Bibliografie tematiche / Production engineering

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Letteratura scientifica selezionata sul tema "Production engineering"

Autore: Grafiati
Pubblicato: 4 giugno 2021
Ultima modifica: 29 luglio 2024

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Articoli di riviste sul tema "Production engineering"

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Koščak Kolin, Sonja. "BOOK REVIEW "PETROLEUM PRODUCTION ENGINEERING"". Rudarsko-geološko-naftni zbornik 31, n. 1 (1 settembre 2016): 87–88. http://dx.doi.org/10.17794/rgn.2016.3.7.

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Sinclair, Meeghan. "Engineering polyketide production". Nature Biotechnology 18, n. 9 (settembre 2000): 914. http://dx.doi.org/10.1038/79355.

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SHIOKAWA, Masao. "Future Production Engineering". Journal of the Society of Mechanical Engineers 88, n. 797 (1985): 406–11. http://dx.doi.org/10.1299/jsmemag.88.797_406.

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Lambert, R. G. "Production engineering expands". Production Engineer 65, n. 9 (1986): 13. http://dx.doi.org/10.1049/tpe.1986.0206.

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Chilingarian, George V. "Gas production engineering". Journal of Petroleum Science and Engineering 2, n. 1 (marzo 1989): 77. http://dx.doi.org/10.1016/0920-4105(89)90052-1.

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Neugebauer, Reimund, Eberhard Kunke, Hans Bräunlich e Angela Göschel. "Geometry-Flexible Production – a Production Engineering Challenge". Key Engineering Materials 344 (luglio 2007): 301–8. http://dx.doi.org/10.4028/www.scientific.net/kem.344.301.

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Abstract (sommario):
Today's automotive manufacturers are required to meet ever greater demands for increased flexibility due to decreasing batch sizes. Solutions to meet these demands will bring about far-reaching changes to the mass productions methods which currently dominate automotive manufacturing. In addition to the current need for sheet metal components, such trends will also have an effect on assembly and joining techniques used. The paper describes the challenge for production engineering resulting from current and future market demands.
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Kováč, Jozef, e Vladimír Rudy. "Innovation production structures of small engineering production". Procedia Engineering 96 (2014): 252–56. http://dx.doi.org/10.1016/j.proeng.2014.12.151.

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Marciniak, Stanisław. "The role of economy and management in production engineering". Scientific Papers of Silesian University of Technology. Organization and Management Series 2017, n. 108 (2017): 255–62. http://dx.doi.org/10.29119/1641-3466.2017.108.23.

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Lamb, Thomas. "Engineering for Ship Production". Journal of Ship Production 3, n. 04 (1 novembre 1987): 274–97. http://dx.doi.org/10.5957/jsp.1987.3.4.274.

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Engineering for Ship Production is the use of production-oriented techniques to transmit and communicate design and engineering data to various users in a shipyard. The changeover from a traditional craft-organized shipyard to one of advanced technology has obviously had a tremendous effect on all shipyard departments. It should have had its second greatest impact on the engineering department. However, many engineering departments did not rise to this challenge and, therefore, lost what might have been a lead position for directing and controlling change. Production performance depends largely on the quality, quantity, and suitability of technical information supplied by engineering. By organizing for integrated engineering and preparing design and engineering for zone construction, engineering can step forward and take its proper place and play an essential role in the renaissance of U.S. shipbuilding. Using examples, this paper describes how this can be done.
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NOGUCHI, Norihisa. "Ink Production and Engineering". Journal of the Japan Society of Colour Material 71, n. 1 (1998): 57–67. http://dx.doi.org/10.4011/shikizai1937.71.57.

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Tesi sul tema "Production engineering"

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Macklyne, Heather-Rose Victoria. "Engineering bacteria for biofuel production". Thesis, University of Sussex, 2017. http://sro.sussex.ac.uk/id/eprint/67293/.

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This thesis addresses the need for environmentally and socially responsible sources of energy. Biofuels, made from organic matter, have recently become a viable alternative to petroleum-based fossil fuel. Sugar and starch make up the majority of feedstock used in biofuel production as it is easily digested. However, the use of these feedstocks is problematic as they consume resources with negative implications. By using a bacterium able to utilise five and six carbon sugars, such as the thermophile Geobacillus thermoglucosidans, organic lignocellulosic waste material can be used as a feedstock. The aim of this project was to investigate and utilise key genetic regulators of fermentation in G. thermoglucosidans and to construct genetic engineering tools that enable strain development for second generation biofuel production. We have focused on the redox-sensing transcriptional regulator Rex, widespread in Grampositive bacteria, which controls the major fermentation pathways in response to changes in cellular NAD+/NADH ratio. Following the identification of several members of the Rex regulon via bioinformatics analysis, ChIP-seq and qRT-PCR experiments were performed to locate genome-wide binding sites and controlled genes in G. thermoglucosidans. Initial electromobility shift assay experiments were performed to demonstrate the potential for use of Rex from Clostridium thermocellum as an orthogonal regulator. To further this research, novel in vivo synthetic regulatory switches were designed and tested with the aim of controlling gene expression in response to changes in cellular redox state. In addition, new tools for the efficient genetic engineering of G. thermoglucosidans were produced and optimised, including an E. coli-G. thermoglucosidans conjugation method for plasmid transfer and gene disruption.
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Toddo, Stephen. "Engineering membrane proteins for production and topology". Doctoral thesis, Stockholms universitet, Institutionen för biokemi och biofysik, 2015. http://urn.kb.se/resolve?urn=urn:nbn:se:su:diva-116598.

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The genomes of diverse organisms are predicted to contain 20 – 30% membrane protein encoding genes and more than half of all therapeutics target membrane proteins. However, only 2% of crystal structures deposited in the protein data bank represent integral membrane proteins. This reflects the difficulties in studying them using standard biochemical and crystallographic methods. The first problem frequently encountered when investigating membrane proteins is their low natural abundance, which is insufficient for biochemical and structural studies. The aim of my thesis was to provide a simple method to improve the production of recombinant proteins. One of the most commonly used methods to increase protein yields is codon optimization of the entire coding sequence. However, our data show that subtle synonymous codon substitutions in the 5’ region can be more efficient. This is consistent with the view that protein yields under normal conditions are more dependent on translation initiation than elongation. mRNA secondary structures around the 5’ region are in large part responsible for this effect although rare codons, as well as other factors, also contribute. We developed a PCR based method to optimize the 5’ region for increased protein production in Escherichia coli. For those proteins produced in sufficient quantities several additional hurdles remain before high quality crystals can be obtained. A second aim of my thesis work was to provide a simple method for topology mapping membrane proteins. A topology map provides information about the orientation of transmembrane regions and the location of protein domains in relation to the membrane, which can give information on structure-function relationships. To this end we explored the split-GFP system in which GFP is split between the 10th and 11th β-strands. This results in one large and one small fragment, both of which are non-fluorescent but can re-anneal and regain fluorescence if localized to the same cellular compartment. Fusing the 11th β-strand to the termini of a protein of interest and expressing it, followed by expression of the detector fragment in the cytosol, allows determination of the topology of inner membrane proteins. Using this strategy the topology of three model proteins was correctly determined. We believe that this system could be used to predict the topology of a large number of additional proteins, especially single-spanning inner membrane proteins in E. coli. The methods for efficient protein production and topology mapping engineered during my thesis work are simple and cost-efficient and may be very valuable in future studies of membrane proteins.

At the time of the doctoral defense, the following paper was unpublished and had a status as follows: Paper 2: Manuscript.

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Leung, Pah Hang Melissa Yuling. "Engineering design of localised synergistic production systems". Thesis, University of Surrey, 2017. http://epubs.surrey.ac.uk/845032/.

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Addressing a number of critical challenges caused by centralised production and large scale distribution infrastructures, local production systems designed in a synergistic manner could offer a possible pathway towards sustainability. The thesis focuses on the technical design of local production systems integrating local heterogeneous processes to satisfy local demands through efficient use of locally available renewable resources within technical and ecological constraints. A conceptual and quantitative multi-level framework, based on the Cumulative Exergy Resource Accounting methodology, was first developed for a better understanding of a local production system by considering the production and consumption of products or services as well as ecological processes. A general design framework comprising an optional preliminary design stage followed by a simultaneous design stage based on mathematical optimisation was then developed for solving the design problem towards minimum overall resource consumption. The preliminary design stage considers each supply subsystem individually and allows insights into the potential interactions between them. The simultaneous design stage has the capacity to include all design integration possibilities. A second, insight-based approach was further developed, which offers a new hierarchical and iterative decision and analysis procedure and incorporates design principles and ability to examine design decisions. The multilevel resource accounting framework was demonstrated on ethanol production from cane and successfully revealed how decisions at one level would affect other levels of the system. Both design approaches were illustrated on a case study for the design of local food-energy-water nexus. It showed the advantages of an integrated design of a system which makes use of local resources to meet its demands over a system relying on centralised supplies and over a design without considering integration opportunities between subsystems. The insight-based approach was also found to produce a comparable design to the simultaneous design approach while offering more valuable insights for decision makers.
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Swidah, Reem. "Engineering Saccharomyces cerevisiae toward n‐butanol production". Thesis, University of Manchester, 2016. https://www.research.manchester.ac.uk/portal/en/theses/engineering-saccharomyces-cerevisiae-toward-nbutanol-production(8fbbfed7-9de7-46e9-aabe-69bfa8a6218c).html.

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Biobutanol represents a second generation biofuel, which can be producedfrom renewable resources by microorganisms. A Saccharomyces cerevisiae strainbearing the five butanol synthetic genes (hbd, adhe2, crt, ccr and ERG10) wasconstructed, where the hbd, adhe2, crt and ccr genes are derived from Clostridiumbeijerinckii, while ERG10 is a yeast gene. The genes were transformed individually onsingle cassettes, which integrated into specific chromosomal sites. The single integrantstrains were back‐crossed to create a strain bearing all five butanol synthetic genes. The butanol synthetic enzymes appeared to be highly expressed in the cytosol,however, very little butanol was obtained (< 10 ppm). Therefore, additional geneticmanipulations were made with a view to restoring any redox imbalance channellingthe carbon flux toward the butanol pathway. Deletion of the ADH1 gene in strains withthe butanol pathway improved production to ~250 ppm (203 mg/L) butanol. Furtherimprovement to 360 ppm (292 mg/L) was gained by overexpressing the ALD6 and ACS2genes, that are involved in synthesis of acetyl‐CoA; the precursor for butanolbiosynthesis. However, the replacement of ALD6 with ALD2, which produces NADHinstead of NADPH, didn’t improve butanol yields. In addition, no significantimprovement of butanol yield was obtained when dehydrogenase enzymes from theglycerol biosynthetic pathway were deleted. An initial assessment of the bestconditions for butanol production were semi‐anaerobic growth at 30°C in 2% glucosewith a starting OD600 of 0.1.In this project, another key question was addressed: does the sensitivity of cellsto short chain alcohols like butanol affect butanol production? Previous work in theAshe lab has identified specific point mutations in the translation initiation factor,eIF2B, which generate resistance or sensitive phenotypes to exogenously addedbutanol. Here a comparison of butanol production in sensitive and resistantbackgrounds showed that the butanol yield was 1.5‐2 fold higher in a butanol resistantstrain compared to the sensitive mutant. Generating a ‘super’ butanol resistant strainbearing a GCD2‐S131A mutation in eIF2B promoted a higher butanol yield per cell. However, another consequence of this mutation was reduced growth. So thecombination of these effects meant that the overall butanol concentration in mediawas similar to the control. Overall this work highlights that S. cerevisiae can producebutanol but that further optimisation both at the level of the strain and processengineering would be necessary before this would be of interest to the commercialsector.
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Sio, Sei Hoi. "Concurrent engineering in modern mold design and production". Thesis, University of Macau, 2001. http://umaclib3.umac.mo/record=b1446138.

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Kangwa, Martin [Verfasser]. "Protein Engineering for Photobiological Hydrogen Production / Martin Kangwa". Bremen : IRC-Library, Information Resource Center der Jacobs University Bremen, 2012. http://d-nb.info/1035267357/34.

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Songsivilai, Sirirurg. "Antibody engineering and the production of specific antibodies". Thesis, University of Cambridge, 1990. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.385510.

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Mathew, Domoyi Castro. "Improving microalgae biofuel production : an engineering management approach". Thesis, Cranfield University, 2014. http://dspace.lib.cranfield.ac.uk/handle/1826/9304.

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The use of microalgae culture to convert CO2 from power plant flue gases into biomass that are readily converted into biofuels offers a new frame of opportunities to enhance, compliment or replace fossil-fuel-use. Apart from being renewable, microalgae also have the capacity to utilise materials from a variety of wastewater and the ability to yield both liquid and gaseous biofuels. However, the processes of cultivation, incorporation of a production system for power plant waste flue gas use, algae harvesting, and oil extraction from the biomass have many challenges. Using SimaPro software, Life cycle Assessment (LCA) of the challenges limiting the microalgae (Chlorella vulgaris) biofuel production process was performed to study algae-based pathway for producing biofuels. Attention was paid to material use, energy consumed and the environmental burdens associated with the production processes. The goal was to determine the weak spots within the production system and identify changes in particular data-set that can lead to and lower material use, energy consumption and lower environmental impacts than the baseline microalgae biofuel production system. The analysis considered a hypothetical transesterification and Anaerobic Digestion (AD) transformation of algae-to- biofuel process. Life cycle Inventory (LCI) characterisation results of the baseline biodiesel (BD) transesterification scenario indicates that heating to get the biomass to 90% DWB accounts for 64% of the total input energy, while electrical energy and fertilizer obligations represents 19% and 16% respectively. Also, Life Cycle Impact Assessment (LCIA) results of the baseline BD production scenario show high proportional contribution of electricity and heat energy obligations for most impact categories considered relative to other resources. This is attributed to the concentration/drying requirement of algae biomass in order to ease downstream processes of lipid extraction and subsequent transesterification of extracted lipids into BD. Thus, four prospective alternative production scenarios were successfully characterised to evaluate the extent of their impact scenarios on the production system with regards to lowering material use, lower energy consumption and lower environmental burdens than the standard algae biofuel production system. A 55.3% reduction in mineral use obligation was evaluated as the most significant impact reduction due to the integration of 100% recycling of production harvest water for the AD production system. Recycling also saw water demand reduced from 3726 kg (freshwater).kgBD- 1 to 591kg (freshwater).kgBD- 1 after accounting for evaporative losses/biomass drying for the BD transesterification production process. Also, the use of wastewater/sea water as alternative growth media for the BD production system, indicated potential savings of: 4.2 MJ (11.8%) in electricity/heat obligation, 10.7% reductions for climate change impact, and 87% offset in mineral use requirement relative to the baseline production system. Likewise, LCIA characterisation comparison results comparing the baseline production scenarios with that of a set-up with co-product economic allocation consideration show very interesting outcomes. Indicating -12 MJ surplus (-33%) reductions for fossil fuels resource use impact category, 52.7% impact reductions for mineral use impact and 56.6% reductions for land use impact categories relative to the baseline BD production process model. These results show the importance of allocation consideration to LCA as a decision support tool. Overall, process improvements that are needed to optimise economic viability also improve the life cycle environmental impacts or sustainability of the production systems. Results obtained have been observed to agree reasonably with Monte Carlo sensitivity analysis, with the production scenario proposing the exploitation of wastewater/sea water to culture algae biomass offering the best result outcome. This study may have implications for additional resources such as production facility and its construction process, feedstock processing logistics and transport infrastructure which are excluded. Future LCA study will require extensive consideration of these additional resources such as: facility size and its construction, better engineering data for water transfer, combined heat and power plant efficiency estimates and the fate of long-term emissions such as organic nitrogen in the AD digestate. Conclusions were drawn and suggestions proffered for further study.
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Meester, Kalleigh Emmalyn. "Optimizing Silk Protein Production Using an Engineering Approach". Thesis, North Dakota State University, 2020. https://hdl.handle.net/10365/32076.

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The acquisition of spider silk is a complex and costly process that restricts its availability. Increasing applications stemming from the biomedical and pharmaceutical sectors is driving the demand higher, necessitating the need for efficient large-scale production. This thesis investigates 1) recombinant protein expression systems, 2) major ampullate gland cell culture techniques for natural silk production, and 3) process optimization of recombinant silk protein expression. Using a process engineering analysis, the current E.coli system expression system was found to be a cost-effective and efficient technique for silk production. While a Box-Behnken predictive model was developed to optimize expression conditions based on small-scale E.coli expression data, it failed to translate to a larger-scale. Alternatively, the protein secreting cells that line the major ampullate silk gland were isolated and grown in conditions mimicking the native microenvironment, demonstrating a clear impact on growth of the cells and a potential new source of silk.
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Zhang, Baohua. "Metabolic Engineering for Fumaric and Malic Acids Production". The Ohio State University, 2012. http://rave.ohiolink.edu/etdc/view?acc_num=osu1346338118.

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Libri sul tema "Production engineering"

1

Chenevert, Martin E. Production engineering. Houston: Gulf Pub. Co., 1986.

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Li, Jingshan, e Semyon M. Meerkov. Production Systems Engineering. Boston, MA: Springer US, 2009. http://dx.doi.org/10.1007/978-0-387-75579-3.

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Jingshan, Li. Production systems engineering. New York: Springer, 2008.

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M, Meerkov Semyon, a cura di. Production systems engineering. Livermore, CA: WingSpan Press, 2007.

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S, Kumar. Gas production engineering. Houston: Gulf Pub. Co., Book Division, 1987.

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Hackney, Bob. Pre-production engineering. A cura di Shaw Phil, Larcombe Peter e SATRA Footwear Technology Centre. Kettering: SATRA, 1996.

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Blair, Thomas H. Energy Production Systems Engineering. Hoboken, NJ, USA: John Wiley & Sons, Inc., 2016. http://dx.doi.org/10.1002/9781119238041.

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Karrer, Christoph. Engineering Production Control Strategies. Berlin, Heidelberg: Springer Berlin Heidelberg, 2012. http://dx.doi.org/10.1007/978-3-642-24142-0.

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Świć, Antoni, e Jerzy Lipski. Computer aided production engineering. Lublin: Politechnika Lubelska, 2013.

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Oliveira, Antonella Carvalho de, a cura di. Collection: Applied production engineering: -. Brazil: Atena Editora, 2022.

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Capitoli di libri sul tema "Production engineering"

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Amasaka, Kakuro. "Production Engineering". In Science SQC, New Quality Control Principle, 237–50. Tokyo: Springer Japan, 2004. http://dx.doi.org/10.1007/978-4-431-53969-8_14.

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Pandey, Yogendra Narayan, Ayush Rastogi, Sribharath Kainkaryam, Srimoyee Bhattacharya e Luigi Saputelli. "Production Engineering". In Machine Learning in the Oil and Gas Industry, 223–58. Berkeley, CA: Apress, 2020. http://dx.doi.org/10.1007/978-1-4842-6094-4_7.

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Bertagnolli, Frank. "Production Engineering". In Lean Management, 259–68. Wiesbaden: Springer Fachmedien Wiesbaden, 2022. http://dx.doi.org/10.1007/978-3-658-36087-0_19.

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Warren, Quinta Nwanosike. "Production Engineering". In Oil and Gas Engineering for Non-Engineers, 61–67. Boca Raton: CRC Press, 2022. http://dx.doi.org/10.1201/9781003100461-6.

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Brecher, Christian, e Manfred Weck. "Engineering". In Machine Tools Production Systems 3, 639–77. Wiesbaden: Springer Fachmedien Wiesbaden, 2021. http://dx.doi.org/10.1007/978-3-658-34622-5_15.

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Orloff, Michael A. "Global Production Engineering". In Modern TRIZ Modeling in Master Programs, 67–106. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-37417-4_3.

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Chen, Shengnan. "Petroleum Production Engineering". In Springer Handbook of Petroleum Technology, 501–16. Cham: Springer International Publishing, 2017. http://dx.doi.org/10.1007/978-3-319-49347-3_14.

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Summers, Boyd L. "Software Engineering Production". In Effective Methods for Software Engineering, 125–34. Boca Raton : CRC Press, 2020.: Auerbach Publications, 2020. http://dx.doi.org/10.1201/9781003025665-15.

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Potter, Kevin. "Production engineering requirements". In Resin Transfer Moulding, 146–51. Dordrecht: Springer Netherlands, 1997. http://dx.doi.org/10.1007/978-94-009-0021-9_5.

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Jeschke, Sabina, Wolfgang Bleck, Anja Richert, Günther Schuh, Wolfgang Schulz, Martina Ziefle, André Bräkling et al. "Scientific Cooperation Engineering". In Integrative Production Technology, 993–1046. Cham: Springer International Publishing, 2017. http://dx.doi.org/10.1007/978-3-319-47452-6_11.

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Atti di convegni sul tema "Production engineering"

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Campbell, J. H., e R. M. Brimhall. "An Engineering Approach to Gas Anchor Design". In SPE Production Operations Symposium. Society of Petroleum Engineers, 1989. http://dx.doi.org/10.2118/18826-ms.

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Campbell, J. M. "Production Engineering Manpower Development: A Revised Approach". In SPE Production Operations Symposium. Society of Petroleum Engineers, 1987. http://dx.doi.org/10.2118/16241-ms.

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Wilke, J. G., e R. C. Hoskins. "Engineering Training Needs for the New Millennium". In SPE Production and Operations Symposium. Society of Petroleum Engineers, 2001. http://dx.doi.org/10.2118/67265-ms.

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Carey, William M., e Claude P. Brancart. "Engineering and offshore energy production". In OCEANS 2008. IEEE, 2008. http://dx.doi.org/10.1109/oceans.2008.5152097.

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Li, Q. Y., L. Wang e J. J. Xu. "Production data analytics for production scheduling". In 2015 IEEE International Conference on Industrial Engineering and Engineering Management (IEEM). IEEE, 2015. http://dx.doi.org/10.1109/ieem.2015.7385838.

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Pallasch, Christoph, Nicolai Hoffmann, Simon Storms e Werner Herfs. "ProducTron: Towards Flexible Distributed and Networked Production". In 2018 IEEE 22nd International Conference on Intelligent Engineering Systems (INES). IEEE, 2018. http://dx.doi.org/10.1109/ines.2018.8523995.

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Simpson, M. A. "A Microcomputer Approach to Drilling Engineering Problem Solving". In SPE Deep Drilling and Production Symposium. Society of Petroleum Engineers, 1986. http://dx.doi.org/10.2118/14988-ms.

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"Mining production, mechanical engineering and metallurgy". In 2007 International Forum on Strategic Technology. IEEE, 2007. http://dx.doi.org/10.1109/ifost.2007.4798629.

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Carey, William M., e Claude P. Brancart. "Oceanic engineering and offshore energy production". In OCEANS 2008. IEEE, 2008. http://dx.doi.org/10.1109/oceans.2008.5289434.

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Boone, D. M., e T. A. Terril. "Reservoir and Production Engineering Application Programs". In Petroleum Industry Application of Microcomputers. Society of Petroleum Engineers, 1986. http://dx.doi.org/10.2118/15302-ms.

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Rapporti di organizzazioni sul tema "Production engineering"

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Bartolotta, Anna, Charles McLean, Y. Tina Lee e Albert Jones. Production Systems Engineering:. Gaithersburg, MD: National Institute of Standards and Technology, 1998. http://dx.doi.org/10.6028/nist.ir.6154.

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Ori, Naomi, e Jason W. Reed. Engineering parthenocarpic fruit production in tomato. Israel: United States-Israel Binational Agricultural Research and Development Fund, 2021. http://dx.doi.org/10.32747/2021.8134175.bard.

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Normally, fruits are formed only following fertilization. In tomato, fertilization is sensitive to extreme temperatures, resulting in reduced yield. Yield stability would therefore benefit from tomato varieties with parthenocarpic fruits, which develop independently of fertilization. The objective of the research was to generate parthenocarpic tomato lines by mutating PRC2 components, to investigate how PRC2 and auxin signaling regulate fruit initiation and growth, and to generate parthenocarpic lines for breeding. We reasoned that heterozygous prc2 mutations would generate parthenocarpic fruits with minimal vegetative effects, as they act in the female gametophyte. The specific objectives were : To generate (1) tomato PRC2 mutants and characterize them developmentally (2) and molecularly (3), and to test their performance in the field (4). Aim 1 proved challenging, and was achieved only during the third year. Therefore the research was extended for an additional 8 months, during which goals 2 and 4 were achieved. The research yielded mutations in 4 different PRC2 components, two of which were loss-of-function mutations that produced parthenocarpic fruits, Slfie and Slmsi1 mutants. Characterization of heterozygote Slfie mutants showed that they produce fruits independently of fertilization across a range of growth conditions. No homozygote Slfie mutants were obtained, likely due to failure of the mutant allele to transfer via the female gametopyte. Slfie/+ fruits were of good quality in contrast to most previously described parthenocarpic fruits. Initial characterization under heat stress showed a dramatic increase in yield under extreme heat, therefore providing yield stability. In addition, we characterized single and double mutants in tomato SlARF8a and SlARF8b, and found that these also gave plants with parthenocarpic fruit growth and increased yield stability. The research yielded genetic material that can be used in breeding programs to increase yield stability under unstable climate
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Simmons, Blake Alexander, Joanne V. Volponi, Rajat Sapra, Jean-Loup Michel Faulon, George M. Buffleben e Diana C. Roe. Understanding and engineering enzymes for enhanced biofuel production. Office of Scientific and Technical Information (OSTI), gennaio 2009. http://dx.doi.org/10.2172/976938.

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Lynd, L. R. Pathway engineering to improve ethanol production by thermophilic bacteria. Office of Scientific and Technical Information (OSTI), dicembre 1998. http://dx.doi.org/10.2172/576095.

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Hernandez, L., R. Ellison, Jr, J. Zubersky, G. MacCosbe e L. Davis. Sandia National Laboratories data engineering for DOE production agencies. Office of Scientific and Technical Information (OSTI), aprile 1990. http://dx.doi.org/10.2172/6845594.

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Gonzalez, Stephanie. Production Qualification Training: Production Qualification & Engineering Evaluation (EE) Plan (Course 2 of 8) [Slides]. Office of Scientific and Technical Information (OSTI), settembre 2021. http://dx.doi.org/10.2172/1820073.

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Utley, Dawn R. A Research and Analysis of AMCOM, RDEC, ED, Production Engineering Division and the Systems Engineering Effort. Fort Belvoir, VA: Defense Technical Information Center, febbraio 2002. http://dx.doi.org/10.21236/ada401115.

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Schoenung, Susan, e Rebecca Ann Efroymson. Algae Production from Wastewater Resources: An Engineering and Cost Analysis. Office of Scientific and Technical Information (OSTI), febbraio 2018. http://dx.doi.org/10.2172/1435264.

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Adams, C., K. Derstine e B. Toppel. Engineering physics production code implementation on the Cray X-MP. Office of Scientific and Technical Information (OSTI), marzo 1989. http://dx.doi.org/10.2172/5941786.

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Fuqua, Norman B. Introduction to Concurrent Engineering: Electronic Circuit Design and Production Applications. Fort Belvoir, VA: Defense Technical Information Center, settembre 1992. http://dx.doi.org/10.21236/ada278405.

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