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The operation state of lithium-ion battery for vehicle is unknown and the remaining life is uncertain. In order to improve the performance of battery state prediction, in this paper, a joint estimation method of state of charge (SOC) and state of health (SOH) for lithium-ion batteries based on multi-scale theory is designed.

In this paper, a joint estimation method of SOC and SOH for lithium-ion batteries based on multi-scale theory is designed. The venin equivalent circuit model and fast static calibration method are used to fit the relationship between open-circuit voltage and SOC, and the resistance and capacitance parameters in the model are identified based on exponential fitting method. A battery capacity model for SOH estimation is established. A multi-time scale EKF filtering algorithm is used to estimate the SOC and SOH of lithium-ion batteries.

The SOC and SOH changes in dynamic operation of lithium-ion batteries are accurately predicted so that batteries can be recycled more effectively in the whole vehicle process.

A joint estimation method of SOC and SOH for lithium-ion batteries based on multi-scale theory is accurately predicted and can be recycled more effectively in the whole vehicle process.

Discharge planning home visits (DPHVs) are a routine part of occupational therapy clinical practice. However, there is a dearth of evidence to support or refute their efficacy and limited policies or standards to guide clinical practice. This study aims to investigate current clinical practice during home visits and the value that occupational therapists’ attribute to home visits within an Irish context.

Data collection was carried out by using a survey questionnaire (postal and electronic options). The study population comprised occupational therapists across 52 sites including acute, rehabilitation and convalescence settings within the Republic of Ireland. In total, 122 occupational therapists that completed the survey questionnaire were recruited for the study.

Quantitative data identified time spent per visit, departmental size, hospital size, number of visits and report writing times. Information was gathered regarding clinical areas assessed during visits in a Likert scale format. Qualitative data identified benefits, risks, recommendations to improve home visit practice and clinical criteria for home visits. Findings conclude that DPHVs are routinely carried out by occupational therapists and that there is consistency in clinical practice within an Irish setting. Occupational therapists value home visits as clinical assessments and have identified risks during practice, benefits of visits and ways to improve practice.

This study has provided a reflection of clinical practice in the Republic of Ireland. It is the only study of its kind in an Irish setting, and it could be used as a knowledge base regarding current practice on DPHV and occupational therapists’ clinical reasoning regarding home visits. The information gathered in this study could influence policies regarding DPHV and could serve as a comparison to standardise practice and justify the need for DPHV.

A standalone microgrid (MG) is able to use local renewable resources and reduce the loss in long distance transmission. But the single-phase device in a standalone MG can cause the voltage unbalance condition and additional power loss that reduces the cycle life of battery. This paper proposes an energy management strategy for the battery/supercapacitor (SC) hybrid energy storage system (HESS) to improve the transient performance of bus voltage under unbalanced load condition in a standalone AC microgrid (MG).

The SC has high power density and much more cycling times than battery and thus to be controlled to absorb the transient and unbalanced active power as well as the reactive power under unbalanced condition. Under the proposed energy management design, the battery only needs to generate balanced power to balance the steady state power demand. The energy management strategy for battery/SC HESS in a standalone AC MG is validated in simulation study using PSCAD/EMTDC.

The results show that the energy management strategy of HESS maintains the bus voltage and eliminates the unbalance condition under single-phase load. In addition, with the SC to absorb the reactive power and unbalanced active power, the unnecessary power loss in battery is reduced with shown less accumulate depth of discharge and higher average efficiency.

With this technology, the service life of the HESS can be extended and the total cost can be reduced.

The purpose of this paper is to present a study on miniaturized instruments for analytical chemistry with a microplasma as the excitation source.

The atmospheric pressure glow microdischarge could be ignited inside a ceramic structure between a solid anode and a liquid cathode. As a result of the cathode sputtering of the solution, it was possible to determine its chemical composition by analyzing the emission spectra of the discharge. Cathodes with microfluidic channels and two types of anodes were constructed. Both types were tested through experimentation. Impact of the electrodes geometry on the discharge was established. A cathode aperture of various sizes and anodes made from different materials were used.

The spectroscopic properties of the discharge and its usefulness in the analysis depended on the ceramic structure. The surface area of the cathode aperture and the flow rate of the solution influence on the detection limits (DLs) of Zn and Cd.

Constructed ceramic structures were able to excite elements and their laboratory-size systems. During the experiments, Zn and Cd were detected with DLs 0.024 and 0.053 mg/L, respectively.

Modernisation is characterized by industrial development. The Serasa Industrial Park (SIP) is an industrial estate in Serasa sub-district, close to the Brunei Darussalam's only deep-water port. Given the link between industrial development and environmental degradation, as well as the general lack of environmental monitoring in Brunei, the paper questions whether environmental management (EM) is adequate to protect the area from further industrialisation. The purpose of this paper is to answer this question using SIP as a proxy because it is a well-established industrial site that should be more amenable to EM. This study involves two surveys of 20 firms and an interview with the environmental agency to gain a better understanding on the national policy and strategy. The paper found that, while the current state of EM is structurally weak, it is adequate for the SIP under current conditions. To protect the environment and increase industrialisation in the area, EM structures must be incorporated into existing regulatory frameworks.

Research to find new energy source is still an intensive work by researchers in this field. One of the energy sources with no negative impact to environment is solar energy. Solar cell is used to convert solar energy to electrical energy. The electrically powered solar cell in direct current (DC) power is not suitable for our daily office equipment since they need the alternating current (AC) power. This research has succeeded in realizing a solar cell automation tool based on Arduino Uno with input from solar energy, from which output AC voltage can be used for the needs of household appliances and office equipments. Output power of this tool is approximately 700 W, which can turn on the lights, charge the hand phones, laptops, and so forth.