2,030 research outputs found

    Risk analysis of High-Temperature Aquifer Thermal Energy Storage (HT-ATES)

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    The storage of heat in aquifers, also referred to as Aquifer Thermal Energy Storage (ATES), bears a high potential to bridge the seasonal gap between periods of highest thermal energy demand and supply. With storage temperatures higher than 50 °C, High-Temperature (HT) ATES is capable to facilitate the integration of (non-)renewable heat sources into complex energy systems. While the complexity of ATES technology is positively correlated to the required storage temperature, HT-ATES faces multidisciplinary challenges and risks impeding a rapid market uptake worldwide. Therefore, the aim of this study is to provide an overview and analysis of these risks of HT-ATES to facilitate global technology adoption. Risk are identified considering experiences of past HT-ATES projects and analyzed by ATES and geothermal energy experts. An online survey among 38 international experts revealed that technical risks are expected to be less critical than legal, social and organizational risks. This is confirmed by the lessons learned from past HT-ATES projects, where high heat recovery values were achieved, and technical feasibility was demonstrated. Although HT-ATES is less flexible than competing technologies such as pits or buffer tanks, the main problems encountered are attributed to a loss of the heat source and fluctuating or decreasing heating demands. Considering that a HT-ATES system has a lifetime of more than 30 years, it is crucial to develop energy concepts which take into account the conditions both for heat sources and heat sinks. Finally, a site-specific risk analysis for HT-ATES in the city of Hamburg revealed that some risks strongly depend on local boundary conditions. A project-specific risk management is therefore indispensable and should be addressed in future research and project developments.Accepted Author ManuscriptWater Resource

    Improving identification of HT-ATES performance drivers and -barriers

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    High temperature aquifer thermal energy storage (HT-ATES) can potentially solve the mismatch between heat supply and demand. It can provide a large scale seasonal heat storage solution. Thereby it enables an increase in full load hours of the base heat source, which can benefit project performance on both costs and emissions. However, the limited number of successful pilot projects indicates the technology has not escaped its state of infancy. There is a gap from concept to implementation, which is signified by the disagreement of experts on performance drivers and barriers of HT-ATES. This research aims to narrow the described knowledge gap, by improving identification of HT-ATES performance drivers and barriers. Thereby it strives to improve decision making of HT-ATES implementation, and further enhance future HT-ATES application in heating projects. The broad scope of research demands both a diagnostic and design-orientated approach, and fits seamlessly with a multi-criteria decision analysis. The analysis entails the stages of creating, evaluating, comparing and ranking of case-specific scenarios. Parametric variation changes the conditions for HT-ATES implementation across the scenarios. A simulation model is developed and connected to a groundwater model to apply the parametric variation, to create the different scenarios, and consequently to produce the quantitative information for further evaluation. During the stages of creating, evaluating, comparing and ranking, the methodology systematically produces new results on the opportunities and risks introduced by HT-ATES, and additionally on the HT-ATES performance drivers and barriers. The results show that HT-ATES enables the opportunity of improving project performance with respect to the internal rate of return and emissions. Groundwater impact remains the greatest risk, but it can be minimised with smart decision making. To support the decision maker and to overcome the risk of groundwater impact, the research proposes several performance-enhancing, non-explicit guidelines. The guidelines focus on realising an HT-ATES implementation, where project performance with respect to internal rate of return, emissions and groundwater impact are balanced. Thereby they explain the major HT-ATES performance drivers and barriers. The guidelines are summarised below. The decision maker is recommended to .. 1. .. minimise the uncertainty, through thorough subsurface characterization before implementation. Secondly, to focus on aquifers with a minimum depth of 200 [m] and a minimum hydraulic conductivity of 5 [m/d] 2. .. assure network return temperatures during peak demand are below expected storage temperatures 3. .. not consider project life-times exceeding 20 years 4. .. assure yearly maximum base source heat production is always lower than yearly consumer heat demand 5. .. to strive for a flat demand curve and apply peak-shaving, by means of, for example, variable heat prices Currently, the guidelines have the purpose of giving direction to the decision maker, but they will become more explicit once the methodology is improved, and the uncertainty and number of assumptions in the model is decreased.Electrical Engineering | Sustainable Energy Technolog

    Transforming Ates To Ht-Ates, Insights From Dutch Pilot Project

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    Aquifer Thermal Energy Storage (ATES) systems combined with a heat pump save energy for space heating and cooling of buildings. In most countries the temperature of the stored heat is allowed up to 25-30°C. However, when heat is available at higher temperatures (e.g. waste heat, solar heat), it is more efficient to store higher temperatures because that improves heat pump performance or makes it unnecessary. Therefore, interest in HT-ATES development is growing. Next to developing new HT-ATES projects, there is also a large potential for additional energy savings by transforming ‘regular’ low-temperature LT-ATES systems to a HT-ATES. Such a transformation is tested for a greenhouse system in the Netherlands. This greenhouse has a LT-ATES system operational since 2012, and from 2015 onwards heat is stored in the warm well at temperatures up to 45°C. In this HT-ATES transformation pilot, water quality parameters are closely monitored as well as temperature distribution in the subsurface (using DTS). Together with the operators, the results from the ATES monitoring are used to continuously improve system performance. Numerical groundwater and heat flow simulations of actual and expected well pumping data are used to evaluate how well operation can be optimized. In this paper, the optimization using monitoring results and simulations is discussed as well as general and site specific lessons/conclusions for such transformations.Water Resource

    "Put your own house in order first": local perceptions of EU influence on Romani integration policies in the Czech Republic

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    This article examines the influence of the European Union (EU) on the development and implementation of Romani integration policy in the Czech Republic from the perspective of those responsible for policy delivery. Based on analysis of key policy documents and research conducted in the Czech Republic, this article first examines how Romani integration became a more important issue during membership negotiations and then discusses how the criticism of the European Commission's Regular Reports was received by those responsible for implementing pro-Romani policies. Finally, the paper assesses how the status of full EU membership has impacted on integration policy. The article concludes that while funding for Romani integration projects has benefitted some groups, the overall impression of the EU is of a remote institution, quick to criticise and unwilling to practise what it preaches

    Hydrogen sulfide activates TRPA1 and releases 5-HT from epithelioid cells of the chicken thoracic aorta

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    Epithelioid cells in the chicken thoracic aorta are chemoreceptor cells that release 5-HT in response to hypoxia. It is likely that these cells play a role in chemoreception similar to that of glomus cells in the carotid bodies of mammals. Recently, H2S was reported to be a key mediator of carotid glomus cell responses to hypoxia. The aim of the present study was to reveal the mechanism of action of H2S on 5-HT outflow from chemoreceptor cells in the chicken thoracic aorta. The 5-HT outflow induced by NaHS, an H2S donor, and Na2S3, a polysulfide, was measured by using a HPLC equipped with an electrochemical detector. NaHS (0.3-3 mM) caused a concentration-dependent increase in 5-HT outflow, which was significantly inhibited by the removal of extracellular Ca2+. outflow induced by NaHS (0.3 mM) was also significantly inhibited by voltage-dependent L- and N-type Ca2+ channel blockers and a selective TRPA1 channel blocker. Cinnamaldehyde, a TRPA1 agonist, mimicked the secretory response to H2S. 5-HT outflow induced by Na2S3 (10 M) was also inhibited by the TRPA1 channel blocker. Furthermore, the expression of TRPA1 was localized to 5-HT-containing chemoreceptor cells in the aortic wall. These findings suggest that the activation of TRPA1 and voltage-dependent Ca2+ channels is involved in H2S-evoked 5-HT release from chemoreceptor cells in the chicken aorta. (C) 2016 Elsevier Inc. All rights reserved

    High-Temperature Aquifer Thermal Energy Storage (HT-ATES) system for research development and demonstration on the TU Delft campus

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    At present, over half of all primary energy used in Europe is used for heating and cooling. Therefore, decarbonizing the heating supply is essential to achieve climate targets. Underground thermal energy storage is a key enabling technology for the energy transition to buffer the large seasonal mismatch between thermal energy demand and sustainable thermal energy production capabilities. In Delft, a High-Temperature Aquifer Thermal Energy Storage (HT-ATES) system will be installed at the campus of Delft University of Technology (TU Delft). It will be integrated in the wider heating system on and around the TU Delft campus, which itself is undergoing a transformation to optimally supply sustainable thermal energy. The district heating network will be extended and utilize the thermal energy from a geothermal doublet producing heat at around 75-80°C with a flow rate of ~350m3/hr. Excess energy produced by the geothermal well in summer will be stored in the HT-ATES system, and will be utilised when demand exceeds production throughout the winter. The HT-ATES system will comprise of 7 wells (3 hot wells of 80°C and 4 warm wells of 50°C) to a depth of approximately 200m, with storage in an unconsolidated sedimentary aquifer between 160-200m depth. It is designed so that the instantaneous excess power from the geothermal project can be stored and demand from the district heating network be extracted from the system.The HT-ATES system at TU Delft is partially funded by local stakeholders and the European commission within the PUSH-IT project and has two primary goals: (i) to reduce carbon emissions on TU Delft campus , and (ii) to create a unique demonstration, education and research infrastructure. The complexity of a HT-ATES requires innovative solutions during the entire system life cycle. The scientific programme that is initially planned within the project is therefore focusing on various research fields and includes:- Characterisation of the subsurface formations including mechanical, hydraulic, thermal, and chemical properties.- Evaluation and monitoring of the biological conditions and microbial diversity, and potential impact on water quality.- Innovations in drilling and completion, monitoring and performance.- Quantification of the system performance and system impact during multiple storage cycles and the full lifecycle of the HT-ATES. This will include extensively monitoring temperature distribution and water quality in the subsurface to characterise behaviour and improve models.- Demonstrate and develop the implementation of HT-ATES in an urban setting, including control of the system in the built-environment and transforming the conventional heat network to a future-proof heat network.- To allow access to other universities or institutions with active programmes in the field of Geothermal Science and Engineering to jointly carry out research and perform experiments.-Societal engagement and legal evaluation for improving the just energy transition.Geo-engineeringWater Resource

    Konsep Desain Ekologis Alun-Alun Kota Malang Sebagai Habitat Burung

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    Alun-Alun Kota Malang menjadi contoh kawasan terbuka hijau yang meningkatkan nilai ekologi suatu kota. Lingkungan sekitar mungkin menjadi bagian darinya. Kehadiran burung dapat meningkatkan fungsi ekosistem perkotaan. Memperkuat pentingnya ruang terbuka sebagai habitat burung sangat penting untuk menciptakan keseimbangan ekologi di kawasan perkotaan. Penelitian ini berupaya menciptakan ruang terbuka hijau yang berfungsi sebagai habitat burung. Salah satu cara untuk melindungi burung adalah dengan menyediakan area birding di tempat terbuka seperti alun-alun. Pendekatan deskriptif digunakan melalui survei lapangan dan penelitian literatur. Konsep utamanya adalah menciptakan sebuah alun-alun yang seperti taman burung, dapat mendukung interaksi manusia-burung baik secara langsung maupun tidak langsung dengan tetap menjaga fungsi alami alun-alun tersebut. Konsep desain dengan bentuk plastik yang mudah dibentuk dan estetika art deco yang semarak. Efek dinamis ini akan digunakan pada pola sirkulasi persegi dan tidak menentu agar terlihat lebih natural. Bentuk persegi mengurangi kekerasan lingkungan sekitar, hal ini berguna karena sebagian besar terletak di pusat kawasan perkotaan yang sibuk. Pengunjung dapat melihat burung di kanopi pohon dengan menggunakan teropong di dek observasi dan rel kanopi pohon. Total terdapat 152 pohon dari 14 jenis vegetasi pohon yang berbeda di Alun-Alun Kota Malang, dengan pohon beringin merupakan mayoritas (47 pohon) dan tiga jenis vegetasi pohon yang menghasilkan makanan secara alami: pohon carryin, pohon kayu manis, dan palem sadeng. Jenis burung yang ada di areal persegi berjumlah 1443. Berdasarkan empat petak yang menyusun situs tersebut, dilakukan pengamatan. Satu plot setiap hari menerima tiga kali pengamatan pada pagi, siang, dan sore hari. Pengamatan ini menggunakan kamera yang dipasang pada monokuler untuk menangkap gambar sebagai dokumentasi selama tiga minggu. Saran yang diberikan antara lain menjadikan alun-alun menjadi kolam renang tempat masyarakat bisa minum dan mandi, membangun jembatan di atas sungai buatan, merancang bangku atau bangku taman untuk tamu, membangun sarang merpati mengikuti aliran sungai buatan, mengelilingi alun-alun dengan sungai buatan untuk memudahkan satwa liar minum dan mandi, membangun gazebo di samping sungai buatan sebagai tempat berkumpulnya tamu, membangun taman bermain untuk anak-anak bermain dan memanfaatkanYayasan Bina Patria Nusantar

    Evaluasi Persepsi dan Preferensi Pengunjung Taman Singha Merjosari Di Masa New Normal Pandemi Covid-19 Di Kota Malang - Jawa Timur

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    Penetapan peraturan kesehatan untuk menghentikan penyebaran Covid 19 adalah bagian dari era normal baru, yang melibatkan perubahan perilaku untuk menjalankan tugas sehari-hari. Pemerintah Indonesia memberikan anjuran kepada masyarakat agar menjalankan protokol kesehatan untuk menghentikan penyebaran Covid 19 secara efektif dan efisien di era normal baru. Kota Malang di JATIM ialah kota yang kini memiliki tingkat perkembangan Covid 19, artinya warga dapat kembali beraktivitas seperti biasa. Namun di beberapa tempat masih memakai masker, dan mencuci tangan yaitu tempat umum seperti Bank, Mall, dan taman publik atau taman lingkungan untuk mengikuti peraturan penerapan protokol kesehatan. Taman lingkungan berfungsi untuk "paru-paru" kota (untuk penerangan dan sirkulasi udara), serta untuk mengurangi kebisingan, meningkatkan keindahan estetika, mendorong interaksi sosial, memberikan kesempatan rekreasi, dan memperbaiki lingkungan. Salah satu tempat rekreasi yaitu, Taman Merjosari yang terdapat di kota Malang. Taman Merjosari merupakan taman lingkungan di Malang, sebuah kota dengan fitur lanskap perkotaan, ruang hijau, tempat rekreasi publik, dan lapangan olahraga yang terletak di Jalan Mertojoyo Selatan, Kel Merjosari, Kec Lowokwaru. Permasalahan yang ada di Taman Merjosari yaitu kurangnya fasilitas yang mendukung protokol kesehatan di era new normal seperti tidak ada tempat cuci tangan, tidak ada larangan bagi pengunjung yang tidak menggunakan masker. Namun, saran atau aturan pemerintah diperlukan untuk memastikan bahwa individu terus terlibat dalam aktivitas sambil mengikuti tindakan pencegahan kesehatan seperti mencuci tangan dan mengenakan masker. Berdasarkan masalah tersebut perlu mengevaluasi persepsi dan preferensi pengunjung di Taman Merjosari pada era new normal Pandemi Covid-19. Dengan adanya hal tersebut, maka penelitian ini untuk mengevaluasi persepsi dan preferensi pengunjung pada Taman Singha Merjosari di era new normal pandemi Covid.19 dengan menggunakan metode skala likert. Hasil skala likert diketahui bahwa persepsi pengunjung cukup baik dengan persentase rata-rata (62%), dan preferensi pengunjung cukup baik dengan persentase rata-rata (57%). Berdasarkan hasil penelitian tersebut maka peneliti merekomendasikan beberapa fasilitas berdasarkan persepsi dan preferensi pengunjung untuk meningkatkan kualitas sistem pelayanan pada taman singha merjosari.Yayasan Bina Patria Nusantar

    South Asians in the United Kingdom and specialist services

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    Chapter one is a literature review of the psychosocial factors which influence alcohol use in British South Asian men. Critical analysis of fourteen research articles revealed differences between first and second-generation South Asian men. The influence of religion, parental beliefs and acculturation were reported within the literature to affect alcohol use. The literature highlighted the issue of stigma and lack of awareness of services as barriers for treatment seeking. Additionally, the effect of religious and cultural beliefs of alcohol use may also discourage support from services. Chapter two investigated the experiences of British South Asian women who accessed psychological treatment within a cancer service using in-depth semistructured interviews. Key informants participated in focus groups to gain experiences of staff who had worked with South Asian communities. Using Interpretative Phenomenological Analysis, the findings elicited themes which illustrated that the South Asian women held pre-existing beliefs about psychological services. They also described their psychological journey of cancer treatment and the impact on their family, friends and differences between generations was reported. Analysis of the key informants' focus group data highlighted the theme of challenges faced by the South Asian patients and the staff. This article provided evidence for better education and awareness for South Asian communities and staff. Chapter three is a reflective article on the process of conducting the empirical research. The article addressed the reasons that influenced the researcher to conduct the study. Issues that had arisen were of the effect of 'sameness and difference' between the researcher and participants and the impact of qualitative research methodology and empowerment. A reflection of the impact from the interview accounts was also discussed

    Business case and sensitivity analysis for the commercial use of HT-ATES systems

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    Projections show that urban areas are growing at an increasing rate and produce 60% of the global greenhouse gas emissions (United Nations, n.d.). In Europe, the thermal energy sector consumes about half of the energy resources, of which 85% is produced by fossil fuel-based energy systems (Drijver, Bakema, & Oerlemans, 2019). As a result of this, district heating companies have set climate targets tolower the harmful emissions produced by the thermal energy sector. This can only be done by replacing fossil fuel-based energy systems by sustainable energy systems. One of the promising sustainable energy systems is the high temperature aquifer thermal energy storage (HT-ATES) system. HT-ATESis a buffer system used to store waste heat from industrial processes in a suitable aquifer and transfers this heat to buildings to heat them up in the winter and cool them down in the summer. However, this system is very complex in use and carries many risks. Due to the HT-ATES being a buffer system, complex in use and carrying many risks there are not many running projects incorporating this system. This makes the revenue model and possible exploitation for commercial use very unclear. Therefor, the goal of this thesis is to develop a business case for the commercial use of HT-ATES systems and to assess the business case sensitivity to the thermal energy demand. The research goal will be achievedby performing a literature study. Assessing the business case viability against other geothermal energy systems will not be in the scope of this thesis. This thesis is merely meant to gain insight on the business case of HT-ATES systems.The findings of the research show that a project is solely profitable when the benefit outweighs the cost. The total business expenditure of a 30-year lifecycle HT-ATES project with 3,000 households will be fixed upfront expense of EUR 1,236,991 and an additional yearly expense of EUR 695,795. The benefit of the project is strongly dependent on the thermal energy demand. The revenue model of this project consists of a heating price model and government provided subsidy. This business model assumes a heat price of EUR 3.89 per kWh and a subsidy of EUR 2.73 per kWh thermal energy produced. Assuming the annual thermal energy demand is 12.66 kWh per household, the 30-year HTATES project with a district heating network of 3,000 households will have a payback time of 8.4 years. This means that the project will be profitable after 8.4 years. A sensitivity analysis on the thermal energy demand proved that a HT-ATES will be more profitable if the thermal energy demand is higher. This sensitivity analysis also shows that the project will need to have a minimum of 1,300 households in the network in order to be financially feasible, as the payback time of less households will not be within the project lifecycle. A district heating network with a 30-year lifecycle HT-ATES system will have a payback time of 22 year. When this same network where to incorporate 4,000 households the paybacktime will be reduced by a factor of 4.Geotechnical Engineerin
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