Ate mainly concentrates on domestic and cross-border acquisition finance, banking finance and project finance transactions and advises sponsors and banks and financial institutions in connection with development, construction and financing mainly in the infrastructure, transportation, oil and gas, power and renewal energy sectors. He has extensive experience in navigating the clients through the complex financial restructurings where he advises both debtors and lenders and also participates in drafting the respective regulatory framework under the Turkish Restructuring Programme. He has also been involved in health sector PPP and privatization projects.
'Ate Turnaolu is one of the most experienced lawyers in the Turkish market and this helps to speed up the transaction reaching financial closing. He is very knowledgeable of applicable laws and regulations, follows legal updates and informs his clients how such updates affect their interests.'
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Originally from Rufisque, Senegal, Diouf made his way to the States after being recruited to play for SIMA guilas, then of USL League Two. In 2019, he was signed to Orlando City B as the club entered USL League One, playing in 17 matches while scoring his first professional goal against South Georgia Tormenta.
Dr. Alicia Ates joined the keith + associates team in August 2021. She earned her Doctor of Dental Surgery degree in 2018 from the University of Texas School of Dentistry at Houston. Dr. Ates has a life long passion for community service which she is eager to explore in her new home, Mission, KS.
Dr. Alicia Ates joined the keith + associates team in August 2021. She earned her Doctor of Dental Surgery degree in 2018 from the University of Texas School of Dentistry at Houston. In 2014, prior to dental school, she graduated from Texas A&M with a Bachelor of Science in Biomedical Science.
keith + associates dentistry provides comprehensive dental care for families in Mission, KS. We offer preventative, restorative and cosmetic dentistry services with a gentle touch. Schedule an appointment, learn more about our office or view our dental services below.
Ours is the first study to identify risk factors exclusively for the development of ATEs in aUTC, since previous studies studied composite (VTE and ATE) end points [10,23] or could not evaluate several of the parameters that we were able to [1]. We identified pure non-TCC histology, solid tumor other than UTC and history of perioperative chemotherapy as independent adverse factors for the development of ATE. The first has also been identified as a risk factor for venous thromboembolism but the mechanism underlying this association is obscure [45]. The association of the risk for ATE with the history of another tumor seems intuitive, since cancer is associated with increased risk for ATEs [1,2,3,4]. Nevertheless, the clinical relevance of these two factors is limited by the rarity of these conditions. Furthermore, all but one patient with at least one of these factors experiencing ATE also belonged to the group who received perioperative chemotherapy, suggesting that the third factor may be more relevant. A substantial 20% of our patients underwent neoadjuvant or adjuvant chemotherapy or both, and, according to contemporary trends, it is likely that this percentage is higher in current practice [46]. Approximately 10% of these patients suffered an ATE, accounting for seven of the twelve ATEs in the whole series. These findings might support the notion that specific populations who could be candidates for prevention strategies can be identified within the various types of cancer. The reason for the association we found is not clear. Patients who underwent perioperative chemotherapy did not have higher incidence of known factors predisposing for CAD, PAD or ischemic stroke. Thus, exposure to previous chemotherapy remains the most plausible factor to explain the association we found. Perioperative chemotherapy was platinum-based chemotherapy for all our patients. This type of therapy is thrombogenic [23]. It could, therefore, be speculated that double exposure to chemotherapy might increase the likelihood for ATE development.
Under the United States Supreme Court decision of Brady v. Maryland, the State, upon request, must produce evidence that is favorable to the accused where it is material to guilt or punishment. 373 U.S. 83, 83 S. Ct. 1194, 10 L. Ed. 2d 215 (1963). This rule has been expanded to include evidence which impeaches the testimony of a witness where the reliability or credibility of that witness may be determinative of guilt or innocence. Giglio v. U.S., 405 U.S. 150, 92 S. Ct. 763, 31 L. Ed. 2d 104 (1972). Where a specific request is made for such information and the subject matter of such a request is material, or if a substantial basis for claiming materiality exists, it is reasonable to require the prosecutor to respond either by furnishing the information or by submitting the information to the trial judge. United States v. Agurs, 427 U.S. 97, 96 S. Ct. 2392, 49 L. Ed. 2d 346 (1976).
In regions with moderate climates such as central and northern Europe, Aquifer Thermal Energy Storage (ATES) is a suitable technique to supply buildings with large amounts of heating and cooling. ATES bridges the seasonal mismatch between the ambient temperature and the heating or cooling demand of a building. ATES is an open-loop, bidirectional system, which uses at least one groundwater well in the saturated zone to actively store excess heat in summer and cooling capacity, further named as cold, in winter. The stored thermal energy can be reused when required (Bloemendal et al. 2014; Dickinson et al. 2008; Hhnlein et al. 2010; Kangas and Lund 1994; Nordell et al. 2015; Sommer et al. 2015).
The reverse process is observed in wintertime by using warm groundwater stored from summer for heating purposes. The temperature level from the aquifer is increased by heat pumps to the required inlet temperature for space heating. The cooled water is reinjected back in the aquifer via the cold well. In an ideal case, a thermal balance is set up in the aquifer after some seasons (Andersson et al. 2013; Bayer et al. 2012; Bloemendal and Olsthoorn 2018; Bridger and Allen 2005, 2010). In some countries and states, a thermal balance is a legal requirement for the operation of ATES (Bloemendal et al. 2014; van Beek and Godschalk 2013).
The parameters used to determine the capital costs of the ATES system CATES are not site-specific, which means they have a strong variability. Some component costs, such as that for the heat exchanger are derived from literature (Seider 2006; Vanhoudt et al. 2011). Others, are used from comparable shallow geothermal projects or from service catalogues (GHJ 2017; GWE 2017; LANUV 2015). In this case, an accurate and deterministic calculation of the capital costs is not feasible. Thus, a Monte Carlo Simulation with 100,000 iterations quantifies the uncertainty of each parameter. The simulation and the sensitivity analysis are both carried out with the software @Risk (version 7.5) (Palisade 2019). For every parameter, a symmetric triangular distribution bounded by a minimum, mode and maximum value is used. The most likely value is the mode while towards the minimum and maximum values the probability decreases continuously. In the present simulation, the minimum and maximum values are the best (cheapest) and worst-case (most expensive) scenarios. In addition, a sensitivity analysis determines the components with the strongest influence on the capital costs. A sensitivity analysis delivers an insight into the structure of an investment and indicates the impacts of its uncertainties (Blohm et al. 1995). Table 4 summarises minimum, mode and maximum values for each component of the ATES system used for the Monte Carlo Simulation and the sensitivity analysis.
The expected average payback time of 2.7 years of the present study is less than the estimated average payback time of 7 years of the 16 ATES illustrated in Fig. 9. However, it is important to mention that the payback times in the literature are often discussed without mentioning the reference technology. Some of the ATES in Fig. 9 with payback times higher than 8 years are among the very first systems implemented during the 1980s and early 1990s (Utrecht, Klippan, Falun) or are related to research (Agassiz, New Jersey). Lack of experience and focus on scientific issues could lead to a less efficient operation, resulting in higher payback times. Figure 8 demonstrates that the hybrid ATES of the present study have shorter payback times than the ATES only for heating and cooling. Figure 9 clearly confirms this result and shows that hybrid ATES systems potentially have much lower payback times with an average of 5.6 years compared to the two Swedish ATES for heating or the ATES systems used exclusively for cooling. In addition, the maximum payback time of all of the hybrid ATES systems in Fig. 9 is 8.4 years (Brasschaat, Belgium), which strongly corresponds with the estimated maximum payback time of 8.7 years of the present study. The ATES for heating and cooling of the Klina hospital in Brasschaat, Belgium, has a capacity of 1.2 MW and is a rare example of an ATES which is comprehensively described in the literature (Desmedt and Hoes 2007; Hoes et al. 2006; Vanhoudt et al. 2011). Thus, this ATES is compared in more detail with the ATES of the present study (Table 10).
Figure 10 illustrates the CO2 emissions of the different supply technologies. The replacement of the reference technology with the ATES systems for heating and cooling results in an expected average CO2 emission savings of 262 t/year (36%). Considering the observation time of 30 years, 7854 t CO2 could potentially be saved. The defined CO2 savings of the present study are within the range of CO2 savings of ATES systems in the Netherlands, varying between 150 and 1500 t/year (Fleuchaus et al. 2018). However, much higher amounts of CO2 savings are feasible. The ATES system for the heating and cooling of the University of Technology in Eindhoven with a capacity of 20 MW achieves CO2 emissions savings of 13,000 t/year (Snijders and van Aarssen 2003; Worthington 2011). be457b7860
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