You can find more information under or send an email to master-application application and admission, haw master Admissions Office, stiftstrasse 69, 20099 Hamburg (Campus Berliner Tor). Master-application open office hours: ml, contents of the degree programme, prof. Ulmenliet 20, room.06, 21033 Hamburg, germany. (consulting hours only) master-res general questions about degree programme, stiftstrasse 69, 20099 Hamburg (Campus Berliner Tor). Studienberatung office hours: Mon - tue 11am - 1pm, Thur 2pm - 5pm. Telephone advisory service: Mon - tue 10am - 11am, Thur 1pm -.
Spatial planning to estimate the offshore wind energy
Curriculum vitae, statement of motivation, letter of recommendation from a university professor (optional). In case the final grade is worse than.5 (German Academic Grading System it might be compensated by a proof of exceptional professional work. Important note for applicants with 180 CPs (ects) for courses which require 210 CPs (ects) from the first degree: Applicants whose bachelor diploma consists of 180 credit points (ects) must acquire another 30 credit points during the first semester of their studies. The specific department decides which examinations and tuition must be completed. They will then be temporarily admitted and enrolled for one term in order to complete the missing 30 credit points. The degree programme admits students only for the winter semester (semester 2 in the academic year). Application period: 1st April - 15th July. Applications for all Master programmes are made online. The online process is only activated during the application vegetarianism period. It is not weaknesses possible to apply outside of the application periods.
The master's thesis is written in the third semester; in most cases in industry, with renewable energy related companies. Each semester is awarded a total of 30 credit points. For details see course programme. First degree as Bachelor (in related disciplines) qualifying for a professional career or a comparable course of studies of at least three years or a diploma of a university. Knowledge of English language proven by Abitur - or Fachhochschulzeugnis (s. Zulassungsordnung) resumes or accepted certificates: toefl-test (at least 87 points internet-based ielts (minimum Band.5) or cae, cpe, fce (minimum C) or certificates about good performance in foreign countries. Applicants holding a first academic degree (bachelor, diploma etc.) from non-eu-countries: Graduate record Examination (gre further information. German language certificate level A2 by acknowledged institutions like goethe-Institut.
In addition, mathematical and it skills are deepened and techniques for process simulation are implemented. Business and management skills are also trained. All course contents have an applied approach. In addition to lectures, working in projects and in labs is an essential aspect of the programme. Students can involve themselves in local and international cooperations the faculty of Life Sciences maintains in various ways. Programme organization: The first two semesters are made up of lectures in small groups, seminars and lab work. Students will book complete individual projects on different literature topics. Set research topics will be completed in the labs.
It is open to bachelors of environmental engineering, process engineering and engineers from similar fields,. Electrical engineering, mechanical engineering. Well-grounded knowledge in mathematics, physics, it, electrical engineering, thermodynamics, (environmental) process engineering and cad are required as entry criteria. Furthermore, candidates must show evident knowledge in specialised engineering subjects which are advantageous with respect of the master course programme. The master's programme comprises of advanced courses in technology and engineering of: bio energy systems, solar energy systems, wind energy systems. Downstream systems for energy transformation and distribution. The focus is on systems engineering.
Sustainable Energy for Wales: Tidal and, wind with
The use of hybrid Tidal wind Ammonia storage systems will not only ensure clean energy production for Wales and the west of England, but will also enable the reduction of CO2 while utilizing surplus renewable energy for production of a chemical that can produce high. A guest post by, agustin Valera-medina, cardiff University, sharing the conclusions of the unpublished Master of Science Thesis by david Warwick-Brown for his sustainable Energy environment, 2017. Hamburg University of Applied Sciences has strong roots in teaching and research in the field of renewable energy and energy efficiency. We cover various aspects of renewable energy system engineering from solar power to bio fuels, bio gas, wind turbines, fuels cells and smart grids etc. Many research projects on energy technology are related to the universitys Competence center for Renewable Energy and Energy Efficiency (CC4E) and our new Energy technology center.
Students will profit from state-of-the-art expertise. Furthermore, hamburg holds a cluster agency on renewable energy, hosts frequently international conferences and trade fairs on solar and wind power and is hub for the european wind power industry. The master programme renewable Energy systems Environmental and Process Engineering was established in 2009 and is well recognized by our industrial partners. Students usually do their master thesis in industry. Graduates are very likely to find good jobs in Germany which is the most powerful economy in Europe. The master programme renewable Energy systems is a postgraduate programme with supervisor stringent focus on system engineering (not science in general).
Hybrid tidal and wind energy systems will produce vast amounts of energy during off-peak hours that will require the use of energy storage technologies the size of each proposed tidal lagoon ranges close.5. Currently, companies involved in the development of these complexes are thinking of batteries, pumped hydro, and ammonia as the potential candidates to provide storage for these vast amounts of energy. Thus, a recent preliminary study conducted by cardiff University evaluated different sites where the concept of Tidal wind Ammonia storage could be developed while providing profitable scenarios. For the study, recent details of tidal power generation were considered in combination with standard wind power production conditions based on the current wind profiles of the coast of Wales. The energy produced during peak and day-light hours was then directed to the grid, while off-peak power generation was used to produce clean hydrogen; this was analysed using data from highly efficient, newly developed systems by siemens.
Ammonia was then produced via iron- or ruthenium-based catalytic synthesizers; this analysis was performed using data generated by current studies of Oxford University, in which a combined electrolysis-catalytic system was estimated to have 53 efficiency in the power-to-ammonia conversion. Finally, the ammonia produced would be sold at the current market price of 240 per tonne. David Warwick-Brown, Analysing Potential Wind-Tidal Lagoon Hybrid Systems for Energy generation and Green Ammonia production in Wales: Fig. 4.8, Gross Profit of using Tidal wind Ammonia storage hybrid e results showed that the regions of North Wales and West Wales generate losses or extremely small profits, while the regions of south Wales, specifically barry, mumbles and Newport, showed highly profitable scenarios that now. Further works will be conducted shortly to provide data that correlates to novel commercial ammonia production systems, evaluating the efficient production of ammonia in combination with data of current energy consumption patterns in the. This will enable the economic analysis of off-peak energy storage in Wales, and support a proposal that seeks to set the precedent required for local, european, and industrial funding support.
Mess: As Subsidies Expire
As part of the guaranteed sustainable agenda of the uk, the government, research institutions, and various enterprises have looked for options to reduce the carbon footprint of the country while ensuring energy independence for several years. One of the alternatives has been to introduce the use of marine energy via the implementation of a barrage in the severn Estuary or business the development and implementation of tidal lagoons located around the welsh coast. Tidal Lagoon turbine technology, the key elements of a conventional hydro double regulated bulb turbine. Source: Tidal Lagoon om these alternatives, the tidal lagoon concept seems to be most feasible, as the cost is much lower than a barrage, although the current construction costs are still considerably high when compared to conventional power plants. Thus, hybrid technologies have been proposed to increase the produced energy, incrementing the power generated with a subsequent reduction of the levelized cost of electricity. Wind energy, a well-demonstrated technology, has been considered to create hybrid systems capable of boosting the energy production of tidal lagoons with attractive economies of scale, because the foundations from the latter will serve as those of the former. This enables the production of off-shore wind energy, which is known to be greater than on-shore wind generation.
Next the baseler zeitung brings up the disposal of parks the massive 3000-tonne reinforced concrete turbine base, which according to german law must be removed. Some of these concrete bases reach depths of 20 meters and penetrate multiple ground layers, the baseler zeitung reports, adding: The complete removal of the concrete base can quickly run up to several hundreds of thousands of euros. Many wind park operators have not made the corresponding provisions for this expense. Already wind park operators are circumventing this huge expense by only removing the top two meters of the concrete and steel base, and then hiding the rest with a layer of soil, the baseler writes. In the end most of the concrete base will remain as garbage buried in the ground, and the above-ground turbine litter will likely get shipped to third world countries. Thats Germanys, energiewende and contribution to protecting the environment and climate! A guest post by Agustin Valera-medina, cardiff University, sharing the conclusions of the unpublished Master of Science Thesis by david Warwick-Brown for his sustainable Energy environment, 2017.
coming online only slowly, its entirely possible that wind energy output in Germany will recede in the coming years, thus making the country appear even less serious about climate protection. Wind turbine dump in Africa? So what happens to the old turbines that will get taken offline? Windpark owners hope to send their scrapped wind turbine clunkers to third world buyers, Africa for example. But if these buyers instead opt for new energy systems, then German wind park operators will be forced to dismantle and recycle them a costly endeavor, the baseler zeitung reports. Impossible to recycle composite materials, the problem here are the large blades, which are made of fiberglass composite materials and whose components cannot be separated from each other. . Burning the blades is extremely difficult, toxic and energy-intensive. So naturally theres a huge incentive for German wind park operators to dump the old contraptions onto third world countries, and to let them deal later with the garbage. Sweeping garbage under the rug.
Subsidies for old turbines run out. Today a large number of Germanys 29,000 total turbines nationwide are approaching 20 years old and for the most part they are outdated. Worse: the generous subsidies granted at the time of their installation are slated to expire soon and thus make them unprofitable. After 2020, thousands of these turbines will lose their subsidies with each passing year, which means they will be taken offline and mothballed. The baseler zeitung writes : In many cases the earnings will not be able to cover the continued operation costs of the turbines. After 20 years of operation, the turbines require more maintenance and some expensive repairs. The, baseler zeitung adds that some 5700 turbines with an installed capacity of 45 mw will see their subsidies run out by 2020.
Summary of Wind-Wildlife Interactions, american, wind
As older turbines see subsidies expire, thousands are expected to be taken offline due to lack of profitability. Green nightmare: Wind park operators eye shipping thousands of tons of wind turbine litter to third world countries and leaving their concrete rubbish in the ground. The Swiss national daily, baseler zeitung here recently reported how Germanys wind industry is facing a potential abandonment. Approvals tougher to get, this is yet another blow to germanys. Energiewende (transition to green energies). A few london days ago i reported here how the german solar industry had seen a monumental jobs-bloodbath and investments had been slashed to a tiny fraction of what they once had been. Over the years Germany has made approvals for new wind parks more difficult as the country reels from an unstable power grid and growing protests against the blighted landscapes and health hazards. Now that the wind energy boom has ended, the. Baseler zeitung reports that the shutdown of numerous wind turbines could soon lead to a drop in production after having seen years of ruddy growth.