connected to the tin body and arranged on a facet of the tin body; a central exhaust pipe, arranged within the tin body on a top position thereof, a conical tin connected to a bottom of the tin body at one end and having a particle discharging exit at the other end; a supporting wheel set, arranged within the tin body and adjacent to an end of the conical tin; and a scraping mechanism arranged movably on the supporting wheel set.

Abstract: Disclosed is an apparatus for continuously processing a lignocellulosic material, and particularly to an apparatus for continuously processing a lignocellulosic material by using of a single-stage or two-stage pretreatment processing with related to the acid-catalyzed steam explosion processing combined with dilute acid hydrolysis and steam explosion, in which parameters are adjusted to maintain in a state where lignocellulosic material feeding, acid mixing pre-heating, dilute acid hydrolysis reaction, steam explosion and flash discharge, to solid and liquid separation are simultaneously and continuously operated, so as to achieve in the results of acquiring xylose hydrolyzate by hydrolyzing hemicellulose, destroying lignocellulosic material structure, increasing surface area and porosity.

Abstract: A treatment method for solid oxide fuel cells includes: measuring a radius of curvature of a cell; measuring a surface resistance of cathode current collecting layer of a cell; performing an alcohol permeating test of a cell; performing simultaneously several stages of compression and heating or cooling to a cell; an apparatus for completing above stages is also disclosed.

Abstract: A practical product combining a thin film solar cell component with a residential environment is provided. Being flexible and easy to manufacture on a plane material, a silicon thin film solar cell is combined with a shutter used in residential buildings, thereby extending shutter functions. This module integrates energy saving, power generation and elegant appearance by bringing in a flexible and colored solar cell module that is light and thin and can generate power indoors and outdoors. As buildings are becoming higher nowadays, the area exposed to sunlight increases. Solar shutters have great power generation efficiency potential if used a building. The solar shutters can save energy and reduce CO2 emission when combined with electric products and provide electricity in emergency when combined with a storage device. The thin film solar cell provides components of many colors for customers, thereby providing options for the appearance of the building.

Abstract: A radiation detection signal processing method and a radiation detection signal processing system using the method are provided, which combine trigger signals and time mark information. The method includes: providing a radiation detection signal processing system having a plurality of front-end detectors, where each front-end detector detects a radiation event to generate a corresponding energy signal; generating a corresponding trigger signal according to the corresponding energy signal; generating a first signal and a second signal according to all trigger signals; and obtaining time differences among the trigger signals according to the first signal and the second signal, converting the time differences into a set of time marks, merging all of the trigger signals and the set of time marks into a hybrid time signal, and transmitting the hybrid time signal to a hybrid event coincidence detection circuit.

Abstract: The present invention relates to a microcrystalline silicon thin film solar cell and the manufacturing method thereof, using which not only the crystallinity of a microcrystalline silicon thin film that is to be formed by the manufacturing method can be controlled and adjusted at will and the defects in the microcrystalline silicon thin film can be fixed, but also the device characteristic degradation due to chamber contamination happening in the manufacturing process, such as plasma enhanced chemical vapor deposition (PECVD), can be eliminated effectively.

Abstract: The present invention discloses a packaging structure and method for organic light emitting devices, in which the packaging structure comprises a substrate; an OLED device, which disposing on the substrate; a first transparent protection layer, which forming on the OLED device; and a second transparent protection layer, which forming on the first transparent protection layer.

Abstract: A method and apparatus for energy conversion cycle based on Solid Oxide Fuel Cell (SOFC) and utilizing CO2 source (referred to as SOFC-CO2-ECC) adopt CO2 as energy sources from waste/stock gas or convert and fix it in the useful compounds. CO2 is converted into CO and O2 via simultaneously catalytic and electrochemical reactions in SOFC for power generation and CO2 cracking. Furthermore, CO is used either as the fuel in SOFC for power generation or starting materials in the chemical reactors to produce CO-derivatives of energy source materials and useful chemical compounds. Hence, SOFC-CO2-ECC is an active or scientific carbon cycle with zero emission of CO2.

Abstract: An apparatus of solar cell module is provided. The apparatus is large-scaled. A supporting frame is combined with solar cell modules. Thus, the present invention can be easily installed; material cost is saved; and the cost spent on adjusting levelness of the solar cell modules can be reduced.

Abstract: A system monitors an operating angle of a solar tracker in real time. The system includes a solar tracker, an angle measurement device, and a processing device. The solar tracker carries a CPV module and controls a light receiving side of the CPV module to face the sun squarely. The angle measurement device is disposed on the solar tracker to measure an angle of inclination of the light receiving side of the CPV module and generate a measured signal. The processing device receives and records the measured signal. Furthermore, the system performs computation required for efficiency evaluation and performance rating of the CPV module, using the measured operating angle of the solar tracker and ambient parameters.

Abstract: A simulated sunlight generating device for generating a simulated sunlight required for evaluating performance of solar cells includes a plurality of driving units, a plurality of light-emitting units, and a plurality of adjusting units. The driving units drive the light-emitting units to emit light. The adjusting units enable the light of the light-emitting units to not only propagate along the same light route but also be added up and combined to form the simulated sunlight of an intended wavelength with ease of installation, ease of maintenance, low costs, high flexibility, and high efficiency.

Abstract: A method for separating amorphous iron oxides is provided. The method includes steps of sampling, filtering, dissolving and separating, analyzing the solution containing amorphous radioactive iron oxides and analyzing granules containing crystalline radioactive iron oxides. Characteristics of the radioactive iron oxides during various periods are acquired to solve the radiation buildup problem. Parameters for improving water quality and chemistry performance indicator are thus provided. Crystalline deposits are separated while the dissolving rate of radioactive iron oxides reaches more than 90%. The present invention does not use complex utilities, is easy to use and has a low operation cost for fast analysis.

Abstract: Thermotechnical units of solid oxide fuel cell (SOFC) are integrated as a whole one. The units may include a burner, a reformer and a heat exchanger. The integrated units can be easily assembled into an SOFC system with cell stacks. Thus, the present invention has a simple structure, operates with ease, saves operational cost, runs with fewer utilities, decreases heat dissipation and enhances system performance.

Abstract: The present invention provides a method for calibrating the crystal-level detection efficiency, which is capable of evaluating the influences caused by the penetration effect of the crystals of a scintillation detector so as to calculate the difference of detection efficiency between crystals correctly and thereby calibrate the difference between crystals appropriately such that the quality of the imaging result is improved accordingly. The method of present invention is simple without modifying the hardware design and consequently the design cost, manpower cost and time cost can be reduced.

Abstract: By using a scintillation surveymeter with good calibration performance evaluation for a secondary standard radiation field, and a working standard part obtaining an ambient dose equivalent rate, in cooperation with a portable irradiator, and an irradiator lifter, a laser range finder and a laser locator of a relevant radiation source, in-situ calibration is capable of being performed on fixed, or large-scale, or continuous monitoring type radiation monitors to be calibrated stationed in nuclear power plants, nuclear medical departments, and other nuclear facility operating institutions. Moreover, a time-efficient and effective in-situ calibration method is further provided, which can be performed based upon a standard calibration field that is achieved using a portable 137Cs radiation source.

Abstract: The present invention relates to a gas-assisted hydrogen desorption method and apparatus, and more particularly, to a method for desorbing hydrogen from a self-catalyzing hydrogen storage material that is assisted by a carrier gas so as to further enable the portion of hydrogen containing in the self-catalyzing hydrogen storage material that can not be desorbed by conventional hydrogen desorption methods to be desorbed, and thus increase the amount of hydrogen to be released from the a self-catalyzing hydrogen storage material.

Abstract: A novel reformer is provided. A gas fuel is guided from a fuel channel. Air and water are guided from a liquid/gas channel. They are mixed together in a mixing space. On mixing them, the temperature of the mixing space is between 150° C. and 300° C. Thus, the reactants are preheated and fully mixed; and a proper temperature is reached to avoid local over-heating and to prevent carbon deposited.

Abstract: A fault analysis method includes: using a matrix of two sets of microgrid power distribution networks to analyze and solve a fault current, and for various types of faults of the distributed power distribution system, obtaining appropriate boundary conditions to calculate a variety of different types of single or simultaneous fault currents of load points. The present invention may be further applied to a situation where a bus or impedance or parallel loop is added. The present invention has good robustness and execution speed, and requires small memory space for calculation of analysis and identification of a power flow fault of the distributed power distribution system, and may be actually applied to an instrument control system for identification and analysis of a fault of a large-scalemicrogrid distribution system.