Determinación del riesgo de incendio en una instalación de secado de alperujo = Determination of the risk of fire in an olive-oil mill waste dryer

For the energy valorization of alperujo, residue of the olive oil two phases extraction process, it is necessary to perform a drying process to reduce moisture content from over 60% to less than 10%. In order to reduce primary energy consumption and get an economic return, usually in this kind of drying facilities Gas Turbine CHP is used as a heat source. There have been recently in Spain some fires in this kind of GT-CHP facilities, which have caused high material losses. In some of these fires it has been suggested that the fire was caused by the output of incandescent alperujo in the flue gasesof the drying system. Therefore, the aim of this study is to determine experimentally and analytically under which operational conditions a process of alperujo self-ignition in the drying process can begin, and determine the actual fire hazard in this type of TG-CHP system. For analytical study, the temperature and initial composition of the combustion gases of the Gas Turbine at the entrance of the drying process was calculated and the gas equilibrium conditions reached in contact with the biomass were calculated and, therefore, the temperature of the biomass during the drying process. Moreover, the layer and dust ignition temperature of alperujo has been experimentally determined, according to EN 50281-2-1: 2000. With these results, the operating conditions of the drying process, in which there are real risk of auto-ignition of alperujo have been established.Para la valorización energética del alperujo, residuo del proceso de extracción en dos fases del aceite de oliva, es necesario realizar un proceso de secado para reducir su contenido de humedad de más del 60% al 10% m/m en b.h. Con el fin de reducir el consumo de energía primaria y obtener una rentabilidad económica, normalmente en este tipo de instalaciones de secado se usa la cogeneración con turbina de gas (TG) como fuente de calor. En España en los últimos años han ocurrido algunos casos de incendio en este tipo de instalaciones de cogeneración, que han supuesto pérdidas materiales muy elevadas. Por esta razón, el objetivo de este trabajo es determinar analítica y experimentalmente las condiciones operativas del secadero bajo las cuales podría comenzar un proceso de autoinflamación del alperujo y determinar el riesgo real de incendio en este tipo de instalaciones. Para el estudio analítico, se ha planteado y validado el modelo matemático que permite calcular la temperatura y la composición de los gases de combustión a la entrada y a la salida del secadero, en función de las curvas características de la TG, de las condiciones atmosféricas, del caudal y del grado de humedad de la biomasa tratada. El modelo permite además calcular la temperatura de bulbo húmedo, que es la máxima temperatura que podría alcanzar la biomasa durante el proceso de secado y determinar la cantidad de biomasa que se puede secar completamente en función del caudal y de las condiciones de entrada de los gases de combustión. Con estos resultados y la temperatura mínima de autoinflamación del alperujo determinada experimentalmente siguiendo la norma EN 50281- 2-1:2000, se demuestra que en un proceso de secado de alperujo en condiciones normales de operación no existe riesgo de autoencendido que pueda dar origen a un incendio.

A calcineurin homologous protein inhibits GTPase-stimulated Na-H exchange.

Activation of the ubiquitously expressed Na-H exchanger, NHE1, results in an increased efflux of intracellular H+. The increase in intracellular pH associated with this H+ efflux may contribute to regulating cell proliferation, differentiation, and neoplastic transformation. Although NHE1 activity is stimulated by growth factors and hormones acting through multiple GTPase-mediated pathways, little is known about how the exchanger is directly regulated. Using expression library screening, we identified a novel protein that specifically binds to NHE1 at a site that is critical for growth factor stimulation of exchange activity. This protein is homologous to calcineurin B and calmodulin and is designated CHP for calcineurin B homologous protein. Like NHE1, CHP is widely expressed in human tissues. Transient overexpression of CHP inhibits serum- and GTP-ase-stimulated NHE1 activity. CHP is a phosphoprotein and expression of constitutively activated GTPases decreases CHP phosphorylation. The phosphorylation state of CHP may therefore be an important signal controlling mitogenic regulation of NHE1.

Turkey votes: Part II - Erdoğan reloaded. EPC Commentary, 3 April 2014

On 30 March, Turkey’s ruling Justice and Development Party (AKP) scooped a significant victory in local elections, taking almost 44 percent of the vote despite accusations of corruption, undermining the rule of law, fundamental rights and freedoms. While there have been claims of election fraud and the main opposition party, the Republican People’s Party (CHP), has demanded recounts in several cities including Istanbul and Ankara, it is clear that even allowing for some level of fraud the win was substantial and more than most people expected. Prime Minister Recep Tayyip Erdoğan has reached a juncture. He has two choices: return to the path of democracy after a period of democratic back-sliding which included passing several controversial reforms such as a new internet law which led to the recent banning of Twitter and Youtube; or alternatively he can forge ahead with his much talked of revenge campaign against those he has accused of creating a “parallel state” and conspiring to remove him from power. Given that Erdoğan viewed this election as a referendum on his popularity and leadership there is a serious risk that he will do the latter; using the significant mandate given to him to do whatever he wants, including further cracking down on democracy.

Turkey votes: Part III - President Erdoğan - A foregone conclusion? EPC Commentary, 10 July 2014

On 1 July, after months of speculation, Turkey’s Prime Minister, Recep Tayyip Erdoğan, announced he would run in the country’s first direct presidential elections on 10 August. Erdoğan, who has dominated Turkish politics for over a decade, is viewed as the clear favourite. With current polls suggesting he could take as much as 52% of the vote, an outright victory in the first round is possible. His main rival, Ekmeleddin İhsanoğlu, is very much the underdog. Until recently, an international diplomat with no experience in politics, he is the joint candidate of Turkey’s two main opposition parties, the Republican People’s Party (CHP) and the Nationalist Movement Party (MHP). Selahattin Demirtaş, the Co-Chairman of the Kurdish Peoples Democratic Party (HDP) is also in the race, but is not expected to make it into double digits. The Kurdish vote however, could prove to be crucial if the ballot goes to a second round on 24 August. With Erdoğan wanting to increase Presidential powers, the stakes are high. With his belief in majoritarian rule, and increasingly authoritarian style of governance there has been an erosion of democracy and civil liberties. Many observers fear this trend may increase.

Potential Future Coral Habitats Around Japan Depend Strongly on Anthropogenic CO2 Emissions

Using the results from the NCAR CSM1.4-coupled global carbon cycle– climate model under the Intergovernmental Panel on Climate Change (IPCC) emission scenarios SRES A2 and B1, we estimated the effects of both global warming and ocean acidification on the future habitats of corals in the seas around Japan during this century. As shown by Yara et al. (Biogeosciences 9:4955–4968,2012), under the high-CO₂-emission scenario (SRES A2), coral habitats will be sandwiched and narrowed between the northern region, where the saturation state of the carbonate mineral aragonite (Ωarag) decreases, and the southern region, where coral bleaching occurs. We found that under the low-emission scenario SRES B1, the coral habitats will also shrink in the northern region by the reduced Ωarag but to a lesser extent than under SRES A2, and in contrast to SRES A2, no bleaching will occur in the southern region. Therefore, coral habitats in the southern region are expected to be largely unaffected by ocean acidification or surface warming under the low-emission scenario. Our results show that potential future coral habitats depend strongly on CO₂ emissions and emphasize the importance of reducing CO₂ emissions to prevent negative impacts on coral habitats.