·         The amount awarded will be supplemented by institutional funds, through the Vice Presidency of Research, Development and Innovation. This will allow the Faculty of Chemistry and Biology to renovate and acquire new equipment for the important research work that they develop.

Universidad de Santiago was awarded 571 million 528 thousand Chilean pesos in the IV Scientific and Technology Equipment Fund (Fondequip) Grant Contest. Fondequip is a program led by the National Commission for Scientific and Technological Research (Conicyt).

The funds will benefit different research projects.

Dr Raúl Cordero, professor at the Department of Physics of Universidad de Santiago is leading the project “Characterization of Clouds in the Antarctic Peninsula and the Southern Ocean” that seeks to better understand the interrelation between clouds and polar climate.

“Through interactions with short wave and long wave radiation, clouds significantly impact the energy balance, contributing to warming (or cooling) the Earth surface. The clouds are the biggest source of uncertainty in global climate models and affect the forecast of future climate scenarios,” the researcher said.

Therefore, in a context of climate change, “a better understanding of the clouds over the Southern Ocean and the Antarctic Peninsula is urgent,” the researcher said.

Thanks to the funds awarded, Dr Cordero will be able to acquire a Micro Pulse LIDAR (MPL), a high- tech remote sensing laser system that provides constant and independent follow-up of clouds profiles and properties. The equipment will be assembled on Universidad de Santiago’s Research Platform (62º 12’ S; 58º 57’ W), on San Jorge Island, located in the Austral Ocean, to the north of the Antarctica Peninsula.

To guarantee the access and dissemination of the measurements and data generated by the new equipment, it will be connected to the NASA’s “Micro Pulse Lidar Network” (MPLNET).

Confocal microscope

The Faculty of Chemistry and Biology was also granted funds for two projects. One of them is led by Dr Claudio Acuña Castillo, head of the Department of Biology. According to the researcher, they seek to “renovate the confocal microscope to keep our competitiveness and increase the number of papers published by the areas of Biology and Biomedicine.”

The third initiative that received funding was the project for updating and acquiring new accessories for a nuclear magnetic resonance spectrometer that will strengthen different research areas in chemistry. Dr Juan Guerrero of the Faculty of Chemistry and Biology is leading this project.

Impact of new equipment

According to Dr Raúl Cordero, “by means of the acquisition of cutting edge technology, this contest allows Chile to strengthen the scientific instrumentation of the Universidad de Santiago’s Antarctic Platform and contributes to training advanced human capital, at an undergraduate and graduate levels, with an specialization both in the polar atmosphere and climate change.”

For his part, Dr Acuña says that having this type of funds available allow us to have the leading-edge equipment required to generate competitive research.

Translated by Marcela Contreras

• In large cities like Santiago, the quality of life is strongly related to the quality of the environment of the urban settings we live in. This is the core idea of the study “Socio-ecological quality in urban settings: improvements for a human-scale sustainable environment. Municipality of Quinta Normal,” a Dicyt project developed by Dr Alexandre Carbonnel and Rodrigo Martin, both professors at the School of Architecture of Universidad de Santiago. The study seeks to provide a tool for assessing the quality of urban life, considering environmental conditions (thermal, acoustic, and atmospheric ones) at urban settings.

   

  “Socio-ecological quality in urban settings: improvements for a human-scale sustainable environment. Municipality of Quinta Normal,” is the name of the study conducted by Dr Alexandre Carbonnel and Rodrigo Martin, both professors at the School of Architecture of Universidad de Santiago. The project has been funded by the university’s Scientific and Technological Research Department (Dicyt, in Spanish) and it has the purpose of providing a tool for measuring the quality of urban life, considering environmental conditions (thermal, acoustic, and atmospheric ones) at urban settings.

  The first measurements will be done at the municipality of Quinta Normal, an area of the capital of 12.4 square kilometers wide, with a population of 105 thousand people, according to the national census of 2002.

  This municipality is significant for the study, as it displays several special characteristics: In spite of being close to Santiago Centro, it has several industries; it adjoins Quinta Normal Park, one of the largest green areas of the capital managed by the Municipality of Santiago; and it is traversed by some of the busiest streets of the city, like Matucana, Costanera Norte Highway, Avenida San Pablo, and Central Highway (General Velásquez).

  The first hurdle to be cleared was to define the study areas. For this purpose, the research team developed “a methodology to identify the use of the urban setting as of the use of transportation and schools, what will allow pinpointing the nodes of very intense use and measure their environmental quality,” Carbonnel said.

  In order to relate the urban environmental quality to the use of urban infrastructure and services, variables and indicators related to transportation, health care and education coverage, cultural and commercial spots, green areas, and others, will be analyzed. The researchers will use some software programs (QGis and Grasshopper3d) to cross-check the information and identify the places with higher people density and more use of space.

  Once they know the places with higher density and more use, they will measure the urban environmental quality. This process will be based on thermal, acoustic and atmospheric variables, providing a true and varied environmental record of the places to be studied 

  Study impact

  According to Dr Carbonnel, the study impact is aimed at “providing municipalities, regional governments and the community with an important information tool that includes environmental indicators to orient them at managing and making local public policies and to contribute to a better use of the funds invested in infrastructure.”

  Dr Carbonnel also said that this methodology will open doors to the creation of a new line of products. “These innovations should aim to democratizing environmental information, in agreement with the vision of the Smart City Lab research center of our university.” Both researcher work at this center, together with other professionals of the School of Psychology and the Departments of Industrial Engineering, Geographic Engineering, Electric Engineering and Computer Engineering.

  Translated by Marcela Contreras

Universidad de Santiago was awarded 900 million Chilean pesos in the V version of the Contest Anillos Research Projects in Science and Technology. The contest was announced by the National Commission for Scientific and Technological Research.

Universidad de Santiago was awarded 900 million Chilean pesos for the execution of two projects in the context of the V version of the Contest Anillos Research project in Science and Technology 2014.

Thanks to the Associative Research Program (PIA, in Spanish), 17 projects will be funded nationwide, all of them top-class studies with international scope.

Dr Óscar Bustos Castillo, Vice President of Research, Development and Innovation, said that he was very pleased with the results, adding that “this type of project allows developing cutting-edge research that goes beyond our borders, and this is highly significant to contribute to our university’s internationalization.”

Dr Bustos highlighted that two of the projects that were awarded funding belong to consolidated research groups that, in the short term, could become research centers.

“These study projects will be executed over three years and will allow us to face issues of national interest and global challenges, restating the role we play as a state and public university,” he said.

The projects

One of the projects is led by Dr Maritza Páez and Dr María Victoria Encinas, researchers at the Faculty of Chemistry and Biology, and Dr Jenny Blamey, researcher at Fundación Biociencia, who will address the problems generated by the spontaneous and undesirable damage of materials, known as corrosion or biocorrosion. The name of the study is “Functionalized surfaces: protection against corrosion and biocorrosion.”

They have the goal of replacing the anti corrosion procedures that involve chemical compounds of high toxicity, like chromates, and provide effective and eco-friendly solutions.

Dr Francisco Melo (surface mechanics), Dr José Zagal (electrochemistry) and Dr Manuel Azocar (bioinorganic chemistry) will participate in the project.

Dr Marcela Urzúa (polymers) and Dr Marco Flores (surface physics), both researchers at Universidad de Chile, will take part in the project too, as well as Dr Jenny Blamey and Dr Freddy Boehmwald (microbiology), of Fundación Biociencia, and Dr Mamie Sancy (corrosion-electrochemistry), of the Chilean Air Force.

The second project is led by Dr Raúl Cordero, researcher at the Department of Physics. This is the second time that he leads an Anillo Project (the first time was in 2010). This time, he seeks to better understand the effects of black carbon at the Andean cryosphere. 

Black carbon or soot is a pollutant generated by the use of fossil fuels in the cities that is carried by the wind over the Andean snow, changing its reflectivity and its melting speed. 

According to Dr Cordero, the study “is mainly focused on measuring the content of black carbon in the snow on the west side of the Andes.” For this purpose, they will conduct campaigns to collect samples and analyze their carbon content across the country, from Putre to the Patagonia.

With this data, “we expect to generate a map that shows the black-carbon content in the Andean cryosphere, highlighting the areas of impact. This information will be useful to evaluate the effect of black carbon on glaciers melting,” the researcher explained.

The project is really important, because the country’s long-term sustainability depends on the availability of water resources coming from the Andean snows. However, just like many cold regions of the planet, the Andean cryosphere has doubled the global warming rate. “Although green-house gas emissions seem to be the main cause of this problem, black carbon may be playing a role too,” he added.

“Universidad de Santiago is a leader in interdisciplinary studies that address different aspects of sustainability, what largely explains the successful results of our applications. This project involves an interdisciplinary team of physicists, chemists, glaciologists and engineers of six renowned Chilean universities. Besides, ten international institutions will collaborate with the project, like the German Aerospace Center (DLR, in German) and the Japan Agency for Marine-Earth Science and Technology (JAMSTEC),” Dr Cordero concluded.

Nationwide results

The other 15 projects that were awarded funds belong to the following universities: five to Universidad Católica de Chile; four to Universidad de Chile; two to Universidad Técnica Federico Santa María and one to Universidad de La Frontera, one to Universidad Adolfo Ibáñez, one to Universidad Andrés Bello and one to Universidad Autónoma de Chile.

Translated by Marcela Contreras

•  In the context of the second IDeA en Dos Etapas Contest of the Fondef Program of Conicyt, four projects of Universidad de Santiago with potential economical and social impact were awarded about US$800,000. 664 projects applied for the funding nationwide, but only 50 were selected.
• For Dr Luis Magne, Head of the Technology Transfer Department of Universidad de Santiago, “The projects that were awarded funds represent the efforts made by our university to develop applied research projects that respond to the main problems of the country.”
• Particularly, the funds will support the following projects: “Proyecto sensores Hall ultrasensibles para detecciones varias de la industria minera” (by Dr Dora Altbir); “Bases científicas-tecnológicas para generar una propuesta de regulación de envases plásticos reciclados post-consumo para su uso en contacto directo con alimentos” (by Dr María José Galotto); “Plataforma de apoyo a la gestión de emergencia y aplicaciones” (by Dr Mauricio Marín) y la “Investigación para la optimización de la producción de pellets hidrofóbicos de alta densidad energética a través de la carbonización hidrotérmica de diferentes mezclas de biomasa de relevancia nacional” (by Dr Luis Díaz).

Universidad de Santiago was awarded 551,662,728 Chilean pesos (about US$800,000) for the execution of four projects in the context of the second IDeA en Dos Etapas Contest of the Fondef (Fund for the Promotion of Scientific and Technological Development) Program of the National Commission for Scientific and Technological Research (Conicyt, in Spanish). These funds will contribute to scientific and technological research with potential economic and social impact.  

Khaled Awad, Director of the Fondef Program, highlights that in this second version, the IDeA en Dos Etapas Contest consolidates itself as a strong tool to support projects in different regions of the country.

“Fondef works to promote technological development based on scientific knowledge in all areas. This contest shows us this diversity and contributes to science and technology research work conducted all over the country,” he says.

For his part, Dr Luis Magne, Head of the Technology Transfer Department of Universidad de Santiago, says: “These results show, in the first place, the high competitiveness of local science.” “The projects that were awarded funds represent the efforts made by our university to develop applied research projects that respond to the main problems of the country,” he adds.

The funds awarded to the university will support four projects.

One of them is led by Dr Dora Altbir, who will develop ultra-sensitive HALL sensors for different detection works in mining industry.

Another project is led by Dr Mauricio Marín, who will develop a support platform for emergency managing and apps.

For her part, Dr María José Galotto leads a research group who will work on the scientific-technological bases to generate a proposal for regulating the use of post-consumer recycled plastic containers for direct food contact applications. 

Dr Luis Díaz will lead a study for optimizing the high-energy-density hydrophobic pellet production through hydrothermal carbonization of different biomass blends of national importance.

In this contest’s second call, 644 projects applied for the funds, almost 200 more than in the first version, but only 50 were selected nationwide. The projects are distributed in the following areas: Food (8), Fishing and Aquaculture (8), Energy (7), Manufacturing (6), Health (6), Social Sciences and Education (5), Mining Industry (3), Infrastructure (3), ICT (2) and Environment (1).

The selected projects will go into the Applied Science Phase, where I+D (Innovation and Development) projects are funded to validate proofs of concept, models or prototypes at small scale or under lab conditions.

Translated by Marcela Contreras

•  Dr Jenny Blamey, professor at the Faculty of Chemistry and Biology described the 13^th International Thermophiles Meeting as a very important opportunity for the development of research at Universidad de Santiago and in the country. Worldwide prominent figures in microbiology, molecular biology, biochemistry, genetics, biocatalysis and biotechnology, participated in the conference. This is the first time that this global meeting is held in South America and Dr Blamey was in charge of the organization.

   

  In her closing speech, Dr Jenny Blamey, professor at the Faculty of Chemistry and Biology of Universidad de Santiago, evaluated this global meeting as a very important opportunity for the development of research at Universidad de Santiago and in the country.

  Dr Blamey highlighted the scientific importance of this conference that always leaves its imprint on the research centers and the countries where it is held. This also happened in our university and it should be reflected on the country.

  During the activity, worldwide leading scientists in this field presented their top-notch studies.

  These experts in microbiology, molecular biology, biochemistry, genetics, biocatalysis and biotechnology informed about the progress in their specialities, in order to have a better understanding of thermophiles.

  The Thermophiles International Conference is a global meeting held every second year. For the first time the meeting was carried out in South America, under the general supervision of Dr Blamey, and with the support of an efficient team who coordinated different tasks for the organizing bodies: Bioscience Foundation and the Faculty of Chemistry and Biology of Universidad de Santiago.

  The program included sessions on topics like genomics and biochemical processes, keynote lectures and poster presentations.

  International experts like Dr Karl Stetter, Dr Michel Adams and Dr Juergen Wiegel met with students, researchers and Chilean and foreign scientists.

  They shared their questions and their knowledge about the last developments and potential biotechnological applications of thermophiles, which are considered key to science development in our country and the world.

  A space for discussion and proposals

  “For Universidad de Santiago de Chile, hosting and promoting this type of activity is essential, since our purpose as a public, state and complete university is to create, preserve, disseminate and apply knowledge for the welfare of society,” Dr Juan Manuel Zolezzi, President of Universidad de Santiago, said.

  The Thermophiles 2015 International Conference contributed “To our institutional essential work, as it became a space for discussion and proposals, in a multidisciplinary and pluralistic dialogue; on this occasion, in the field of extremophiles, a new important field worldwide, not only for biological sciences but also for industrial biotechnology,” he added.

  For his part, Dr Gustavo Zúñiga, Dean of the Faculty of Chemistry and Biology, highlighted the importance of having been selected to organize the activity and receive these distinguished scientists, and give the students the opportunity to ask questions and talk to them.

  Translated by Marcela Contreras

• Researchers at CECTA and DECYTAL at Universidad de Santiago successfully participated in two important scientific gatherings. They were the only Chileans participating in the 27^th International Conference on Yeast Genetics and Molecular Biology and the 02^nd International Specialized Symposium of Yeasts, held in the Italian cities of Levico and Perugia, respectively. Dr Verónica García Mena, Dr Claire Brice, Dr Claudio Martínez Fernández and Dr Francisco Cubillos Riffo presented their works at these conferences.

   

  Researchers at the Food Science and Technology Research Center (CECTA, in Spanish) and the Department of Food Science and Technology (DECYTAL, in Spanish) of Universidad de Santiago were the only Chilean representatives in two important scientific activities held in September, in Italy.

  The team led by Dr Claudio Martínez Fernández and made up of Dr Francisco Cubillos Riffo, Dr Verónica García Mena, and Dr Claire Brice presented the results of different studies conducted at the Applied Biotechnology and Microbiology Laboratory.

  The researchers participated in the 27^th International Conference on Yeast Genetics and Molecular Biology, held between September 06^th and 12^th, in Levico, and the 02^nd International Specialized Symposium of Yeasts, held between September 13^th and 17^th in Perugia, Italy.

  Strengthening links

  The director of CECTA, Dr Claudio Martínez, who is currently on a scientific-cultural exchange at the Instituto de Agroquímica y Tecnología de Alimentos (IATA, in Spanish) in Valencia, Spain, explained that the importance of these conferences lies on the possibility of “Strengthening links with the best researchers in this field worldwide, strengthening joint projects and opening opportunities to new collaborations and projects, as well as evaluating the level and the significance of what we are doing in Chile, that it is certainly very good at an international level.”

  For example, the team of CECTA is working on an international collaboration project with researchers at the IATA that also involves Argentinean researchers. And there is another international project with a French team that also participated in these conferences. This team is collaborating with a Fondecyt postdoctoral project and Dr Claire Brice is in charge of the last phase of this study.

  It is worth to mention that CECTA researchers were the only Chilean representatives in both conferences. According to professor Martínez, this was a surprise. And they were more surprised when they realized that, at a Latin American level, there were a few researchers from Argentina, Brazil and Uruguay. “This places us in a leading position at a national level and allows us to strengthen links with Latin American experts in this field to promote local and regional development,” he said.

  Leaders in yeast studies

  Yeasts were the common denominator in the conferences in which Universidad de Santiago researchers participated. Our university is leader in the area of yeast biotechnology in the country. “In this regard, the contributions made by our institution have turned into products (some of them have already been transferred to the productive sector in Chile and abroad) and specialized human resource training and have generated a worldwide renowned group of experts,” he concluded.

   

  Translated by Marcela Contreras

• Its first office in South America will be located at Universidad de Santiago de Chile, with name of Leitat Chile International Center of Excellence in Nanotechnology (CEN) and it will operate with all the experience in research and technology that the Leitat Technological Center has had in Spain since 1906.
• It will contribute to give added value to strategic sectors of the Chilean economy, like mining industry, fishing and aquaculture, food and agriculture, and forest industry, and to the industry of personal protection equipment. According to the President of Universidad de Santiago, Juan Manuel Zolezzi, CEN’s contribution “Will allow us to give qualitative leaps in innovation matters based on science and technology.”
• The Center will arrive in Chile thanks to the Attraction of International R&D Centers of Excellence program promoted by the Chilean Economic Development Agency (Corfo), Universidad Autónoma de Barcelona, Universidad Politécnica de Valencia, Knowledge Innovation Market (KIM), and Universidad de Santiago.

On September 03^rd, the Leitat Chile International Center of Excellence in Nanotechnology (CEN) was officially presented. Universidad de Santiago de Chile is one of its partners.

In Chile, it will contribute to give added value to strategic sectors of the local economy, like mining industry, fishing and aquaculture, agricultural-food and forest industry, and to the industry of personal protection equipment.

This center will also try to transform technological research and development into concrete services and products that contribute to national productivity and competitiveness, which are currently based on natural resources.

This Center will become a reality in Chile thanks to the Attraction of International R&D Centers of Excellence program promoted by the Chilean Economic Development Agency (Corfo), and to the contribution of Universidad Autónoma de Barcelona, Universidad Politécnica de Valencia, Knowledge Innovation Market (KIM), and Universidad de Santiago de Chile.

During the ceremony held at Club El Golf 50, Dr Joan Parra, General Director of Leitat, was the first speaker. He said that his project in Chile is based on three core ideas: people and their talent, the making of industrial policies and the value of the product or service.

“We want these core ideas to be the seed. We are absolutely convinced that societies require technology, that technology is affecting not only our work and our leisure time, but that it is an important part of the base for social stability and economic growth,” he added.

“We will spare no efforts to make this initiative a collective success and I would like to express my gratitude, again, to Corfo and the university (Universidad de Santiago),” he said. Dr Parra travelled from Spain to head this important opening activity.

Qualitative leaps in innovation matters

The President of Universidad de Santiago, Dr Juan Manuel Zolezzi, said that CEN’s contribution “Will allow us to give qualitative leaps in innovation matters based on science and technology.”

He said that, in order to collaborate in this process, our university will accommodate the center in the campus, so that it brings its laboratories, equipment, and advanced human capital to develop technological and innovation collaborative scientific work.

“For us, Leitat is an international strategic partner with significant experience in outreach and engagement and technological transfer and innovation. These aspects are very important for our university, as it is stated in our Institutional Strategic Plan,” President Zolezzi said. 

Dr Zolezzi highlighted that “At becoming partners, we seek to broaden our capabilities to plan and to use the knowledge and technologies generated at our university to reach other important agents of the country, like industries, the government and the society. This is part of the clear commitment that we have made as a state and public university to contribute to people’s welfare.”

As Dr Zolezzi explained, Universidad de Santiago will participate in three research lines: mining industry, fishing and aquaculture, and food and agriculture

The analysis of the industry needs and opportunities in these areas will be led by Dr Alejandro Gutiérrez (Mining industry), Dr Rubén Bustos (Fishing and aquaculture), and Dr Claudio Martínez (Food and agriculture).

Positive impact on the corporate sector

For his part, CEN’s manager, José Luis Checa, said: “Leitat’s strategy on arriving in Chile is to have a positive impact on the Chilean corporate sector, especially on those areas that have been defined as strategic ones. It is our firm belief that companies need innovation, as a sustainable mechanism to create value, what in turns becomes added value for the country. 

He invited all local agents in the nanoscience field to collaborate in joint projects that allow making the most of the knowledge and experience of this Spanish institution.

Needs of the productive world

Finally, in his speech, Eduardo Bitrán, Vice President of Corfo, said that we will have the opportunity of linking Leitat’s experience with the efforts made in research by Universidad de Santiago

“We acknowledge that our universities have progressed in the development of scientific research; but we still have essential challenges regarding to better relations with the needs of the country and the productive world,” he added.

“As a country, we want to move forward from an economy that uses natural resources as raw material to develop, to an economy that develops products and services with a higher added value by using its natural resources. For this reason, one of the results that we expect is the development of companies with higher levels of innovation and technology, to start developing business sectors with a higher knowledge-base,” he concluded.

Leitat Foundation in South America

This is the first office of Leitat Foundation in South America and it will focus on promoting research, development and innovation in the different economic sectors, contributing to the integral development of society and the territory, to innovation promotion and competitiveness improvement.

The Foundation defines itself as a “technological partner” constantly adapting to the market that promotes changes to strengthen technological ventures -supporting innovation in big companies- and to consolidate international collaboration as the value given by technological networking, linking research with the market.

Translated by Marcela Contreras

• In order to reduce the effects of the day-night fluctuations of solar radiation, researchers at the Department of Chemical Engineering of Universidad de Santiago developed a low-cost accumulator that allows storing solar thermal energy and avoid interruptions of the drying processes of different agricultural products. The research team is led by Dr Alejandro Reyes and the study is called “Design and evaluation of a heat exchanger that uses paraffin wax and recycled materials as solar energy accumulator”.

Chile has high levels of solar radiation, particularly in the northern and central zones of the country. This makes our territory an ideal area for studying and developing new methods to use solar energy. 

In this context, Dr Alejandro Reyes published part of the results of his study in the Elsevier’s journal Energy Conversion and Management. The article is called “Design and evaluation of a heat exchanger that uses paraffin wax and recycled materials as solar energy accumulator.”

Through this study, Professor Reyes seeks to solve one of the biggest problems posed by solar thermal energy: its fluctuation between day and night. He has the goal of extending the use of solar energy to hours when it is not directly received.

Solar energy can be thermally or electrically stored in batteries, by means of photovoltaic panels. In thermal storage, solids or liquids can be heated and sensible heat is stored. However, Dr Reyes’ study is focused on the phase change, i.e., the use of a solid that melts when it is heated.

Paraffin wax

Paraffin wax, similar to the one used in candle making, was the best option for this study, as it remains solid below 56^OC and, above this temperature, it changes to liquid.

The change in state of paraffin wax depends on energy input or output. “For a phase transition from solid to liquid, much energy is required, so we get it from the sun. And from liquid to solid, we need to take the energy inside out,” Professor Reyes explained.

In order to melt wax and transform it to liquid and accumulate energy, Dr Reyes designed a heat accumulator that works with low-cost materials, like soft drink cans. “We designed a device in which we put paraffin in a group of soft drink cans that we painted black. We put the cans inside a box, and we closed the upper face with a glass cover, facing the sun. The solar energy melts the wax and then a cold air flow is passed trough the cans and goes out as hot air,” he said.

However, this process has some drawbacks related to the low thermal conductivity of paraffin wax that makes more difficult sucking out the heat from the cans: when liquid paraffin wax starts getting solid inside the cans, the extraction of the energy remaining in the centre of the cans is very slow.

This problem was solved by embedding aluminium wool in the paraffin wax, doubling its thermal conductivity. Aluminium strips were also placed outside the cans to improve the energy transfer to the air.

Mathematical equations

Professor Reyes says that the empirical results are correlated with the models that they have been able to develop through mathematical equations.

“Evidently, if we build a device with more cans, the energy accumulation would be proportionally higher. We have another piece of equipment with 300 cans placed on the roof of the Department of Chemical Engineering that allows extending the drying process of agroproducts to up to five hours. We have the help of thesis students and experts in modelling and a piece of software that allows predicting the results of the equipment, based on its size and the environmental conditions,” he said.

Dr Reyes expects to replicate the energy accumulator and use it for different purposes. “On the roof, we have an accumulator made of cans, plus a standard solar panel, both connected to a dryer with a drying capacity of 25 kg of agricultural products. Up to date, we have dehydrated mushrooms, onion flakes, and sweet peppers, among others.”

As the process of drying agricultural products is slow, during the day the dryer uses the solar energy obtained through the solar panel, and then at night, when the solar radiation is null, the air for drying is heated in the energy accumulator and the drying time is extended to up to 5 additional hours.

“We seek to extend the drying process all night long, by using solar energy, in spite of the radiation fluctuations between day and night,” the researcher said.

Translated by Marcela Contreras

• The new therapy involves the development of a vaccine that provides the immune system with the tools needed to “attack” cancer cells, improving the antitumour response of the body. The therapy was announced to foreign media correspondents accredited in Chile.

• The study is funded through a Fondecyt Project and it is at preclinical stage. It considers a significant decrease of more than 70% in the overall cost of therapies for this disease.
• The leader of the project, Claudio Acuña, Dr in Biomedical Sciences, researcher, and Head of the Department of Biology of our University, gave us some details on this new technology, which is applying for a patent in USA with the support of Corfo.
• Dr Acuña said: “We are generating a quite effective therapy for cancer through which we could make immunotherapy more available to people. We are doing this in a university which is known for its social responsibility signature. In this context, I would like to highlight the talent of my students involved in this project.”

In order to optimize cancer therapy and contribute to public health in our country, an innovative and significant treatment developed at Universidad de Santiago has recently been presented.

This project involves the development of a vaccine that will allow destroying cancer cells in the body by enhancing its immune response.

This scientific development- funded by the National Fund for Scientific and Technological Development, Fondecyt- considers a significant decrease of more than 70% in the overall costs of cancer therapies and it has shown an efficacy of 50%.

Dr Claudio Acuña, Head of the Department of Biology of Universidad de Santiago, is leading the project. “We want to have a vaccine available to protect us from the disease, just like in the vaccination process for measles and other diseases when we are children. In the case of cancer, our idea is to get people vaccinated so that they are able to eliminate cancer cell in their bodies, he said.”

Quality of life

According to the researcher, the project “Seeks to improve the quality of life of patients in the long term and generate a supplementary therapy to conventional treatments to resist cancer in a non-conventional way, which is currently treated with chemotherapy.”

“We have completed the preclinical stage (trials in living animals) which showed that the vaccine does protect from the disease. The next step is the clinical phase, in which it will be tested in human subjects. There was not any negative effect on animals, so we could extrapolate that there will be not any effect on patients,” he added.

“The ultimate goal is to generate a vaccine for people with cancer that will allow enhancing their immune response to tumours,” he said.

“We are generating a quite effective therapy for cancer in which we could make immunotherapy more available to people. We are doing this in a university which is known for its social responsibility signature. In this context, I would like to highlight the talent of my students involved in this project,” the scientist said.

“We were able to make it because the University enables, favours and promotes these innovation processes, besides providing the confidence to conduct high-level research,” he added.

Dicyt project

Dr Acuña’s meeting with foreign media correspondents was in the context of the activities of a Dicyt Public Opinion Project of Universidad de Santiago, led by Gabriela Martínez Cuevas, professor at the Department of Journalism.

Professor Martínez highlighted the interest of Fundación Imagen de Chile in contributing to promote the significance of this study among a group of accredited correspondents in Chile.

“Due to the strategic partnership that we developed with Fundación Imagen de Chile last year in a similar project, we have been able to arrange the first of a series of conferences with foreign accredited correspondents, during 2015,” professor Martínez said.

“This body has the purpose of managing the “nation branding”, so we have joined efforts to strengthen our “U de Santiago brand” around the world through our scientists,” she added.

Gabriela Martínez, who is also Director of the Communications Department and the institutional radio station said: “Today, the interest of the international press for learning about this study led by Dr Claudio Acuña was evident, and he insisted on the importance of the contribution made by the young researchers that he is training.”

She said: “There were correspondents of all the agencies in Europe, China and Latin America. We expect to see how they inform the world about this new contribution made by our state and public University, which is committed to the country progress and gives solutions to urgent demands beyond our borders. This was specifically demonstrated with this cancer vaccine.”

The project- which is at its preclinical stage- is based on effects of Polymixin B. It has already shown its first results in lymphoma, melanoma and breast, with an effectiveness of almost 50%. Besides, it is worth to mention that this technology could decrease the cost of current traditional cancer therapies by up to 70%.

With the support of the Chilean Economic Development Agency (Corfo, in Spanish), this technology is in the patenting process both in Chile and USA, to then continue to the clinical stage and to exporting the treatment.

Fundación Imagen de Chile

According to its web page, Fundación Imagen de Chile is an autonomous institution funded by public resources, created in 2009, with the purpose of coordinating and organizing the efforts to promote the image of Chile abroad.

Its responsibility is to mange the “nation branding”, by coordinating the work of the main sectors that contribute to build this image, such as culture, sports, exportations, investments, tourism and international relations, among others. For this purpose, the foundation develops strategic partnerships with public and private agents to coordinate the image of the country and actively position the distinctive features of our identity.

Translated by Marcela Contreras

•    Using secondary sludge from industrial water treatment, researcher César Huiliñir, professor at the Department of Chemical Engineering, developed a new mathematical method for the biodrying process that proposes to reuse this sludge as biofuel. This technology proposal is supported by a Fondecyt Initiation Project.

After three years of work using secondary sludge from industrial water treatment, researcher César Huiliñir, professor at the Department of Chemical Engineering, developed a new mathematical model for the biodrying process that proposes to reuse these residues.

The proposal is one of the results of his Fondecyt Initiation Project (11121160), “Development of a new dynamic model for batch biodrying process of dewatered sewage sludge”.

According to the researcher, the sludge disposed of by industries has 80% of water, i.e., for every kilo of sewage sludge, an amount of 800 grams of water is lost. Besides, companies have to pay for removing this waste to prevent accumulation of residues and potential odours in their facilities. For this reason, finding an alternative solution may reduce costs.

“We bet that, if we reduce the amount of water of secondary sludge, it can be fed as fuel into boilers. That is why companies like paper mills can be benefited: if this works, it will allow them to reduce removal costs. We could use that sludge, burn it, and change it into a new type of biofuel, as it has already been done in Holland and Canada, where there are specific examples of mills that have implemented similar systems,” he said.

For this purpose, professor Huiliñir and his research team proposed a mathematical model- very easy to implement- that enable a more flexible system to better predict the moisture loss in the system. Up to now, there was not literature on this factor that could effectively enhance this operation.

Results of the study

Professor Huiliñir said that another contribution of this study was the background information they were able to collect on kinetics of volatile solid residues degradation. There was not any information about this in the literature of the area.

“With this (information), we will able to know how much energy is used in the process. The higher the solids consumption, the higher the energy released to dry the sludge. This will allow predicting behaviours and evaluating without having to experiment,” he said.

He could also analyze the amount of water and energy required to remove the water content through the different stages of this degradation process. “In the study, we built an experimental design in which we established how some conditions affect the dewatering operation and how much of energy that allows water evaporation comes from the chemical reaction in the process,” he added.

In order to develop this alternative model, they worked with sludge from paper mills. Now, they are working with water treatment sludge from a slaughterhouse and a meat packing plant.

Finally, professor Huiliñir highlighted the role played by undergraduate and graduate students, who were in charge of the laboratory work to test this model. “The students’ contribution was essential. Without them, we wouldn’t have been able to develop this project and get these results,” he concluded.

Translated by Marcela Contreras