Identifying the critical success factors and their relevant aspects for renewable energy projects; an empirical perspective

Owed to their enormous impact on the sustainable development of energy security, climate change, and the economy, multiple renewable-energy projects are carried out around the world, both in developed and in developing countries. Since the construction of renewable energy project is an entrepreneurial activity, there is a big concern about the success of such projects. Although pertinent literature suggests several methodologies to enhance the success of various projects, renewable-energy projects are still overlooked. This study identifies multiple critical success factors (CSFs), required for renewable-energy projects. Using a sample of 272 firms working on renewable energy projects in Pakistan, a quantitative and causal study was undertaken to identify the critical success factors (CSFs). Structural equation modeling (SEM) was applied to test and verify hypothesis. The results show that there is a strong direct dependency of project success over the proposed factors, however environmental factors are found to be the only predominant CSFs which show the significant indirect effect over project success. The study expected to contribute towards and widen up the existing knowledge base for the project performance of renewable energy projects by adding on the findings regarding critical success factors

A study of concession design and risk-return tradeoffs for privately financed infrastructure projects

This research investigates into key aspects of concession design. It aims to investigate whether the decision to invest in infrastructure projects largely depends on the trade-offs between risk and return, and how appropriate trade-offs between risk and return can be achieved through the design of contractual arrangements, financial structure, and government support.Doctor of Philosophy (CSE

Isolation and Identification of Aeromonas hydrophila from Alosa sapidissima

Aeromonas hydrophila (Family: Aeromonadaceae) is a traditional aquatic animal pathogen. It has been widely prevalent in our country since the 1980s and 1990s, causing diseases in a series of freshwater fish, leading to serious economic losses. It has been confirmed to be one of the main pathogens in freshwater aquaculture worldwide. The American shad (Alosa sapidissima) is one of the biggest shad in the world and grows much faster than other shad. Because of its delicious taste as reeves shad (Tenualosa reevesii), American shad were introduced into China from the USA by the Shanghai Fisheries Research Institute for local farming in 1998 and is widely welcomed in Shanghai, Jiangsu, and Zhejiang Provinces. In recent years, with the rapid development of the American shad culturing, fish diseases have become a major threat to fish farming. However, because most of the American shad are cultured in extensive ponds, few diseases have been reported in China. In this study, we reported a case of A. hydrophila infection in American shad. In 2021, the disease outbreak was observed in American shad cultured in Linyi City, Shandong Province, with severe mortality. The daily mortality could be up to 2.5%. The fish were cultured in indoor ponds for breeding and outdoor ponds when fish reached 300 g. The American shad were cultured with underground water and water was changed 1–3 times daily. The water temperature was 18–20 ℃. The fish were fed largemouth bass (Micropterus salmoides) commercial feed, and the daily feeding rate was approximately 2%. The disease broke out in the indoor ponds first, and then in outdoor ponds. The cumulative mortality was approximately 90% in 2 months. Enrofloxacin was administered orally, but no effects were observed and the disease continued to progress. The typical disease symptoms in the American shad were furunculosis or ulceration, with shedding scales and surface bleeding, especially on the tail, sometimes swollen and pus-filled. In autopsies of the diseased fish, ascites were found in the fish abdomen, and dark red necrosis on the liver, with sepsis and enteritis. The liver, spleen, and kidney of American shad with typical symptoms were collected and cut into about 1 cm3 tissue blocks, immersed in Davidson's Fixative (Davidson's AFA) for 24 h, and preserved in 70% ethanol. The tissues were mounted onto glass slides with hematoxylin and eosin staining for histological analysis. Histopathological results showed swollen liver cells, vacuolar degeneration, basophilia, and diffuse necrosis; the spleen showed hemorrhagic anemic necrosis, nuclear rupture, and atrophy. Glomerular atrophy of the renal corpuscle, cells in the proximal and distal tubules cytoarchitectural loss, and necrosis and shedding of kidney lymphocytes was also observed. No parasite was found on the fish surface, fins, in the gills, or internal organs with the naked eye and a light microscope. Freshwater viruses, such as Cyprinus herpesvirus type 2, largemouth bass ranavirus, megalocytivirus, and rhabdovirus, were checked by polymerase chain reaction (PCR), and no viruses were detected. The liver, spleen, and kidney of the diseased fish were sampled and cultured in tryptic soy agar medium (TSA) and Luria-Bertani agar medium (LB) plate medium at 28 ℃ for 24 h. Several pure and dominant colonies with the same morphology were observed on all the plates. These colonies were purified and cultured. The 16S rRNA gene sequencing results of all the purified colonies showed that the dominant strains were of the same species. The typical isolate was purified and named AS-AH2101. The results of biochemical identification with Biolog GenⅢ showed that the isolate AS-AH2101 was negative to gentiobiose, stachyose, D-raffinose, α-D-lactose, D-melibiose, 3-methyl glucose, D-fucose, D-sorbitol, D-arabitol, and Myo-inositol, while positive to dextrin, D-maltose, D-trehalose, D-cellobiose, sucrose, D-turanose, and β-methyl-D-glucoside. According to the Biolog GenⅢ identification system database, the biochemical characterization of AS-AH2101 was similar to that of A. hydrophila, with a confidence of 0.999. The 16S rRNA gene sequence of AS-AH2101 was submitted to GenBank databases under the accession number OP787967 and blasted in GenBank and EzTaxon. Comparison of the 16S rRNA gene sequences showed 99%−100% identity with those of A. hydrophila. The phylogenetic tree was constructed using Mega 7 with the Aeromonas typical strains 16S rRNA gene sequences obtained from GenBank, and the phylogenetic analysis also clustered AS-AH2101 with A. hydrophila. Thus, the molecular analysis results identified the SC18032201 strains as A. hydrophila, and the phenotype also supported this result. Because of the strong stress response of American shad, it is difficult to perform the experimental culturing and infection in the laboratory. As a classic pathogenic infection model organism in aquatic animals, blue gourami (Trichogaster trichopterus) is a traditional model for fish pathogen study and has been widely used in the research of A. hydrophilia and E. piscicida. Therefore, in this study, blue gouramis were used as the model organism for virulence evaluation of AS-AH2101 in the experimental infection. The results of the challenge experiment showed that the death of the blue gourami infected via intramuscular injection was observed on the third day post infection. The infected fish showed redness, bleeding, and scale shedding at the injection site, congestion or bleeding at the base of the fin, abdominal ascites, and liver necrosis, which were similar to the naturally infected American shad. The isolate strain AS-AH2101 showed high virulence to blue gouramis, with the median lethal dose (LD50) of 3.23×104 CFU/fish. The virulence genes of A. hydrophilia were also detected by PCR, and results indicated that AS-AH2101 possessed six virulence genes, including aerolysin (aerA), hemolysin (hlyA), extracellular protease (ahpA), anti-metalloproteinases (ast), enterotoxin (altA), and quorum sensing gene (luxS). Antibiotic sensitivity studies showed that AS-AH2101 was resistant to cefradine, amoxicillin, ampicillin, and erythromycin. These results provided important information for disease control and A. hydrophila prevention and control of American shad culturing in China

Tuning back contact property via artificial interface dipoles in Si/organic hybrid solar cells

Back contact property plays a key role in the charge collection efficiency of c-Si/poly(3,4-ethylthiophene):poly(styrenesulfonate) hybrid solar cells (Si-HSCs), as an alternative for the high-efficiency and low-cost photovoltaic devices. In this letter, we utilize the water soluble poly (ethylene oxide) (PEO) to modify the Al/Si interface to be an Ohmic contact via interface dipole tuning, decreasing the work function of the Al film. This Ohmic contact improves the electron collection efficiency of the rear electrode, increasing the short circuit current density (J(sc)). Furthermore, the interface dipoles make the band bending downward to increase the total barrier height of built-in electric field of the solar cell, enhancing the open circuit voltage (V-oc). The PEO solar cell exhibits an excellent performance, 12.29% power conversion efficiency, a 25.28% increase from the reference solar cell without a PEO interlayer. The simple and water soluble method as a promising alternative is used to develop the interfacial contact quality of the rear electrode for the high photovoltaic performance of Si-HSCs. Published by AIP Publishing

Rapid crystallization of amorphous silicon films utilizing Ar-H-2 mesoplasma annealing

A rapid and low temperature crystallization of amorphous silicon (a-Si) films by Ar-H-2 mesoplasma annealing is demonstrated. The high thermal kinetic energy of mesoplasma leads to the fast crystallization process and a nanocrystalline Si film with a high crystalline fraction can be obtained within a few seconds at a temperature less than 600 degrees C. The atomic H in mesoplasma environment with a high number density enhances the crystallization process through an H diffusion-induced chemical annealing apart from the thermal effect. The recrystallization process of a-Si film by mesoplasma annealing is demonstrated. (C) 2018 Elsevier B.V. All rights reserved

In situ annealing and high-rate silicon epitaxy on porous silicon by mesoplasma process

By a mesoplasma process, a double-layer porous Si is annealed for a few seconds, by which an annealing effect similar to that of a prolonged conventional annealing process is obtained. The basic annealing process is considered to follow the classical sintering theory. However, the surface of the annealed porous Si is rough with large open voids because of H etching. The epitaxial Si films deposited on such a rough surface at a rate of 350nm/s show a smooth surface with a low defect density compared with those deposited on a polished Si wafer, which clearly demonstrates the advantages of the cluster-assisted mesoplasma process. (C) 2016 The Japan Society of Applied Physics

Isolation and Identification of Aeromonas salmonicida from Thamnaconus septentrionalis and Sebastes schlegeli

The greenfin horse-faced filefish (Thamnaconus septentrionalis) and rockfish (Sebastes schlegeli) occupy important positions in the offshore net fishery in Shandong Province. Interest in their mariculture has been developing rapidly in recent years as candidates for submerged cage open-sea aquaculture. With the development of breeding techniques and the expansion of large- scale farming, fish disease may become a serious constraint that limits sustainable aquaculture and leads to great economic losses. Epidemiological investigation is the basis of disease control and should be carried out throughout the culture process. In this study, we describe the diseases of T. septentrionalis and S. schlegeli caused by Aeromonas salmonicida subsp. masoucida. In November 2018, an outbreak of T. septentrionalis disease was observed in a farm located in Penglai, Shandong Province, and an outbreak of S. schlegeli disease occurred in the same farm in April 2019, with daily mortalities of 0.4%~1% and about 1%, respectively. The main symptoms in the diseased fish were ulcers, redness, swelling, and bleeding in the mouth. Most diseased fish in the ponds showed "red mouth". No parasites were observed by the naked eye or light microscope. From the liver, spleen, and kidney of all the diseased fish, many homogeneous colonies were observed after three days incubation on TSA and 2216E agar plates. All strains had the same shape, color, and size, and the 16S rRNA genes of all strains were the same, with high identity with A. salmonicida. The virulence of the isolates was tested experimentally via injection with T. septentrionalis (infected by 2018TS-1) and S. schlegeli (infected by 2019SS-1) in the laboratory to calculate the median lethal dose (LD50). The results showed that the LD50 of 2018TS-1 to T. septentrionalis was 1.78×105 CFU/fish, and that of 2019SS-1 to S. schlegeli was 0.89×105 CFU/fish. The dead fish of the experimentally infected group showed ulcers and red mouth, the same symptoms as in naturally infected fish. Dominant colonies isolated from experimentally infected fish were all identified as A. salmonicida by 16S rRNA gene sequencing, which indicated that 2018TS-1 and 2019SS-1 were the pathogens of T. septentrionalis and S. schlegeli, respectively. Bacterial identification was carried out by 16S rRNA gene analysis and Biolog Gen Ⅲ characterization. The 16S rRNA gene sequences of 2018TS-1 and 2019SS-1 (Gene Bank: OK258319 and OK258320) isolated from T. septentrionalis and S. schlegeli were analyzed using MEGA5, and the phylogenetic tree derived from 16S rRNA gene sequences clustered the isolates with A. salmonicida. Among the Biolog Gen Ⅲ tests, 31 produced positive reactions or weak positive reactions for both strains (Dextrin, D-Maltose, D-Trehalose, D-Cellobiose, Sucrose, β-Methyl-D-Glucoside, D-Salicin, α-D-Glucose, D-Mannose, D-Fructose, D-Mannitol, Glycerol, Gelatin, Glycyl-L-Proline, L-Arginine, D-Gluconic Acid, Methyl Pyruvate, L-Malic Acid, Bromo-Succinic Acid, Tween 40, α-Keto-Butyric Acid, Acetoacetic Acid, Propionic Acid, Acetic Acid, pH 6, 1% NaCl, 1% Sodium Lactate, L-Aspartic Acid, L-Glutamic Acid, L-Histidine, and L-Serine), and two weak positive reactions for 2019SS-1, while the others were negative. According to the Biolog database, both strains were identified as A. salmonicida. Based on the molecular analysis of 16S rRNA genes and Biolog Gen Ⅲ phenotype results, the isolates were identified as A. salmonicida. The vapA gene, which encodes the outer membrane protein (A-layer protein) and causes the auto-aggregation of bacteria, is a conserved gene with some variation region in A. salmonicida. vapA gene typing is an effective and important method for classifying the molecular types and subspecies of this fish. vapA gene typing was also used in this study to identify subspecies of strains isolated from T. septentrionalis and S. schlegeli. The vapA gene sequences of 2018TS-1 and 2019SS-1 (Gene Bank: OK300094 and OK300095) were analyzed using MEGA5 with type strains obtained from Gene Bank. The phylogenetic tree derived from the vapA gene sequences clustered 2018TS-1 and 2019SS-1 with type strain ATCC 27013, indicating that the strains isolated from T. septentrionalis and S. schlegeli belonged to A. salmonicida subsp. masoucida, similar to the A-layer type Ⅶ strains, which are all from the northeast Asian and Canadian coasts in the Pacific Ocean. Based on the experimental infection, 16S rRNA sequence analysis, Biolog Gen Ⅲ characterization, and vapA gene typing, we confirmed that A. salmonicida subsp. masoucida is the pathogen of T. septentrionalis and S. schlegeli, and the cause of these two diseases on the farm. This is the first report of T. septentrionalis and S. schlegeli infected by A. salmonicida in industrial aquaculture, as well as the first report of a disease of T. septentrionalis in culture. It has been reported that A. salmonicida subsp. masoucida can infect Atlantic salmon (Salmo salar), turbot (Scophthalmus maximus), sablefish (Anoplopoma fimbria), and tongue sole (Cynoglossus semilaevis) cultured in Shandong Province. In this study, we expanded the host list of A. salmonicida subsp. masoucida to include two new species in aquaculture, T. septentrionalis and S. schlegeli, on the same farm, indicating that A. salmonicida subsp. masoucida may translate and adapt to a new host in a short period. Considering the increasing host and economic losses caused by A. salmonicida in fish culture, the prevention of A. salmonicida subsp. masoucida should be an important objective for mariculture in the future

Colloidal transfer printing method for periodically textured thin films in flexible media with greatly enhanced solar energy harvesting

The successful fabrication of high-performance flexible thin film solar cells (TFSCs) directly on diverse substrates is intrinsically limited by the processing temperature and substrate property. In this work, a colloidal transfer-printing (CTP) method is developed to fabricate large-area flexible thin-film absorbers with an antireflection coating and periodic configurations. Compared with a planar film, such structures exhibit much lower reflectance due to the antireflection introduced by the textured polydimethylsiloxane and the enhanced scattering introduced by the periodic back-scattering reflector. Optical simulation using the finite-element method indicates the structural periodicity for maximum light absorption is of 300 nm for an ultrathin amorphous silicon (a-Si) film with a thickness of 160 nm. The patterned a-Si film yields an overall absorption of 64.8%, which is much larger than the planar counterpart of 38.5%. This new approach to thin-film transfer can be readily extended to other material systems and device structures, opening up an effective alternative to traditional fabrication of the low-cost and high-performance optoelectronic devices

Pseudocapacitance Induced Uniform Plating/Stripping of Li Metal Anode in Vertical Graphene Nanowalls

Pseudocapacitance Induced Uniform Plating/Stripping of Li Metal Anode in Vertical Graphene Nanowall