Thematische Bibliographien / Process risk analysis

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  3. Bücher
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Auswahl der wissenschaftlichen Literatur zum Thema „Process risk analysis“

Autor: Grafiati
Veröffentlicht am 28. Juni 2021
Zuletzt aktualisiert am 7. Februar 2022

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Zeitschriftenartikel zum Thema "Process risk analysis"

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Kataria, K. K., und M. Khandakar. „Mixed fractional risk process“. Journal of Mathematical Analysis and Applications 504, Nr. 1 (Dezember 2021): 125379. http://dx.doi.org/10.1016/j.jmaa.2021.125379.

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Redmill, F. „Risk analysis - a subjective process“. Engineering Management Journal 12, Nr. 2 (2002): 91. http://dx.doi.org/10.1049/em:20020206.

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Flores-Jimeno, Rocío, und Inmaculada Jimeno-García. „Dynamic analysis of different business failure process“. Problems and Perspectives in Management 15, Nr. 2 (27.09.2017): 486–99. http://dx.doi.org/10.21511/ppm.15(si).2017.02.

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This work is framed in the research of business failure. We examine a method of analyzing the dynamics of financial failure. The authors examine a method of analyzing the dynamics of financial failure, because our goal is to analyze how the economic and financial indicators show the risk of failure in a group of companies. Using a sample of 163 companies declared bankrupt or dissolved, the authors show how to depict company trajectories of behavior and movement to terminal failure. They analyze these trajectories to find and describe empirical evidence of the different dynamics of bankruptcy. The authors also show that the estimation of failure risk is more accurate when these different failure trajectories are defined. In conclusion, the authors can see that there are different failure trajectories. One can use these different trajectories to identify more efficiently the indicators warning of the failure risk of the companies analyzed.
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Janeliūnienė, Rasma, und Vida Davidavičienė. „IT RISK IDENTIFICATION PROCESS ANALYSIS / IT RIZIKOS IDENTIFIKAVIMO PROCESO ANALIZĖ“. Mokslas - Lietuvos ateitis 5, Nr. 1 (05.04.2013): 46–52. http://dx.doi.org/10.3846/mla.2013.07.

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Business processes and business success that depends on information technology (IT) is now closely associated with IT risks, which is influenced by growing IT risk management and control needs. It is vitally important to identify, analyse and reduce systemic risk in order to avoid undesirable consequences, such as information loss, data leaks or damage. A critical success factor in this situation is the systematic and continuous IT risk management. This paper aims to analyse one part of the IT risk management process –risk identification. The article invoked the methods of literature analysis, synthesis, comparison, and generalization.Article in Lithuanian Santrauka Išaugusi verslo procesų, kartu ir verslo sėkmės, priklausomybė nuo informacinių technologijų (IT) šiuo metu yra glaudžiai susijusi su IT rizika. Tai daro įtaką augančiam IT rizikos valdymo ir kontrolės poreikiui. Nepaneigtina tai, kad identifikuota, išanalizuota ir sumažinta sistemos rizika leidžia išvengti nepageidaujamų pasekmių, tokių kaip informacijos praradimas, nutekėjimas ar duomenų sugadinimas. Pagrindinis sėkmės veiksnys siekiant užtikrinti organizacijos sėkmę valdant IT yra sistemingas ir tęstinis IT rizikos valdymas. Straipsnyje keliamas tikslas išanalizuoti vieną iš IT rizikos valdymo proceso etapų – rizikų identifikavimą. Straipsnyje pasitelkiami tokie metodai, kaip mokslinės literatūros analizė, sisteminimas, apibendrinimas.
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Laksmita, Raizsa, und Imam Djati Widodo. „Fuel distribution process risk analysis in East Borneo“. MATEC Web of Conferences 154 (2018): 01079. http://dx.doi.org/10.1051/matecconf/201815401079.

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Fuel distribution is an important aspect of fulfilling the customer’s need. It is risky because it can cause tardiness that can cause fuel scarcity. In the process of distribution, many risks are occurring. House of Risk is a method used for mitigating the risk. It identifies seven risk events and nine risk agents. Matrix occurrence and severity are used for eliminating the minor impact risk. House of Risk 1 is used for determining the Aggregate Risk Potential (ARP). Pareto diagram is applied to prioritize risk that must be mitigated by preventive actions based on ARP. It identifies 4 priority risks, namely A8 (Car trouble), A4 (Human Error), A3 (Error deposit via bank and underpayment), and A6 (traffic accident) which should be mitigated. House of Risk 2 makes for mapping between the preventive action and risk agent. It gets the Effectiveness to Difficulty Ratio (ETD) for mitigating action. Conducting safety talk routine once every three days with ETD 2088 is the primary preventive actions.
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Dzido, Hanna. „Risk analysis in the supervision process“. Transportation Overview - Przeglad Komunikacyjny 2019, Nr. 1 (01.01.2019): 18–25. http://dx.doi.org/10.35117/a_eng_19_01_03.

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The article deals with the theoretical and practical aspects of safety management in civil aviation. Presented the process of approach of Risk Based Oversight (RBO) and application of legal acts and documents necessary for oversight at particular levels (aviation organization, member state, European). One of the main activity of the implementation and effectiveness of the Safety Management System (SMS) management system in air organizations are the effective systems for occurrence reporting and the Just Culture idea. The article also includes an amendment to EU law - Regulation 2018/1139, so-called the new Basic Regulation (NBR - New Basic Regulation), which makes it possible to apply the law to state aviation aircraft carrying out military, customs, police, search and rescue, fire-fighting, border control and coastal protection or other public interest activities in favor of safety, interoperability and efficiency.
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Kojima, Tsutomu, Toru Hasegawa, Munechika Misumi und Tsuyoshi Nakamura. „Risk analysis of software process measurements“. Software Quality Journal 16, Nr. 3 (11.12.2007): 361–76. http://dx.doi.org/10.1007/s11219-007-9040-5.

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Medina, Héctor, Josep Arnaldos und Joaquim Casal. „Process design optimization and risk analysis“. Journal of Loss Prevention in the Process Industries 22, Nr. 5 (September 2009): 566–73. http://dx.doi.org/10.1016/j.jlp.2009.04.007.

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Zadakbar, Omid, Faisal Khan und Syed Imtiaz. „Development of Economic Consequence Methodology for Process Risk Analysis“. Risk Analysis 35, Nr. 4 (09.12.2014): 713–31. http://dx.doi.org/10.1111/risa.12313.

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Tsany, Farras, Imam Santoso und Dhita Morita Ikasari. „Identification and Risk Analysis of Mozarella Cheese Production Process“. Journal of Industrial and Information Technology in Agriculture 1, Nr. 2 (29.12.2017): 18. http://dx.doi.org/10.24198/jiita.v1i2.14599.

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Mozzarella cheese is a food which is very risky to the growth of microorganisms since it has high water content by 54.1%. One way to overcome that problem is to identify and analyze the risks found in the production process of mozzarella cheese. Therefore, the researchers examined the identification and risk analysis of mozzarella cheese production process by conducting a case study in CV XYZ. The methods used were Failure Mode and Effect Analysis (FMEA) and Fault Tree Analysis (FTA). The results revealed that there were 11 risks from 8 steps of the production process. Of the 11 risks, the risks which were included in the critical risks were the risk of contamination during the curd clotting process, low-quality of milk, severe stretcher machine damage, and overly acidic cheese taste. The result of quantitative analysis of FTA indicated that the risk probability during mozzarella cheese production process was 0.110 or the risk was 11%. The probability with the highest value was the probability of contamination risk during the curd clotting process by 0.095. It indicated that contamination during the curd clotting process was the most probable risk in the future. The proposed recommendations for improvement are devising Standard Operating Procedures (SOPs) and Sanitation Standard Operating Procedures (SSOP) based on the company's condition and it should be implemented properly. Then, improving communication with suppliers is also needed so that the company will always get high quality raw materials. Keywords: Qualitative Analysis, Quantitative Analysis, Dairy Product, Failure Mode and Effect Analysis, Fault Tree Analysis
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Dissertationen zum Thema "Process risk analysis"

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Kariuki, Simon Gitahi. „Integrating human factors into chemical process quantitative risk analysis“. [S.l.] : [s.n.], 2007. http://opus.kobv.de/tuberlin/volltexte/2007/1528.

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Mariotti, Valeria. „Quantitative risk analysis as a tool in process design“. Master's thesis, Alma Mater Studiorum - Università di Bologna, 2014. http://amslaurea.unibo.it/8005/.

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La Quantitative Risk Analysis costituisce un valido strumento per la determinazione del rischio associato ad un’installazione industriale e per la successiva attuazione di piani di emergenza. Tuttavia, la sua applicazione nella progettazione di un lay-out richiede la scelta di un criterio in grado di valutare quale sia la disposizione ottimale al fine di minimizzare il rischio. In tal senso, le numerose procedure esistenti, sebbene efficaci, risultano piuttosto faticose e time-consuming. Nel presente lavoro viene dunque proposto un criterio semplice ed oggettivo per comparare i risultati di QRA applicate a differenti designs. Valutando l’area racchiusa nelle curve iso-rischio, vengono confrontate dapprima le metodologie esistenti per lo studio dell’effetto domino, e successivamente, viene applicata al caso di serbatoi in pressione una procedura integrata di Quantitative Risk Domino Assessment. I risultati ottenuti dimostrano chiaramente come sia possibile ridurre notevolmente il rischio di un’attività industriale agendo sulla disposizione delle apparecchiature, con l’obiettivo di limitare gli effetti di possibili scenari accidentali.
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Garpenfeldt, Katarina. „Hazard Identification and Risk Assessment : Analysis of a Risk Assessment Process in Emergency Preparedness“. Thesis, Högskolan i Gävle, Avdelningen för datavetenskap och samhällsbyggnad, 2019. http://urn.kb.se/resolve?urn=urn:nbn:se:hig:diva-31318.

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A challenging yet crucial component of emergency planning is to identify relevant hazards and assess their risk level. Within the Province of Ontario, Canada, governmental emergency management stakeholders are required to use the Hazard Identification and Risk Assessment (HIRA) process, developed by the Province, to meet legislative compliance. The HIRA process is based on the use of risk matrices and hence faces many of the inherent challenges of this method, potentially resulting in a poor risk assessment process with a low quality outcome. The aim of this thesis is to analyze Ontario’s Provincial HIRA process to identify weaknesses, strengths, and gaps, in order to increase understanding for potential issues related to this type of hazard identification and risk assessment process within emergency preparedness. The Provincial HIRA process will be analyzed, as it is implemented in the Regional Municipality of York, including the Public Health Unit, by comparing the process to six points identified in the literature as potential challenges with the ability to compromise the quality of a risk assessment process. The main focus is on the use of risk matrices although some aspects more generally related to risk assessments have been included. Overall the Provincial HIRA has several weaknesses and gaps. It is evident that the process demonstrates many of the issues that impair the quality of risk assessments supported by the use of risk matrices such as ambiguous input and out-puts, errors, poor resolution and sub-optimal resource allocation. Additionally, a significant amount of resources and access to hazard subject matter expertise would be required to execute the HIRA in accordance with the guideline. Such resources are not necessarily available to the target audience. All these aspects contribute to a risk assessment process that struggles to meet one of its main objectives, to provide the user with a quantitative risk ranking with the capacity to distinguish between risk levels of different hazards. Subsequently the outcome may not accurately support the emergency planning or the decision making process related to resource allocation.
Identifiering av lokalt relevanta faror och bedömning av deras risknivåer är en kritisk och komplex del av arbetsområdet beredskap för nödsituationer (eng. emergency preparedness). Myndigheter som bedriver verksamhet inom detta område i provinsen Ontario, Kanada  är enligt lag skyldiga att genomföra en ”Hazard Identification and Risk Assessment” (HIRA) process, utvecklad av provinsen. HIRA-metoden är baserad på användandet av risk matriser och står således inför många av denna metods inneboende utmaningar vilket kan resultera i svag riskbedömningsprocess med tvivelaktigt resultat. Syftet med denna uppsats är att analysera Ontarios HIRA-process för att identifiera potentialla svagheter, styrkor och luckor i processen och således generera insikt i potentiella utmaningar relaterat till denna typ av riskbedömningsprocess inom ”emergency preparedness”.  HIRA-processen, så som den implementerats i York Region och inom dess folkhälsomyndighet, kommer att analyseras baserat på sex punkter identifierade inom litteraturen som aspekter med förmåga att påverka kvalitén på riskdömningsresultatet. Sammanfattningsvis ses att HIRA-processen innefattar många av de svagheter som diskuteras i litteraturen rörande riskmatriser som till exempel fel, tvetydig in- och utdata, dålig upplösning och suboptimal resursfördelning vilket potentiellt medför en riskbedömningsprocess av låg kvalité. För att genomföra HIRA-processen så som metoden är designad behöver användaren investera en betydande mängd resurser samt helst tillgå expertis inom riskbedömning relaterat till de olika farorna som skall bedömas, vilket inte alltid finns tillgängligt inom de organisationen som genomför en HIRA. Dessa aspekter sammantaget bidrar till en process som inte nödvändigtvis når fram till ett av sina primära mål; att skapa en kvantitativ rangordning av risker med förmåga att särskilja olika farors risknivå. Till följd finns en risk att resultatet av riskbedömning inte stödjer den operativa planeringen eller processen för beslutsfattande relaterad till resursfördelning.
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Kašpar, Adam. „Analýza rizik výrobního procesu“. Master's thesis, Vysoké učení technické v Brně. Ústav soudního inženýrství, 2015. http://www.nusl.cz/ntk/nusl-233202.

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This master’s thesis is focused on the risk analysis of the selected production process in company TES Vsetin, s.r.o. The thesis is divided into three parts, the theoretical part, analysis of the current state and design part. The theoretical part defines the basic concepts related to risk, risk analysis and tools for risk reduction. Some of these theoretical findings are then applied in the next section where these analyzes are used to the identification of risks. On the basis of these analyzes in the final part there will be designed proposals and recommendations, which should lead to a reduction of identified risks, including financial enumeration.
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Slámová, Aneta. „Analýza rizik procesu výroby svařence“. Master's thesis, Vysoké učení technické v Brně. Ústav soudního inženýrství, 2020. http://www.nusl.cz/ntk/nusl-414172.

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This diploma thesis is focused on the risk analysis of a selected production process of the company SIK METAL s.r.o. The work is divided into three parts, the theoretical part, then the analysis of the current state and the design part. The theoretical part defines the basic concepts that relate to risks. These theoretical findings are then applied in the second part of the work, where risk identification is performed using various types of analysis. Based on selected analyzes, proposals and recommendations are proposed in the final part of the diploma thesis. Proposals and recommendations contain financial quantifications.
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Fang, Jayming Sha. „Making the business case for process safety using value-at-risk concepts“. Thesis, Texas A&M University, 2006. http://hdl.handle.net/1969.1/4272.

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An increasing emphasis on chemical process safety over the last two decades has led to the development and application of powerful risk assessment tools. Hazard analysis and risk evaluation techniques have developed to the point where quantitatively meaningful risks can be calculated for processes and plants. However, the results are typically presented in semi-quantitative “ranked list” or “categorical matrix” formats, which are certainly useful but not optimal for making business decisions. A relatively new technique for performing valuation under uncertainty, Value at Risk (VaR), has been developed in the financial world. VaR is a method of evaluating the probability of a gain or loss by a complex venture, by examining the stochastic behavior of its components. We believe that combining quantitative risk assessment techniques with VaR concepts will bridge the gap between engineers and scientists who determine process risk and business leaders and policy makers who evaluate, manage, or regulate risk. We present a few basic examples of the application of VaR to hazard analysis in the chemical process industry. We discover that by using the VaR tool we are able to present data that allows management to make better informed decisions.
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Bonander, Johan, und Hampus Ulriksson. „Risk Management in Residential Construction – An analysis of the risk management process of a Swedish construction company“. Thesis, KTH, Fastigheter och byggande, 2016. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-190211.

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Risk can be described as the absence of information when a decision is to be made at any time throughout a process. The construction industry is often considered as complex and defragmented due to working in a project based format; with a unique product and a process where there are times when decisions need to be made with insufficient information. Therefore, proper risk management processes can be vital to minimizing risks, maximizing opportunities and securing a successful project process. This master thesis has been conducted at a large Swedish construction company that houses both a constructing unit and a residential development unit. Consequently, the focus of this thesis has been on analyzing the risk management process when a residential project is both developed and constructed by the same company. The purpose of this master thesis is to describe and analyze risk management in a project based organization within the construction industry. The thesis aims to provide a better understanding of how risk management is used in practice but also what underlying factors that can affect risk management processes. The study will include both the perspective of the developer and the constructor; as well as their separate and joint processes facilitating risk management. In regards to the purpose of this thesis, a general risk management model has been used to provide a framework for analysis. This model consists of four steps: risk identification, risk assessment, risk mitigation and risk monitoring. The results from this study indicate that risk management within residential construction heavily depends on the personal knowledge and experience of project members. In turn, this creates discrepancies between how risk management is described in internal documents and how it is utilized in practice. Furthermore, it was found that risk management is considered an important part of the overall project process. However, opinions varied to what extent risk management was actually applied in projects. A reason for this could be that there is no joint understanding within the company of what processes are considered as part of risk management – thus, project members sometimes practice risk management without being aware of it.
Risk kan definieras som avsaknaden av information när ett beslut måste tas, vid något tillfälle, under en pågående process. Byggindustrin anses ofta vara en komplex och splittrad bransch då man arbetar i projektformat och med en komplicerad slutprodukt, vilket skapar otaliga tillfällen när beslut måste fattas med otillräcklig information. Därför är en väl fungerande riskhanteringsprocess viktig för att minimera risker, maximera möjligheter och säkerställa lyckade projekt. Detta examensarbete har genomförts på ett av de större svenska byggbolagen som har både bostadsutveckling och entreprenad inom den egna verksamheten. Därmed kommer detta examensarbete att fokusera på riskhanteringsprocessen inom bostadsbyggande då ett och samma företag agerar som både beställare och byggare. Syftet med detta examensarbete är att beskriva och analysera riskhanteringsprocessen inom ett projektbaserat företag i byggbranschen. Uppsatsen har som mål att skapa en bättre förståelse för hur riskhantering används i praktiken, samt för de underliggande faktorer som påverkar riskhantering. Studien kommer att inkludera både beställarens och byggarens perspektiv, samt deras respektive, och gemensamma, processer i relation till riskhantering. Med hänseende till studiens syfte har en generell modell för riskhantering använts för att ge ett ramverk till analysen. Denna modell består av fyra steg: riskidentifiering, riskvärdering, riskhantering och riskuppföljning. Studien visar på att riskhantering inom bostadsbyggande till stor del grundar sig på projektmedlemmarnas personliga kunskap och erfarenhet. Detta leder till att det finns skillnader mellan den avsedda processen för riskhantering och hur riskhanteringsarbetet faktiskt genomförs. Vidare fann studien att riskhantering ansågs vara en viktig del av projektprocessen i sin helhet. Trots detta varierade åsikter kring hur riskhantering faktiskt genomfördes i projekt. En anledning till detta kan vara att det inte finns någon gemensam syn på vilka processer som faktiskt ingår i riskhanteringsarbetet – detta innebär i sin tur att projektmedlemmar ibland bedriver riskhantering utan att vara medvetna om det.
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Yue, Yik Lo Nora. „MAFKAP : a management framework for the knowledge acquisition process“. Thesis, Imperial College London, 1993. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.310513.

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Oduncuoglu, Arman. „Quantitative assessment of product value and change risk analysis in early design process“. Thesis, McGill University, 2011. http://digitool.Library.McGill.CA:80/R/?func=dbin-jump-full&object_id=96922.

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Many products that we see in our daily life are designed through modifications to existing products. The ever changing trends in current markets, along with customers' rising demands for quality, require many companies to make frequent changes to create new products. Due to the challenges in product modification, many companies have adopted a strategy of adaptive design to create new designs by incrementally improving the existing ones. This thesis develops a decision support system which helps product development managers to assess project performance metrics, such as development effort, development time, product cost and revenue, customer satisfaction, profit margin, and risk. The proposed model is a specialized calculator which integrates house of quality (HOQ), functional analysis system technique (FAST), risk assessment, product complexity analysis, and change propagation analysis to provide an overview of the design process from product attributes and design risk to cost and effort.The assessment of different design solutions is performed by comparing the obtained performance metrics with those from the original design. The system allows the recalculation of these performance metrics when engineering change occurs during the creation of new design solutions. The system then provides an estimate of the change in required resources and expected benefits through comparative analysis. Through these means, the proposed tool aims to help project managers identify an optimal design solution.The main goal of the proposed model is to increase product knowledge in the early stages of design to support project managers and design engineers in their decision making process. This is achieved through the visualization of the effects of engineering changes. In this thesis, the details of the proposed decision support system (DSS) are described and illustrated with a simple example of a thermoflask.
De nombreux produits d'usage courant ont été conçus en modifiant des produits déjà existants. L'évolution constante des tendances du marché actuel et la demande croissante des clients pour des produits de qualité forcent les entreprises à effectuer des modifications fréquentes en vue de créer de nouveaux produits. Les défis associés à la modification de produit ont incité beaucoup d'entreprises à développer une stratégie de conception adaptative permettant de créer de nouveaux produits en améliorant de manière incrémentielle les produits existants. Ce mémoire propose un système d'aide à la décision visant à appuyer les gestionnaires en développement de produits dans l'analyse des mesures de performance d'un projet tels que l'effort et le temps de développement, le coût et le potentiel de revenu, la satisfaction de la clientèle, la marge de profit et le risque. Le modèle proposé est un calculateur spécialisé intégrant la maison de la qualité (HOQ), la technique d'analyse fonctionnelle de système (diagramme FAST), l'analyse du risque, l'analyse de la complexité du produit et l'analyse de la propagation de la modification. Il est ainsi possible de fournir une vue d'ensemble du processus de conception du produit allant des attributs du produit et du risque de la conception jusqu'aux coûts et aux efforts requis.L'analyse des diverses solutions de conception est effectuée en comparant les mesures de performance obtenues avec celles qui sont associées à la conception initiale. Le système permet de recalculer les mesures de performance lorsque des modifications techniques sont apportées dans le cadre de la création de nouvelles solutions de conception. Le système fournit alors, par le biais d'une analyse comparative, une estimation de l'impact de la modification sur les ressources requises et les avantages escomptés. À l'aide de ces fonctionnalités, l'outil proposé vise à aider les chefs de projet à trouver la solution de conception optimale.Le principal objectif du modèle proposé est d'augmenter la connaissance du produit dès les étapes préliminaires de la conception afin d'appuyer le processus de prise de décision des chefs de projet et des ingénieurs de conception. Cet objectif est réalisé par la visualisation des impacts d'une modification technique. Dans ce mémoire, le système d'aide à la décision (SAD) proposé est décrit de manière détaillée et illustré par un exemple simple, celui d'un contenant isotherme.
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Elrgaiye, Ali Saad Ab. „Semi-quantitative Risk Assessment of an anaerobic digestion process“. Master's thesis, Alma Mater Studiorum - Università di Bologna, 2016.

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Biogas is the most emerging industrial sector for energy production from renewable sources at National and European levels, and growing government funds favor the development of its market. From a process safety standpoint, Seveso Directive (Directive 2012/18/EU of the European Parliament and of the Council), but Biogas plants are complicated enough to require both their specific technology and an accurate risk assessment for design purposes. The number of accidents involving biogas plants has been too many to be ignored. Biogas plants are often operated wrongly, deficient in technological details and incorrectly scaled-up. Moreover, all these mistakes are repeated over and over again. Therefore, there is the pressing need for an assessment of the reliability of these plants in order to operate them safely. For this reason, a quantitative risk assessment was carried out to on a biogas production plant. Starting from event trees conventional for process industry (EU- Project ARAMIS), to the critical events, and ending with selecting the specific reference accident scenarios.
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Bücher zum Thema "Process risk analysis"

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Guidelines for process hazards analysis, hazards identification & risk analysis. 3. Aufl. Ontario: Dyadem, 2003.

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Risk analysis for process plant, pipelines and transport. London: E & FN Spon, 1994.

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3

American Institute of Chemical Engineers. Center for Chemical Process Safety. Layer of protection analysis: Simplified process risk assessment. New York: Center for Chemical Process Safety of the American Institute of Chemical Engineers, 2001.

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4

Skelton, Bob. Process safety analysis: An introduction. Houston, Tex: Gulf Pub., 1997.

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Process safety analysis: An introduction. Rugby, Warwickshire: Institution of Chemical Engineers, 1997.

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Ramiro, J. M. Santamaría. Risk analysis and reduction in the chemical process industry. London: Blackie Academic & Professional, 1998.

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Santamaría Ramiro, J. M., und P. A. Braña Aísa. Risk Analysis and Reduction in the Chemical Process Industry. Dordrecht: Springer Netherlands, 1998. http://dx.doi.org/10.1007/978-94-011-4936-5.

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Operational risk management: A practical approach to intelligent data analysis. Chichester: John Wiley & Sons, 2010.

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Goldberg, B. Quasi-static probabilistic structural analyses process and criteria. [Huntsville, Ala.]: National Aeronautics and Space Administration, Marshall Space Flight Center, 1999.

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Goldberg, B. Quasi-static probabilistic structural analyses process and criteria. [Huntsville, Ala.]: National Aeronautics and Space Administration, Marshall Space Flight Center, 1999.

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Buchteile zum Thema "Process risk analysis"

1

Flaus, Jean-Marie. „The Risk Management Process (ISO31000)“. In Risk Analysis, 53–69. Hoboken, NJ USA: John Wiley & Sons, Inc., 2013. http://dx.doi.org/10.1002/9781118790021.ch4.

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Anderson, Elizabeth L. „The Risk Analysis Process“. In Carcinogen Risk Assessment, 3–17. Boston, MA: Springer US, 1988. http://dx.doi.org/10.1007/978-1-4684-5484-0_1.

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Yoe, Charles. „Monte Carlo Process“. In Principles of Risk Analysis, 539–48. Second edition. | Boca Raton : Taylor and Francis, CRC Press, 2019.: CRC Press, 2019. http://dx.doi.org/10.1201/9780429021121-15.

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Spellman, Frank R., Lorilee Medders, Paul Fuller und Gordon Graham. „Risk Management Process – Risk Identification and Analysis“. In Handbook of Risk and Insurance Strategies for Certified Public Risk Officers and Other Water Professionals, 673–700. Boca Raton: CRC Press, 2021. http://dx.doi.org/10.1201/9781003207146-25.

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Frankel, Ernst G. „The Generalized Failure Process for Non-Maintained Systems“. In Systems Reliability and Risk Analysis, 114–40. Dordrecht: Springer Netherlands, 1988. http://dx.doi.org/10.1007/978-94-009-2776-6_7.

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Santamaría Ramiro, J. M., und P. A. Braña Aísa. „Quantitative risk assessment“. In Risk Analysis and Reduction in the Chemical Process Industry, 176–214. Dordrecht: Springer Netherlands, 1998. http://dx.doi.org/10.1007/978-94-011-4936-5_6.

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Georgieva, Konstantina, Ayaz Farooq und Reiner R. Dumke. „Analysis of the Risk Assessment Methods – A Survey“. In Software Process and Product Measurement, 76–86. Berlin, Heidelberg: Springer Berlin Heidelberg, 2009. http://dx.doi.org/10.1007/978-3-642-05415-0_6.

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Wu, Dan, und Ye Yang. „Towards an Approach for Security Risk Analysis in COTS Based Development“. In Software Process Change, 124–31. Berlin, Heidelberg: Springer Berlin Heidelberg, 2006. http://dx.doi.org/10.1007/11754305_14.

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„Case Study: Chemical Process“. In Risk Analysis, 355–60. Hoboken, NJ USA: John Wiley & Sons, Inc., 2013. http://dx.doi.org/10.1002/9781118790021.app7.

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„Risk analysis process for municipalities“. In Risk Analysis, 121–27. Chichester, UK: John Wiley & Sons, Ltd, 2015. http://dx.doi.org/10.1002/9781119057819.ch11.

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Konferenzberichte zum Thema "Process risk analysis"

1

Žutautaitė-Šeputienė, I., J. Augutis und E. Ušpuras. „Modelling of the node immunity change process in a network system“. In RISK ANALYSIS 2008. Southampton, UK: WIT Press, 2008. http://dx.doi.org/10.2495/risk080351.

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Marcianò, F. A., und A. Vitetta. „An individual risk model in the case of a road accident to support the decisional process in planning“. In RISK ANALYSIS 2010. Southampton, UK: WIT Press, 2010. http://dx.doi.org/10.2495/risk100411.

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Budhakooncharoen, S., und B. Dhabhisara. „Determination of the weighting factors of criteria influencing highway flooding using Multi Criteria Analysis based on an Analytic Hierarchy Process“. In RISK ANALYSIS 2014. Southampton, UK: WIT Press, 2014. http://dx.doi.org/10.2495/risk140381.

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Baumgartner, Benjamin. „Measures of risk for the classical risk process using saddlepoint approximation techniques“. In NUMERICAL ANALYSIS AND APPLIED MATHEMATICS ICNAAM 2012: International Conference of Numerical Analysis and Applied Mathematics. AIP, 2012. http://dx.doi.org/10.1063/1.4756574.

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Ghotb, Fatemeh, und Bruce A. Calway. „Risk Analysis of the End User Computing“. In The International Symposium on the Analytic Hierarchy Process. Creative Decisions Foundation, 1996. http://dx.doi.org/10.13033/isahp.y1996.062.

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Li Ma, Li. „Research on Risk Control Management Process in the Cloud Computing Environment“. In Fifth Symposium of Risk Analysis and Risk Management in Western China (WRARM 2017). Paris, France: Atlantis Press, 2017. http://dx.doi.org/10.2991/wrarm-17.2017.32.

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Rowe, William D. „Information Value Analysis Process (IVAP)“. In Ninth United Engineering Foundation Conference on Risk-Based Decisionmaking in Water Resources. Reston, VA: American Society of Civil Engineers, 2001. http://dx.doi.org/10.1061/40577(306)18.

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Bhujang, Raghavi K., und V. Suma. „Analysis of risk in software process models“. In 2017 International Conference on Intelligent Sustainable Systems (ICISS). IEEE, 2017. http://dx.doi.org/10.1109/iss1.2017.8389397.

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Wang, Hong-hai, und Xian-sheng Qin. „Risk analysis on fabrication process of IRFPA“. In International Symposium on Photoelectronic Detection and Imaging 2011. SPIE, 2011. http://dx.doi.org/10.1117/12.900707.

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Alizadeh, Mahdi, und Nicola Zannone. „Risk-based Analysis of Business Process Executions“. In CODASPY'16: Sixth ACM Conference on Data and Application Security and Privacy. New York, NY, USA: ACM, 2016. http://dx.doi.org/10.1145/2857705.2857742.

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Berichte der Organisationen zum Thema "Process risk analysis"

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Ashe, Katherine. PER - Risk Issues Assessments Process Improvements - Causal Analysis Final Report. Office of Scientific and Technical Information (OSTI), Mai 2019. http://dx.doi.org/10.2172/1762357.

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Nelson, Gena. A Systematic Review of the Quality of Reporting in Mathematics Meta-Analyses for Students with or at Risk of Disabilities Coding Protocol. Boise State University, Juli 2021. http://dx.doi.org/10.18122/sped138.boisestate.

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The purpose of this document is to provide readers with the coding protocol that authors used to code 22 meta-analyses focused on mathematics interventions for students with or at-risk of disabilities. The purpose of the systematic review was to evaluate reporting quality in meta-analyses focused on mathematics interventions for students with or at risk of disabilities. To identify meta-analyses for inclusion, we considered peer-reviewed literature published between 2000 and 2020; we searched five education-focused electronic databases, scanned the table of contents of six special education journals, reviewed the curriculum vitae of researchers who frequently publish meta-analyses in mathematics and special education, and scanned the reference lists of meta-analyses that met inclusion criteria. To be included in this systematic review, meta-analyses must have reported on the effectiveness of mathematics-focused interventions, provided a summary effect for a mathematics outcome variable, and included school-aged participants with or at risk of having a disability. We identified 22 meta-analyses for inclusion. We coded each meta-analysis for 53 quality indicators (QIs) across eight categories based on recommendations from Talbott et al. (2018). Overall, the meta-analyses met 61% of QIs and results indicated that meta-analyses most frequently met QIs related to providing a clear purpose (95%) and data analysis plan (77%), whereas meta-analyses typically met fewer QIs related to describing participants (39%) and explaining the abstract screening process (48%). We discuss the variation in QI scores within and across the quality categories and provide recommendations for future researchers so that reporting in meta-analyses may be enhanced. Limitations of the current study are that grey literature was not considered for inclusion and that only meta-analyses were included; this limits the generalizability of the results to other research syntheses (e.g., narrative reviews, systematic reviews) and publication types (e.g., dissertations).
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Crispin, Darla. Artistic Research as a Process of Unfolding. Norges Musikkhøgskole, August 2018. http://dx.doi.org/10.22501/nmh-ar.503395.

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As artistic research work in various disciplines and national contexts continues to develop, the diversity of approaches to the field becomes ever more apparent. This is to be welcomed, because it keeps alive ideas of plurality and complexity at a particular time in history when the gross oversimplifications and obfuscations of political discourses are compromising the nature of language itself, leading to what several commentators have already called ‘a post-truth’ world. In this brutal environment where ‘information’ is uncoupled from reality and validated only by how loudly and often it is voiced, the artist researcher has a responsibility that goes beyond the confines of our discipline to articulate the truth-content of his or her artistic practice. To do this, they must embrace daring and risk-taking, finding ways of communicating that flow against the current norms. In artistic research, the empathic communication of information and experience – and not merely the ‘verbally empathic’ – is a sign of research transferability, a marker for research content. But this, in some circles, is still a heretical point of view. Research, in its more traditional manifestations mistrusts empathy and individually-incarnated human experience; the researcher, although a sentient being in the world, is expected to behave dispassionately in their professional discourse, and with a distrust for insights that come primarily from instinct. For the construction of empathic systems in which to study and research, our structures still need to change. So, we need to work toward a new world (one that is still not our idea), a world that is symptomatic of what we might like artistic research to be. Risk is one of the elements that helps us to make the conceptual twist that turns subjective, reflexive experience into transpersonal, empathic communication and/or scientifically-viable modes of exchange. It gives us something to work with in engaging with debates because it means that something is at stake. To propose a space where such risks may be taken, I shall revisit Gillian Rose’s metaphor of ‘the fold’ that I analysed in the first Symposium presented by the Arne Nordheim Centre for Artistic Research (NordART) at the Norwegian Academy of Music in November 2015. I shall deepen the exploration of the process of ‘unfolding’, elaborating on my belief in its appropriateness for artistic research work; I shall further suggest that Rose’s metaphor provides a way to bridge some of the gaps of understanding that have already developed between those undertaking artistic research and those working in the more established music disciplines.
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Mazari, Mehran, Siavash F. Aval, Siddharth M. Satani, David Corona und Joshua Garrido. Developing Guidelines for Assessing the Effectiveness of Intelligent Compaction Technology. Mineta Transportation Institute, Januar 2021. http://dx.doi.org/10.31979/mti.2021.1923.

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Many factors affect pavement compaction quality, which can vary. Such variability may result in an additional number of passes required, extended working hours, higher energy consumption, and negative environmental impacts. The use of Intelligent Compaction (IC) technology during construction can improve the quality and longevity of pavement structures while reducing risk for contractors and project owners alike. This study develops guidelines for the implementation of IC in the compaction of pavement layers as well as performing a preliminary life-cycle cost analysis (LCCA) of IC technology compared to the conventional compaction approach. The environmental impacts of the improved construction process were quantified based on limited data available from the case studies. The LCCA performed in this study consisted of different scenarios in which the number of operating hours was evaluated to estimate the cost efficiency of the intelligent compaction technique during construction. The analyses showed a reduction in energy consumption and the production of greenhouse gas (GHG) emissions with the use of intelligent compaction. The LCCA showed that the use of IC technology may reduce the construction and maintenance costs in addition to enhancing the quality control and quality assurance (QC/QA) process. However, a more comprehensive analysis is required to fully quantify the benefits and establish more accurate performance indicators. A draft version of the preliminary guidelines for implementation of IC technology and long-term monitoring of the performance of pavement layers compacted thereby is also included in this report.
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Price, Roz. Overview of Political Economy Analysis Frameworks in the Area of Climate Governance and Key Issues to Consider. Institute of Development Studies (IDS), Juni 2021. http://dx.doi.org/10.19088/k4d.2021.088.

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Despite global recognition of the urgency of climate action and the need to transition to a low-carbon economy, greenhouse gas emissions continue to rise, and adaptation needs remain urgent. For a number of years, there have been calls for greater attention to political economy in tackling climate change and development outcomes. The political economy analysis is important as it can be used to assess the factors that may enable or constrain the implementation of climate change policies and actions and sustain political commitment. A framework can guide the process of political economy analysis, identifying relevant stakeholders, their incentives and motives, and other structural factors. This rapid review summarises several such frameworks specifically aimed at climate governance issues developed in recent years, some of these also include useful guidance and steps on the implementation of the framework. The review focuses strictly on the literature around political economy analyses in relation to climate change. It does not explore the history of and rationale for political economy analysis in development in general, nor the accompanying frameworks or operational How-To guides. Another K4D helpdesk by Lucas (2019) looking at what factors affect the political will of African governments to address climate change highlights a number of political economy frameworks that may also be useful to draw on.
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Solaun, Kepa, Chiquita Resomardono, Katharina Hess, Helena Antich, Gerard Alleng und Adrián Flores. State of the Climate Report: Suriname: Summary for Policy Makers. Inter-American Development Bank, Juli 2021. http://dx.doi.org/10.18235/0003415.

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Several factors contribute to Surinames particular vulnerability to the effects of climate change. It is dependent on fossil fuels, has forests liable to decay, fragile ecosystems, and its low-lying coastal area accounts for 87% of the population and most of the countrys economic activity. Many sectors are at risk of suffering losses and damage caused by gradual changes and extreme events related to climate change. For Suriname to develop sustainably, it should incorporate climate change and its effects into its decision-making process based on scientific- evidence. The State of the Climate Report analyzes Surinames historical climate (1990-2014) and provides climate projections for three time horizons (2020-2044, 2045-2069, 2070-2094) through two emissions scenarios (intermediate/ SSP2-4.5 and severe/ SSP5-8.5). The analysis focuses on changes in sea level, temperature, precipitation, relative humidity, and winds for the seven subnational locations of Paramaribo, Albina, Bigi Pan MUMA, Brokopondo, Kwamalasamutu, Tafelberg Natural Reserve, and Upper Tapanahony. The Report also analyzes climate risk for the countrys ten districts by examining the factors which increase their exposure and vulnerability on the four most important sectors affected by climate change: infrastructure, agriculture, water, and forestry, as well as examining the effects across the sectors. The State of the Climate provides essential inputs for Suriname to develop and update its climate change policies and targets. These policies and targets should serve as enablers for an adequate mainstreaming of climate change adaptation and resilience enhancement into day-to-day government operations.
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Lempert, Robert J., Michelle Miro und Diogo Prosdocimi. A DMDU Guidebook for Transportation Planning Under a Changing Climate. Herausgegeben von Benoit Lefevre und Ernesto Monter Flores. Inter-American Development Bank, Februar 2021. http://dx.doi.org/10.18235/0003042.

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The effects of climate-related natural hazards pose a significant threat to sustainable development in Latin America and the Caribbean (LAC) region and in particular its transportation sector. Risk Management provides an appropriate framework for assessing and mitigating the impacts of climate change and other climate-related natural hazards on transportation systems and choosing actions to enhance their resilience. However, analysts and policymakers involved in transportation planning, policy, and investment face significant challenges in managing the risks triggered by the effects of climate change. Climate change impacts the lifespan of roads, airports, and railroads as they have time horizons that surpass 40 years, thus making it harder (if not impossible) to forecast with confidence all relevant future events that will affect such infrastructure. In addition, the climate has already changed, so the return frequency of storms, for example, and other extreme events may now be different than suggested by the historical record in ways that are not always currently well understood. Implementing Risk Management under conditions of such uncertainty can prove difficult. Decision Making Under Deep Uncertainty (DMDU) enables Risk Management under conditions of Deep Uncertainty, that is when risks cannot confidently be quantified. This guidebook is aligned with the Disaster and Climate Change Risk Assessment Methodology for IDB projects (IDB 2018) and introduces and provides guidance on applying methods for Decision Making Under Deep Uncertainty (DMDU) to transportation planning. It presents the methodological steps that are necessary for the implementation of DMDU methodologies and reviews several such methods, including scenario planning, Adaptive Pathways, and robust decision making (RDM). This review is geared towards supporting the incorporation of DMDU methods into IDBs transportation sector funding and planning processes.
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Solaun, Kepa, Gerard Alleng, Adrián Flores, Chiquita Resomardono, Katharina Hess und Helena Antich. State of the Climate Report: Suriname. Inter-American Development Bank, Juli 2021. http://dx.doi.org/10.18235/0003398.

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Suriname is highly vulnerable to the effects of climate change. Among the factors that exacerbate its vulnerability are its dependency on fossil fuels, the degradation of important ecosystems (e.g., mangroves), and the fact that 87% of the population, and most of the countrys economic activity is located within the low-lying coastal area. Many sectors are at risk of suffering losses and damage caused by gradual changes and extreme events related to climate change. For Suriname to develop sustainably, it should incorporate climate change and its effects into its decision-making process based on scientific- evidence. The State of the Climate Report analyzes Surinames historical climate (1990-2014) and provides climate projections for three time horizons (2020-2044, 2045-2069, 2070-2094) through two emissions scenarios (intermediate/ SSP2-4.5 and severe/ SSP5-8.5). The analysis focuses on changes in sea level, temperature, precipitation, relative humidity, and winds for the seven subnational locations of Paramaribo, Albina, Bigi Pan MUMA, Brokopondo, Kwamalasamutu, Tafelberg Natural Reserve, and Upper Tapanahony. The Report also analyzes climate risk for the countrys ten districts by examining the factors which increase their exposure and vulnerability on the four most important sectors affected by climate change: infrastructure, agriculture, water, and forestry, as well as examining the effects across the sectors. The State of the Climate Report provides essential inputs for Suriname to develop and update its climate change policies and targets. These policies and targets should enable an adequate mainstreaming of climate change adaptation and resilience enhancementinto day-to-day government operations. It is expected that the Report will catalyze similar efforts in the future to improve decision-making by providing science-based evidence.
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Winkler-Portmann, Simon. Umsetzung einer wirksamen Compliance in globalen Lieferketten am Beispiel der Anforderungen aus der europäischen Chemikalien-Regulierung an die Automobilindustrie. Sonderforschungsgruppe Institutionenanalyse, August 2020. http://dx.doi.org/10.46850/sofia.9783941627796.

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This publication based on a master thesis explores the challenges of the automotive industry regarding the European chemical regulations REACH and CLP, as well as potential improvements of the current compliance activities and the related incentives and barriers. It answers the research question: "To what extent should the compliance activities of actors in the automotive supply chain be extended in order to meet the requirements of European chemicals regulation; and where would it help to strengthen incentives in enforcement and the legal framework?“. The study’s structure is based on the transdisciplinary delta analysis of the Society for Institutional Analysis at the Darmstadt University of Applied Sciences. It compares the target state of the legal requirements and the requirements for corresponding compliance with the actual state of the actual compliance measures of the automotive players and attempts to identify their weak points (the delta). The main sources for the analysis are the legal texts and relevant court decisions as well as guideline-based expert interviews with automotive players based on Gläser & Laudel. As objects of the analysis, there are in addition answers to random enquiries according to Article 33 (2) REACH as well as the recommendations and guidelines of the industry associations. The analysis identifies the transmission of material information in the supply chain as a key problem. The global database system used for this purpose, the IMDS, shows gaps in the framework conditions. This results in compliance risk due to the dynamically developing regulation. In addition, the study identifies an incompliance of the investigated automobile manufacturers with regard to Art. 33 REACH. In answering the research question, the study recommends solutions to the automotive players that extend the current compliance activities. In addition, it offers tables and process flow diagrams, which structure the duties and required compliance measures and may serve as basic audit criteria. The analysis is carried out from an external perspective and looks at the entire industry. It therefore cannot cover all the individual peculiarities of each automotive player. As a result, the identified gaps serve only as indications for possible further compliance risks.
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Bruce, Judith, und Shelley Clark. Including married adolescents in adolescent reproductive health and HIV/AIDS policy. Population Council, 2004. http://dx.doi.org/10.31899/pgy22.1002.

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The majority of sexually active girls aged 15–19 in developing countries are married, and married adolescent girls tend to have higher rates of HIV infection than their sexually active, unmarried peers. Married adolescent girls represent a sizable fraction of adolescents at risk and experience some of the highest rates of HIV prevalence of any group. Nonetheless, married adolescents have been marginal in adolescent HIV/AIDS policies and programs and have not been the central subjects for programs aimed at adult married women. This paper offers a partial explanation for why married adolescents have so often been overlooked, the reasons why marriage might bring elevated risk of HIV, initial analytic tools to assist policymakers in determining how to accord appropriate levels of priority to the marriage process, five brief case studies, and a menu of potential policy interventions and actions to make married adolescents an integral part of reproductive health and HIV-prevention initiatives.
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