Static concentrating photovoltaic modelling using MATLAB

The world has recorded an increasing interest and staggering investment in renewable technology in the last two decades, specifically in solar photovoltaic (PV). Concentrating PV (CPV) is one of PV’s technology advancements and is gaining popularity for integration in a building. Various CPV designs are currently being investigated by researchers. The aim of this paper is to design and develop a MATLAB programme that can predict the electrical properties of a static concentrator that is designed with a ±40° acceptance angle. The programme was utlizied to determine the angular characteristics of the static concentrator between acceptance angle of -50° and 50°. It is proposed that the optoelectronic gain, Copto-e values be incorporated into the model to simulate a CPV design. The incident angle values (within ±50°) were chosen to demonstrate that the static concentrator could collect solar energy within its designed acceptance angle of ±40°. The current-voltage and power-voltage characteristics are generated for each simulation, and critical parameters such as the maximum power, open-circuit voltage, short-circuit current, and optoelectronic gain were identified and measured. The programme was found to be able to determine the electrical properties for the static concentrator.

COVID-19 Impact on Church Society Ministry

The ongoing COVID-19 pandemic has caused countless impacts and influences on human life. It disturbs the order of life and macro and micro-economics, drastically and radically changes human cultural and behavioral patterns, and greatly impacts the concepts of church theology, pastoring, and ministry. This study is a descriptive qualitative study on the COVID-19 and normal & abnormal reactions & responses to it. Through this article, the authors observed that the COVID-19 existence has transformed and recorrected the Christian paradigm on 1) ecclesiology, which to date exclusively based on building to the real Church, namely God’s people in the form of house/“tent” churches; 2) digital media utilization in this Society 5.0 era as God’s grace to all humanity. Findings and changes in society through renewable technology are an inseparable part of the pandemic. A dichotomic gap of understanding between science and technology for centuries should be reformulated. New technological inventions and social media created by humans are media in the hands of God that should be utilized by the Church to minister in various categories to improve the quality of ministry and service; and 3) creative and innovative interpretation of threefold responsibilities of the Church: koinonia, diakonia, and martyria.

Mitragynine: A review of its extraction, identification, and purification methods

Mitragynine is one of the dominant alkaloids presents in the Mitragyna speciosa which possesses several pharmacological properties such as antinociceptive, anti-inflammatory, and anti-cancer. Studies have reported various methods in extracting mitragynine, both conventional and renewable technology combined with acid-base techniques for the enrichment and purification of mitragynine from the extract of M. speciosa. Several chromatography and spectroscopy instruments such as HPLC, LC-MS, GC-MS, and NMR have been used to identify mitragynine and its content in both the extract and fraction mixtures. In this review, we aim to provide insight on how the methods of extraction, purification, and identification of mitragynine have been developed over the last few decades. This report also shows comparison among the various approaches in extracting mitragynine and points out the facts that different methods gave different yields of the compound.

Simulation of Self-Consumption Photovoltaic Installations: Profitability Thresholds

PV self-consumption can contribute positively to the spread of PV and, therefore, to the progress of renewable energies as a key element in a decarbonized energy model. However, the policies of each country regarding the promotion of this type of renewable technology is fundamental for their growth. Despite the high number of sunshine hours registered in Spain, self-consumption in this country has not been authorized until recently. In this new context, this work presents a systematic study of the profitability limits of a self-consumption PV installation under different conditions of installed peak power, orientation and inclination of the PV panels and level of obstruction of the installation. It was proved that, for the case of study (Córdoba, Spain), the maximum profitability was achieved for PV panels oriented to the south and with an inclination of 15° whereas the most unfavourable conditions are those of PV panels with an orientation and inclination of 180° and 90°, respectively. Furthermore, when the level of obstruction increases the maximum of the Net Present Value of self-consumptions PV installations decreases and this optimal value is achieved for installations with lower power. Finally, empirical adjustment equations have been developed to estimate the profitability parameters of self-consumptions PV installations as a function of their design variables.

Analisa Energi pada Alat Desalinasi Air Laut Tenaga Surya Model Lereng Tunggal

<p class="Abstract">The use of solar energy every day is increasing due to the greater human need for energy. the application of solar desalination equipment is classified as a renewable technology that is very profitable because the energy used is obtained for free and does not cause damage to the environment. This study examines the performance of the solar desalination device with a single slope model with a passive system. It is hoped that greater energy absorption is expected to accelerate the process of evaporation of seawater in the evaporator so as to produce lots of clean water. The desalination tool on the surface of the wall is insulated using aluminum foil with a thickness of 20 mm. The highest solar intensity was obtained on the fifth day of testing, namely 420.85 W/m² with the radiation heat transfer coefficient of 18.44 W/m^{2 o}C, and the lowest solar intensity on the second day, namely 96.89 W/m² with the lowest total outside heat transfer coefficient of 25.57 W/m^{2 o}C. The highest evaporative heat transfer coefficient is 10.54 W/m^{2 o}C and the lowest is 4.42 W/m² ^oC. the lowest energy absorbed by the evaporator on the second day was 1.37 kWh. And the highest efficiency on the fifth day reached 58.89% and the lowest energy efficiency on the second day, namely 34.05%.</p>

Assessing the Effect of Modifying Milking Routines on Dairy Farm Economic and Environmental Performance

The objective of this paper was to quantify the economic and environmental effects of changing a dairy farm’s milking start times. Changing morning and evening milking start times could reduce both electricity costs and farm electricity related CO2 emissions. However, this may also involve altering farmer routines which are based on practical considerations. Hence, these changes need to be quantified both in terms of profit/emissions and in terms of how far these milking start times deviate from normal operations. The method presented in this paper optimized the combination of dairy farm infrastructure setup and morning and evening milking start times, based on a weighting variable (α) which assigned relative importance to labor utilization, farm net profit and farm electricity related CO2 emissions. Multi-objective optimization was utilized to assess trade-offs between labor utilization and net profit, as well as labor utilization and electricity related CO2 emissions. For a case study involving a 195 cow Irish dairy farm, when the relative importance of maximizing farm net profit or minimizing farm electricity related CO2 emissions was high, the least common milking start times (06:00 and 20:00) were selected. When the relative importance of labor utilization was high, the most common milking start times (07:00 and 17:00) were selected. The 195 cow farm saved €137 per annum when milking start times were changed from the most common to the least common. Reductions in electricity related CO2 emissions were also seen when the milking start times were changed from most common to least common. However, this reduction in emissions was primarily due to the addition of efficient and renewable technology to the farm. It was deduced that the monetary and environmental benefits of altering farmer milking routines were unlikely to change normal farm operating procedures.

Overview of the Enablers and Barriers for a Wider Deployment of CSP Tower Technology in Europe

For years, concentrated solar power (CSP) has been considered an emerging technology that could disrupt the energy production sector . The possibility to store the electricity generated during the sunny operating hours in the form of heat enhances energy dispatchability and gives CSP a unique value proposition that conventional renewable energies cannot provide cost-efficiently since it requires the integration of costly large-scale battery systems. CSP is a cleaner technology compared to photovoltaics, but photovoltaics currently has lower overall capital costs, making it more attractive to investors and stakeholders who want to spend less money upfront, . This is one of the main reasons why CSP has never really led either the electricity market or the heating one, even if its combined generation capability (heat and electricity) is globally recognized as a great advantage for a renewable technology. In this study, we analyze the reasons why CSP is not as widespread as it could be; at the same time, we look at the opportunities and the enablers for a further deployment of this technology, focusing on the European region.