The making of Offshore Wind Energy

Malta has a problem. It relies heavily on fossil fuels such as oil to meet its energy needs. Whenever oil prices increase, either the people or the government take the brunt of the cost. The country also faces a strict deadline: by 2020 it needs to supply 10% of its energy needs from renewable sources such as wind, solar, or wave. To help reach this goal, a new project at the University of Malta is custom-designing offshore wind turbines.

Malta’s territorial waters are quite extensive but deep. The Hurd Bank area is the most suitable site at a depth of 50 to 70 metres. These depths are beyond the reach of current commercially available technology and the latest  project in the windy, turbulent North Sea reaches 45 metres (The Beatrice
Project). Windmills_D1-D4_(Thornton_Bank)

To construct a wind turbine for the Maltese region, Thomas Gauci (as part of a team consisting of University academics and industrial partners) is designing a structure specific to Malta. Seventy-metre deep waters will increase costs. On the other hand, the Mediterranean is relatively calm compared to the North Sea, so the support structure keeping the wind turbine in place can be lighter, which shaves off tons of raw materials and reduces the final price.

An offshore wind turbine needs to resist waves, corrosion, and storms. The design process of an offshore support structure is essential to keep it in place and starts with determining exactly where the turbines will be embedded and how they will be supported. After these questions are answered, the turbines’ exact specifications need to be determined, such as material, height, width, and what forces it can resist over a number of years. Speed of blade rotation also needs to be checked to make sure it does not cause discomfort to nearby humans and animals. Mr Gauci’s concept design meets all of these needs in compliance with international and EU standards. At this stage, the design needs to
be costed, right down to the installation and maintainance of the turbines.

If Malta builds these offshore wind turbines it would easily meet the 10% baseline set by the EU. Undeniably, such a large project will face numerous challenges, but perhaps Mr Gauci said it best: “not a day goes by when I don’t learn something new.”

Read more HERE.

This research was performed as part of a Masters of Science from the Faculty of Engineering
and is supported by MCST (Malta Council for Science and Technology).

Government to the rescue

The economies of small states are vulnerable. Their size and open nature leaves them exposed to economic shocks. William Gatt (supervised by Dr Gordon Cordina) from the University of Malta and Central Bank of Malta modeled an economy to study the effects of government policies in limiting economic turmoil. The researcher used a Dynamic Stochastic General Equilibrium (DSGE) model of a small, open economy to simulate an economy similar to Malta. The model could study an economy over time, determine its reaction to random shocks, and the effect of changes in policy. Mr Gatt compared a government policy which directly shored up ‘at risk’ households to another policy with which government boosted economic activity by directly buying goods from the market. Direct transfers to households accelerated a faster economic recovery after drops in foreign demand.

Further studies showed that government intervention is more beneficial when more ‘at risk’ households exist. The downside to this policy is a requirement of a large economic surplus. Government would need to save when the economy is strong to buffer in times of distress. In this light, the role of government is as a saver, meaning that it should ensure precautionary savings adjusting policy targets for a budget surplus. Chart

This research was undertaken as part of a Master of Arts in Economics from the Faculty of Economics, Management and Accountancy. Opinions expressed are those of the author and not necessarily those of the Central Bank of Malta.

Online chatting and spelling ability: myth, speculation and reality

The Gutenberg printing press revolutionised the world in 1455. It brought the written word to the masses, though in its day critics thought it would corrupt language. Today, text and instant messages are the new technologies that critics are accusing of degrading writing. 

Research from Coventry University shows that online chatting can improve spelling, questioning the popular mythology spread by the media. Building on this foundation, Lara Vella (supervised by Professor Sandro Caruana) studied online chatting extracts by Maltese secondary school students. She found some evidence which shows that students who chatted online for several hours had a lower spelling ability.

To measure chatting behaviour, she distributed a questionnaire to 205 Maltese secondary school students (95 males and 110 females, who were about 14 years and 5 months old). These students were assessed on their spelling by two different tests and an analysis on extracts of online conversations. In Malta, it seems that chatting might be linked to a lower spelling score in both Maltese and English. Chatting and instant messaging is normally assumed to be dotted with spelling errors and abbreviated words, like: u, lol, abt, c, msg, tks, rofl and others. Her study showed that only 16.21% of the words used included such alternative spelling. Stereotypical beliefs did not hold true and were clearly outweighed by normal spelling.

Taken together, the study clearly shows that the relationship between spelling and online chatting is not clear-cut. Vella cautions that other factors affecting spelling need consideration. Speculation about the effect of online chatting needs to be replaced by research aimed at separating fact from fiction. Research will allow strategies to be developed that help improve literacy for Maltese students in the online world.

This research was performed as part of a Masters in Education at the Faculty of Education.

On Bulls and Bears

Hedge funds are pooled money that has few investment restrictions. The money usually comes from pension schemes or university endowments and their flexibility allows good hedge fund managers consistently net high returns. Hedge funds always beat the market, or so states economic theory. Simon Psaila (supervised by Mr Joseph Portelli) analysed markets from the 1990s up to the recent financial crisis finding a much more complicated scenario than is generally perceived.

The 1990s were a bull market, so called for having a consistently upward trend.bull-of-financial-market 2-4-8-14In this confident atmosphere, it was found that hedge fund managers did not outperform other market indices, such as the Standard & Poor 500 — an index of 500 stocks of companies in the USA. The same was evident for the bull market of the mid 2000s. Only when the markets dipped into a bear market (downward trend) in the early 2000s did hedge funds perform better than other strategies. The reverse occurred during the recent recession starting in 2007, which proved problematic for hedge funds and many investors pulled out of the industry.Taken as a whole, this analysis shows that hedge funds do not consistently perform better than other strategies and depend on the market environment.

This study was performed as part of a Bachelor of Commerce (Honours) at the Faculty of Economics, Management and Accountancy.

Banking sectors that bounce back

In 2007, the banking sector collapsed.  Today, several banks are still struggling to stand on their own two feet. To help shore them up against recurrent catastrophic collapse, the world’s top Group of Twenty economies has proposed a new set of regulations called the Basel III regulatory framework. Local analysis of this framework hints that while beneficial, it would not prevent another bust.

Governments needed to bail out banks in 2007 because banks could not pay back their loans. Banks must make sure that they maintain a ratio of capital (some form of money ranging from property to shares) to the amount of money they lend, called capital ratio. The minimum currently stands at 4% (Tier 1), meaning that banks only need to hold less than one in twenty of the money they are lending, which does not leave much of a ‘cushion’ if things go wrong. A bank’s liquidity can quickly dry up damaging other banks.

The Basel III framework introduces a new set of standards that amongst other things raises the minimum Tier 1 capital ratio to 6%.  Marica Bonavia (under the supervision of Mr Michel Said) assessed the impact of the new framework on the American and European banking systems. Her work reveals how the largest American banks already conform. On the other hand, the position of European banks ranges from German banks that are raising new capital, to Swiss and British regulators who want higher capital ratios.

The dissertation suggests that the real impact of Basel III still needs to be seen and although the new regulations are a big step forward, further efforts are needed.

This research was performed as part of a Bachelor of Commerce (Honours) from the Faculty of Economics, Management and
Accountancy. 

Cocaine leads to information overload

Cocaine can hijack the brain.

Once taken, recovery for a user is a long and difficult road, with life threatening risks and ruined social interactions hindering their ability to stop taking the drug. Research from the University of Malta has now revealed a possible explanation for cocaine relapse.Around the world, 21 million people take cocaine. Unfortunately, even one-time or occasional users can become addicts.  This makes recovery a lengthy lifelong process with numerous challenges.  Regardless of how tough a user is or how hard they try, relapsing after detoxification or rehabilitation always remains a sombre possibility.

To discover why cocaine addicts are prone to relapse, Roderick Spiteri (supervised by Prof. Richard Muscat) compared 19 cocaine users to 19 average individuals. Using methods developed in Bordeaux, both groups were tested on their ability to filter out useful information from a torrent of noise. For people to function they need to extract information by blocking irrelevant clatter. This prevents sensory and cognitive overload. When an individual attempts to deal with too much information it leads to errors and poor choices.

The research shows how cocaine users lose their ability to block irrelevant information that leads to cognitive overload. This is like a virus causing a computer system to crash, leaving only one choice: restart. Sadly, the same cannot be done for a cocaine addict. Cognitive overload leads to an inability to choose, usually leading to bad decisions. Integrating this new knowledge to psychological treatments like cognitive behavioural therapy might help addicts on the long road of recovery and social integration. If everyday situations are likely to overwhelm a cocaine user’s brain, they may need more frequent breaks between tasks in order to cope.

This research was performed as part of a Masters in Biomedical Science from the Faculty of Medicine & Surgery.

 

Better, cheaper smartphones

MICRo-electro-mechanical systems (MEMS) are about the width of a human hair. They can tell a smartphone which way is ‘up’, enable inkjet printers to eject ink precisely, and are even found in high definition displays. These chips have sensors that detect a physical quantity such as temperature or direction, which is then converted into an electrical signal. The signal can be passed on to a customised computer chip designed for a specific use, called an application-specific integrated circuit (ASIC). A MEMS device operating through an ASIC is called a microsystem, commonly found on handheld devices. Students at the University of Malta are currently researching ways to crucially improve these devices.

Over the past years, research into MEMS has developed sensors for temperature, pressure, inertial forces, chemical properties, magnetic fields, radiation, and more. These tiny microsensors outperformed their larger counterparts at a lower price. Recently, they were adapted for gas and liquid flow control, optical switches, and mirrors found in video projectors.

Locally, the Department of Microelectronics and Nanoelectronics is collaborating with STMicroelectronics, which is funding postgraduate studies in both MEMS and ASIC design. They are investigating accelerometers that, for example, enable a smartphone or a gaming console to know how the device is being held. The Department is using the latest manufacturing techniques to test its research innovations.

Accelerometers have two main functions: sensing direction using an MEMS chip, followed by processing the information using an ASIC. Both chips are placed on a single package. The research focuses on reducing power consumption and cost, which will enable smartphones to perform better at a lower price.

“Training in this field will hopefully entice industry to develop research and design teams focused on this rapidly expanding field,” says Dr Ivan Grech, senior lecturer at the Faculty of ICT. The development of microsystems is an attractive and exciting area of study, which provides new and innovative ways to use smart devices for everyday applications.

 

Research in this area was carried out by Ansel Briffa, Jean Marie Darmanin and Kristian Grixti, as part of their Master of Science in Microelectronics and Nanoelectronics at the Faculty of Information and Communication Technology. They were supervised by Dr Ing. Edward Gatt, Dr Ivan Grech, Dr Ing. Owen Casha and Prof. Ing. Joseph Micallef.