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1. Offshore Horizons: HVDC Wind Farms-Exploring Techno-Economic Dimensions

   https://doi.org/10.1109/ACCESS.2025.3567624  

   Singh, Deepi; Golden, Dana; Bhansali, Gaurav; Anwar, Ali; Singh, Shreepooja; Luo, Fang; Zhou, Yiyi (January 2025, IEEE Access)

   High Voltage Direct Current (HVDC) technology is a cornerstone of efficient Offshore Wind Farm (OWF) power transmission. This review examines the integration of HVDC technology in OWFs, considering collection and transmission aspects. The analysis is structured around four key dimensions: economic considerations, connection topologies, converter designs, and technical modeling. It begins with an in-depth economic analysis, evaluating cost-effectiveness, reliability, and market dynamics, focusing on investment, operational costs, and lifecycle expenses. Building on this foundation, the review explores various collection and transmission architectures, highlighting their technical and economical trade-offs, and evaluates power converter designs for efficiency, reliability, and offshore adaptability. Finally, advanced modeling and simulation techniques are reviewed to optimize system performance, enhance reliability, and balance computational efficiency. Throughout each of the four sections, economic and technical constraints are considered together. This helps to improve understanding of how systems can be designed in a way that meets the constraints of both fields and to enhance feasibility on both dimensions. These insights provide a holistic framework for sustainable and economically viable Offshore Wind Energy (OWE) integration. 

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2. Analysis of Pricing Trends and Grid Parity of Photovoltaic Systems

   Nguyen, B.; Hosseini, Z. S.; Gao, D. W. (October 2018, 2018 CIGRE US National Committee (USNC) Grid of the Future (GOTF) Conference)

   As an alternative, cleaner energy source, solar power is becoming a much bigger player in how electricity is generated and consumed. To assess how economically-viable solar power is in comparison to other forms of electricity, factors such as the return on investment (ROI) can be calculated. In addition, based on the average lifetime of an average photovoltaic (PV) system, energy purchase reduction, and revenue that can be generated by selling excess electricity back to the power grid, the economic viability of solar energy can be determined. The capital and commissioning cost of a PV system will continue to be a major factor in how viable a PV system will be. Thus, observing the trend in PV system costs over the past years will yield a point of grid parity, when solar becomes competitive with existing forms of energy generation, and show the most beneficial time frame for the customer to install the PV system. This paper seeks to provide some insight on how economic using solar energy can be. 

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3. Strategic cost and sustainability analyses of injection molding and material extrusion additive manufacturing

   https://doi.org/10.1002/pen.26256  

   Kazmer, David; Peterson, Amy_M; Masato, Davide; Colon, Austin_R; Krantz, Joshua (January 2023, Polymer Engineering & Science)

   Abstract Economic and environmental costs are assessed for four different plastics manufacturing processes, including cold and hot runner molding as well as stock and upgraded material extrusion three dimensional (3D) printers. A larger stock 3D printer was found to provide a melting capacity of 14.4 ml/h, while a smaller printer with an upgraded extruder had a melting capacity of 36 ml/h. 3D printing at these maximum melting capacities resulted in specific energy consumption (SEC) of 16.5 and 5.28 kWh/kg, respectively, with the latter value being less than 50% of the lowest values reported in the literature. Even so, analysis of these respective processes found them to be only 2.9% and 3.8% efficient relative to their theoretical minimum energy requirements. By comparison, cold and hot runner molding with an all‐electric machine had SEC of 1.28 and 0.929 kWh/kg, respectively, with efficiencies of 9.9% and 13.6% relative to the theoretical minima. Breakeven analysis considering the cost and carbon footprint of mold tooling found injection molding was preferable at a production quantity of around 70,000 units. Parametric analysis of model inputs indicates that the breakeven quantities are robust with respect to carbon tax incentives but highly dependent on mold costs, labor costs, and part size. Dimensional and mechanical properties of the molded and 3D printed specimens are also characterized and discussed. 

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4. Sustainable waste-nitrogen upcycling enabled by low-concentration nitrate electrodialysis and high-performance ammonia electrosynthesis

   https://doi.org/10.1039/D3EY00058C  

   Chen, Yifu; Ammari-Azar, Pouya; Liu, Hengzhou; Lee, Jungkuk; Xi, Yu; Castellano, Michael J.; Gu, Shuang; Li, Wenzhen (March 2023, EES Catalysis)

   Reactive nitrogen (Nr) is an essential nutrient to life on earth, but its mismanagement in waste has emerged as a major problem in water pollution to our ecosystems, causing severe eutrophication and health concerns. Sustainably recovering Nr [such as nitrate (NO3−)–N] and converting it into ammonia (NH3) could mitigate the environmental impacts of Nr, while reducing the NH3 demand from the carbon-intensive Haber–Bosch process. In this work, high-performance NO3−-to-NH3 conversion was achieved in a scalable, versatile, and cost-effective membrane-free alkaline electrolyzer (MFAEL): a remarkable NH3partial current density of 4.22 ± 0.25 A cm−2 with a faradaic efficiency of 84.5 ± 4.9%. The unique configuration of MFAEL allows for the continuous production of pure NH3-based chemicals (NH3 solution and solid NH4HCO3) without the need for additional separation procedures. A comprehensive techno-economic analysis (TEA) revealed the economic competitiveness of upcycling waste N from dilute sources by combining NO3− reduction in MFAEL and a low-energy cost electrodialysis process for efficient NO3− concentration. In addition, pairing NO3− reduction with the oxidation of organic Nr compounds in MFAEL enables the convergent transformation of N–O and C–N bonds into NH3 as the sole N-containing product. Such an electricity-driven process offers an economically viable solution to the growing trend of regional and seasonal Nr buildup and increasing demand for sustainable NH3 with a reduced carbon footprint. 

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5. Radial Deposition for Mechanical Bonding of Dissimilar Metals in Wire Arc Additive Manufacturing

   https://doi.org/10.1002/adem.202401978  

   Squires, Lile; Myers, Michael_B; Bandyopadhyay, Amit (February 2025, Advanced Engineering Materials)

   High energy input creates enormous challenges for direct fusion bonding between dissimilar metals in wire‐arc directed energy deposition (DED). Vast differences in material properties, such as those between aluminum and stainless steel, cause significant compatibility issues. Their combination for higher performance is a compelling goal, but attempts are usually limited to nonadditive mechanical fastening. Wire‐based additive for direct fusion has never been attempted, and only powder‐based additive metal fusion manufacturing (AM) has shown any promise. Concentric radial deposition patterns are used in a wire‐arc DED system to produce a layer‐by‐layer in situ bimetallic coupling between AA5356 and SS308L to address this. The additively generated mechanical bond is held together by residual pressure, created by different thermal expansion coefficients between the concentric material bands during cooling. This produces a purely additive yet viable mechanical joint with minimal metallurgical bonding. Destructive testing defines the integrity of the additively coupled unit, with the radial overlap sustaining 732.96 Nm in torsion, 34.17 kN in tension, and a maximum of 475 MPa in compression. Fracture modes confirm the importance of concentric residual loads in creating the mechanically viable joint. Interfacial characterization shows a 300× reduction in crack width for concentrically constrained interfaces with narrowed diffusion zones. 

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