The company said consolidated financial results included a provision for impairment in respect of non-current assets and restructuring provisions within the European operations."Tata Steel Europe has refinanced its euros 1."Tata Steels standalone profit dropped to Rs 1,803. The refinancing was at more flexible terms and better pricing, and has also improved the debt maturity profile," the company said."However, our European operations made a loss as it felt the brunt of the overall slowdown and the consequent shrinking of spreads. This adversely affected our consolidated performance."During the quarter, NatSteel Holdings Pte Ltd, a wholly-owned indirect subsidiary of the company, disposed of its entire stake in Nat Steel Vina Co. The company was also able to maintain sales to the auto segment despite the sluggishness faced by the auto industry.Tata Steel said the phase II expansion at Kalinganagar is progressing well, civil and structural construction work for pickling line and tandem cold rolling mill at cold rolled mill complex has progressed substantially. Steel demand in India is expected to improve on the back of increasing government https://www.jinduhardware.com/product/hex-nut/ spending and a revival in the broader economy."India revenue from operations stood at Rs 21,299 crore for the quarter."Both our acquisitions, Tata Steel BSL and Tata Steel Long Products, continue to deliver operational improvements and achieve milestones in the market place. This helped us reduce our net debt during the quarter by Rs 2,324 crore.In Europe, the overall slowdown was more pronounced due to seasonal weakness and elevated levels of unfairly priced imports. The loss on disposal of the subsidiary is included within profit/(loss) from discontinued operations," Tata Steel said in a statement.75 billion external borrowings.Tata Steel CEO & Managing Director T V Narendran said the company delivered strong growth in volumes despite poor macroeconomic conditions in India as well as globally.71 MT in the same quarter a year ago.Its gross sales fell to Rs 34,774 crore in October-December 2019 from Rs 38,086 crore in the year-ago period.Tata Steels consolidated steel production during the December quarter was at 6. However, steel prices are on an upward trend since November with inventory rationalization and an increase in government spending.4 MT as compared to 4.83 crore in the quarter from Rs 2,456.09 crore in the year-ago period due to exceptional items such as high employee separation compensation and provision for demands and claims.38 MT in October-December 2018. Besides equipment erection for the mill and entry section has also commenced.99 million tonne (MT) as compared to 6. Coronavirus does pose a risk and we are closely monitoring the fallout," he said. EBITDA was Rs 4,111 crore and EBITDA margin stood at 19. Its expenses were at Rs 35,849 crore as compared to Rs 35,930 crore in the preceding fiscal.53 crore for the quarter ended on December 31, 2019, mainly due to lower sales and impairment provisions for its European operations.On Europe operations, he said Tata Steel Europe reported a loss of Rs 956 crores at EBITDA level primarily due to GBP 75/tonne decline in realisations, which weighed down the companys consolidated performance.Revenue from operations decreased to Rs 13,821 crore during the quarter under review primarily due to sharp decline in European steel prices, resulting in loss of Rs 956 crore at EBITDA (earnings before interest, taxes, depreciation, and amortization) level.The company said during the third quarter global economic growth further slowed down amidst heightened concerns of US-China trade war and regional steel prices were down as steel demand was affected by weaker industrial output in key markets.In India, the companys business model helped counter the slowdown as it successfully penetrated new markets and expanded customer universe. Ltd.."During the quarter, we succeeded in delivering working capital improvements which helped in generating cash flows in excess of Rs 6,000 crore.In India, the company produced 4.Koushik Chatterjee, Executive Director and CFO said, "Economic conditions remained very challenging during the quarter which impacted the overall business performance.New Delhi: Tata Steel on Friday reported a consolidated net loss of Rs 1,228.Tata Steel had posted a consolidated net profit of Rs 1,753. Our liquidity remains robust at Rs 14,027 crore comprising of cash and cash equivalents of Rs 5,239 crore and undrawn bank lines," he said.07 crore during the same quarter a year ago, the company said in a BSE filing.In India, Tata Steel said the Indian economy remained weak during the quarter and domestic steel prices reached a nadir in October 2019.3 per cent and EBITDA/tonne was Rs 8,484
To explore this in more depth, the researchers drew on the completed Food Frequency Questionnaire responses and lifestyle information from more than 61,000 Swedish 45-83 year olds. This level of consumption may also lessen the risk of developing heart failure, although the findings are less consistent, the research indicated.According to a new research conducted by BMJ, eating several servings of nuts every week may help lower the risk of developing the heart rhythm irregularity, atrial fibrillation, also known as heart flutter.
The researchers suggested, "Since only a small proportion of this population had moderate (about 5 percent) or high (less than 2 percent) nut consumption, even a small increase in nut consumption may have large potential to lead to a reduction in the incidence of atrial fibrillation and heart failure in this population. People who ate nuts tended to be better educated and to have healthier lifestyles than those who didnt include nuts in their diet.Washington: Turns out, regular intake of nuts is linked to lower risk of heart rhythm irregularity. But when several potentially influential known risk factors were accounted for, including lifestyle, general diet, diabetes, and family history, only associations with atrial fibrillation and with heart failure emerged."The study appears in the online journal Heart. "Nut consumption or factors associated with this nutritional behaviour may play a role in reducing the risk of atrial fibrillation and possibly heart failure," they wrote..Previous studies have suggested that eating nuts regularly is associated with a lower risk of heart disease/stroke and associated death, but its not clear which particular aspects of cardiovascular disease nut consumption may be linked to.Eating nuts regularly was not associated with a lower risk of the narrowing of the valve serving the hearts largest artery, the aorta, or with the risk of stroke.Nut consumption was associated with a lower risk of heart attack, heart failure, atrial fibrillation, and abdominal aortic aneurysm, after taking account of age and sex. They were less likely to smoke or to have a history of high blood pressure.Their cardiovascular health was then tracked for 17 years (to the end of 2014) or until https://www.jinduhardware.com/product/flange-nut/ death, whichever came first. Each additional portion of nuts eaten during the week was associated with a 4 percent lowering in atrial fibrillation risk. And they were leaner, more physically active, drank more alcohol and ate more fruit, and vegetables.
The findings for heart failure were less consistent: moderate, but not high, weekly nut consumption was associated with a 20 percent lower risk. Eating a serving of nuts one to three times a month was associated with a lowered risk of just 3 percent, rising to 12 percent when eating them once or twice a week, and to 18 percent when eating them three or more times a week. Nuts are a rich source of healthy fats, minerals, and antioxidants, all of which may aid cardiovascular health, the researchers explained.The more often nuts were included in the diet, the lower was the associated risk of atrial fibrillation, the findings showed
The researchers suggested, "Since only a small proportion of this population had moderate (about 5 percent) or high (less than 2 percent) nut consumption, even a small increase in nut consumption may have large potential to lead to a reduction in the incidence of atrial fibrillation and heart failure in this population. People who ate nuts tended to be better educated and to have healthier lifestyles than those who didnt include nuts in their diet.Washington: Turns out, regular intake of nuts is linked to lower risk of heart rhythm irregularity. But when several potentially influential known risk factors were accounted for, including lifestyle, general diet, diabetes, and family history, only associations with atrial fibrillation and with heart failure emerged."The study appears in the online journal Heart. "Nut consumption or factors associated with this nutritional behaviour may play a role in reducing the risk of atrial fibrillation and possibly heart failure," they wrote..Previous studies have suggested that eating nuts regularly is associated with a lower risk of heart disease/stroke and associated death, but its not clear which particular aspects of cardiovascular disease nut consumption may be linked to.Eating nuts regularly was not associated with a lower risk of the narrowing of the valve serving the hearts largest artery, the aorta, or with the risk of stroke.Nut consumption was associated with a lower risk of heart attack, heart failure, atrial fibrillation, and abdominal aortic aneurysm, after taking account of age and sex. They were less likely to smoke or to have a history of high blood pressure.Their cardiovascular health was then tracked for 17 years (to the end of 2014) or until https://www.jinduhardware.com/product/flange-nut/ death, whichever came first. Each additional portion of nuts eaten during the week was associated with a 4 percent lowering in atrial fibrillation risk. And they were leaner, more physically active, drank more alcohol and ate more fruit, and vegetables.
The findings for heart failure were less consistent: moderate, but not high, weekly nut consumption was associated with a 20 percent lower risk. Eating a serving of nuts one to three times a month was associated with a lowered risk of just 3 percent, rising to 12 percent when eating them once or twice a week, and to 18 percent when eating them three or more times a week. Nuts are a rich source of healthy fats, minerals, and antioxidants, all of which may aid cardiovascular health, the researchers explained.The more often nuts were included in the diet, the lower was the associated risk of atrial fibrillation, the findings showed
That is, as any gas flows through the stack of these flat electrochemical cells, during the release step the captured carbon dioxide will be carried along with it. "This carbon dioxide capture technology is a clear demonstration of the power of electrochemical approaches that require only small swings in voltage to drive the separations. In other words, the electrode material, by its nature, "has either a high affinity or no affinity whatsoever," depending on the batterys state of charging or discharging.
The process this system uses for capturing and releasing carbon dioxide "is revolutionary" he says. The electrodes have a natural affinity for carbon dioxide and readily react with its https://www.jinduhardware.com/product/hex-nut/ molecules in the airstream or feed gas, even when it is present at very low concentrations. Alan Hatton, the Ralph Landau Professor of Chemical Engineering. While today this is done in a laboratory setting, it can be adapted so that ultimately they could be made in large quantities through a roll-to-roll manufacturing process similar to a newspaper printing press, Voskian says.The electrodes themselves can be manufactured by standard chemical processing methods.In some soft-drink bottling plants, fossil fuel is burned to generate the carbon dioxide needed to give the drinks their fizz. For example, if the desired end-product is pure carbon dioxide to be used in the carbonation of beverages, then a stream of the pure gas can be blown through the plates.Most methods of removing carbon dioxide from a stream of gas require higher concentrations, such as those found in the flue emissions from fossil fuel-based power plants."This binary affinity allows capture of carbon dioxide from any concentration, including 400 parts per million, and allows its release into any carrier stream, including 100 per cent CO2," Voskian says.".D.The technique, based on passing air through a stack of charged electrochemical plates, is described in a new paper in the journal Energy and Environmental Science, by MIT postdoc Sahag Voskian, who developed the work during his Ph. Its just these very thin sheets, with both surfaces active, that can be stacked in a box and connected to a source of electricity.
The new system could eliminate that need for fossil fuels in these applications, and in the process actually be taking the greenhouse gas right out of the air, Voskian says. The captured gas is then released from the plates and joins the stream. These are coated with a compound called polyanthraquinone, which is composited with carbon nanotubes."The greatest advantage of this technology over most other carbon capture or carbon-absorbing technologies is the binary nature of the adsorbents affinity to carbon dioxide," explains Voskian. The researchers estimate that they can readily improve that to 20,000 to 50,000 cycles. "We have developed very cost-effective techniques," he says, estimating that it could be produced for something like tens of dollars per square meter of the electrode.Compared to other existing carbon capture technologies, this system is quite energy-efficient, using about one gigajoule of energy per ton of carbon dioxide captured, consistently. A few variations have been developed that can work with the low concentrations found in air, but the new method is significantly less energy-intensive and expensive, the researchers say.Alternatively, the pure carbon dioxide stream could be compressed and injected underground for long-term disposal, or even made into fuel through a series of chemical and electrochemical processes., and T. And the system is very easy to scale up, he says: "If you want more capacity, you just need to make more electrodes. In operation, the device would simply alternate between charging and discharging, with fresh air or feed gas being blown through the system during the charging cycle, and then the pure, concentrated carbon dioxide being blown out during the discharging.""In my laboratories, we have been striving to develop new technologies to tackle a range of environmental issues that avoid the need for thermal energy sources, changes in system pressure, or addition of chemicals to complete the separation and release cycles," Hatton says.A study has found out a new way of removing carbon dioxide from a stream of air that could prove as a significant tool in the battle against climate change.As the battery charges, an electrochemical reaction takes place at the surface of each of a stack of electrodes. Similarly, some farmers burn natural gas to produce carbon dioxide to feed their plants in greenhouses. The whole system operates at room temperature and normal air pressure. In the lab, the team has proven the system can withstand at least 7,000 charging-discharging cycles, with a 30 per cent loss in efficiency over that time. The reverse reaction takes place when the battery is discharged -- during which the device can provide part of the power needed for the whole system -- and in the process ejects a stream of pure carbon dioxide.The researchers have set up a company called Verdox to commercialize the process, and hope to develop a pilot-scale plant within the next few years, he says. Other reactions used for carbon capture require intermediate chemical processing steps or the input of significant energy such as heat, or pressure differences. "All of this is at ambient conditions -- theres no need for thermal, pressure, or chemical input.The device is essentially a large, specialised battery that absorbs carbon dioxide from the air (or another gas stream) passing over its electrodes as it is being charged up, and then releases the gas as it is being discharged. By alternating back and forth, the system could always be both capturing and discharging the gas.The new system can work on the gas at virtually any concentration level, even down to the roughly 400 parts per million currently found in the atmosphere. Other existing methods have energy consumption which varies between 1 to 10 gigajoules per ton, depending on the inlet carbon dioxide concentration, Voskian says."In a working plant -- for example, in a power plant where exhaust gas is being produced continuously -- two sets of such stacks of the electrochemical cells could be set up side by side to operate in parallel, with flue gas being directed first at one set for carbon capture, then diverted to the second set while the first set goes into its discharge cycle
The process this system uses for capturing and releasing carbon dioxide "is revolutionary" he says. The electrodes have a natural affinity for carbon dioxide and readily react with its https://www.jinduhardware.com/product/hex-nut/ molecules in the airstream or feed gas, even when it is present at very low concentrations. Alan Hatton, the Ralph Landau Professor of Chemical Engineering. While today this is done in a laboratory setting, it can be adapted so that ultimately they could be made in large quantities through a roll-to-roll manufacturing process similar to a newspaper printing press, Voskian says.The electrodes themselves can be manufactured by standard chemical processing methods.In some soft-drink bottling plants, fossil fuel is burned to generate the carbon dioxide needed to give the drinks their fizz. For example, if the desired end-product is pure carbon dioxide to be used in the carbonation of beverages, then a stream of the pure gas can be blown through the plates.Most methods of removing carbon dioxide from a stream of gas require higher concentrations, such as those found in the flue emissions from fossil fuel-based power plants."This binary affinity allows capture of carbon dioxide from any concentration, including 400 parts per million, and allows its release into any carrier stream, including 100 per cent CO2," Voskian says.".D.The technique, based on passing air through a stack of charged electrochemical plates, is described in a new paper in the journal Energy and Environmental Science, by MIT postdoc Sahag Voskian, who developed the work during his Ph. Its just these very thin sheets, with both surfaces active, that can be stacked in a box and connected to a source of electricity.
The new system could eliminate that need for fossil fuels in these applications, and in the process actually be taking the greenhouse gas right out of the air, Voskian says. The captured gas is then released from the plates and joins the stream. These are coated with a compound called polyanthraquinone, which is composited with carbon nanotubes."The greatest advantage of this technology over most other carbon capture or carbon-absorbing technologies is the binary nature of the adsorbents affinity to carbon dioxide," explains Voskian. The researchers estimate that they can readily improve that to 20,000 to 50,000 cycles. "We have developed very cost-effective techniques," he says, estimating that it could be produced for something like tens of dollars per square meter of the electrode.Compared to other existing carbon capture technologies, this system is quite energy-efficient, using about one gigajoule of energy per ton of carbon dioxide captured, consistently. A few variations have been developed that can work with the low concentrations found in air, but the new method is significantly less energy-intensive and expensive, the researchers say.Alternatively, the pure carbon dioxide stream could be compressed and injected underground for long-term disposal, or even made into fuel through a series of chemical and electrochemical processes., and T. And the system is very easy to scale up, he says: "If you want more capacity, you just need to make more electrodes. In operation, the device would simply alternate between charging and discharging, with fresh air or feed gas being blown through the system during the charging cycle, and then the pure, concentrated carbon dioxide being blown out during the discharging.""In my laboratories, we have been striving to develop new technologies to tackle a range of environmental issues that avoid the need for thermal energy sources, changes in system pressure, or addition of chemicals to complete the separation and release cycles," Hatton says.A study has found out a new way of removing carbon dioxide from a stream of air that could prove as a significant tool in the battle against climate change.As the battery charges, an electrochemical reaction takes place at the surface of each of a stack of electrodes. Similarly, some farmers burn natural gas to produce carbon dioxide to feed their plants in greenhouses. The whole system operates at room temperature and normal air pressure. In the lab, the team has proven the system can withstand at least 7,000 charging-discharging cycles, with a 30 per cent loss in efficiency over that time. The reverse reaction takes place when the battery is discharged -- during which the device can provide part of the power needed for the whole system -- and in the process ejects a stream of pure carbon dioxide.The researchers have set up a company called Verdox to commercialize the process, and hope to develop a pilot-scale plant within the next few years, he says. Other reactions used for carbon capture require intermediate chemical processing steps or the input of significant energy such as heat, or pressure differences. "All of this is at ambient conditions -- theres no need for thermal, pressure, or chemical input.The device is essentially a large, specialised battery that absorbs carbon dioxide from the air (or another gas stream) passing over its electrodes as it is being charged up, and then releases the gas as it is being discharged. By alternating back and forth, the system could always be both capturing and discharging the gas.The new system can work on the gas at virtually any concentration level, even down to the roughly 400 parts per million currently found in the atmosphere. Other existing methods have energy consumption which varies between 1 to 10 gigajoules per ton, depending on the inlet carbon dioxide concentration, Voskian says."In a working plant -- for example, in a power plant where exhaust gas is being produced continuously -- two sets of such stacks of the electrochemical cells could be set up side by side to operate in parallel, with flue gas being directed first at one set for carbon capture, then diverted to the second set while the first set goes into its discharge cycle
There’s more to her than meets the eye
2020年11月13日"This will ensure that more people know about my work while adding credibility to it. Low grades affected their self confidence and they dropped out of schools to pursue menial tasks," notes Nikhiya.Her biggest challenge, she says, is time management. She has worked tirelessly since she was barely 12, setting up science and math labs in schools and primary colleges that don’t have them through her philanthropic project, Yearn to Learn. I can’t be ignoring my own studies and advocating education to others," she says hoping to explore her love for physics, growing up. "I’ve to put in more effort to catch up with my studies. It is simply a statistical advantage.
There’s more to her than meets the eye – she sculpts, she’s humble about her stress-buster – archery that she’s represented Karnataka in, she has authored a book propagating the value of education called The Secret of Ada’s Wisdom AND funds blind children’s education on the side.For her, the honour that recognises the efforts of youngsters in creating positive social changes in their communities and countries wasn’t just being picked from 12,000 nominations worldwide. Nikhiya Shamsher with Prince Harry and William at James Palace in London Giving back to the society is always at the back of everybody’s mind, but Nikhiya Shamsher never assumed age to be a barrier to start out. Some people see that as a burden, I see a huge opportunity. "Senior students hadn’t conducted a single experiment during their entire school year and learnt them through books. The feather in her cap? Their grades have shot up by 30%, she tells us.The teenager stumbled across shocking data that made her https://www.jinduhardware.com/product/hex-nut/ realise that entire classrooms of 50 children shared a single textbook, most walked barefoot to school and school bags to carry books were a luxury. Fourteen-year-old Bengaluru girl Nikhiya’s efforts are starting to pay off. "The world’s population is seven billion.This teenager has been honoured with the prestigious Diana Legacy Award for her philanthropic work in education. They often fared badly in exams. She was recently honoured with the prestigious Diana Legacy Award, an award that she received from Prince William and Harry at St James’s Palace in London.With her parents onboard and by delegating tasks to her friends and volunteers, she has set up 15 laboratories from which at least 3,500 kids benefit. Someday a student from one of my Yearn to Learn Labs will become the next Edison or Einstein and that would make me very proud," smiles a hopeful Nikhiya, the spark in her eye, striking. More than anything, it tells me that I am on the right track," says the ninth grader from Greenwood High School, with a quiet confidence. If we can get even 10% more students in technological fields, we can solve a lot that plagues us today – climate change, scarce resources and conflicts
There’s more to her than meets the eye – she sculpts, she’s humble about her stress-buster – archery that she’s represented Karnataka in, she has authored a book propagating the value of education called The Secret of Ada’s Wisdom AND funds blind children’s education on the side.For her, the honour that recognises the efforts of youngsters in creating positive social changes in their communities and countries wasn’t just being picked from 12,000 nominations worldwide. Nikhiya Shamsher with Prince Harry and William at James Palace in London Giving back to the society is always at the back of everybody’s mind, but Nikhiya Shamsher never assumed age to be a barrier to start out. Some people see that as a burden, I see a huge opportunity. "Senior students hadn’t conducted a single experiment during their entire school year and learnt them through books. The feather in her cap? Their grades have shot up by 30%, she tells us.The teenager stumbled across shocking data that made her https://www.jinduhardware.com/product/hex-nut/ realise that entire classrooms of 50 children shared a single textbook, most walked barefoot to school and school bags to carry books were a luxury. Fourteen-year-old Bengaluru girl Nikhiya’s efforts are starting to pay off. "The world’s population is seven billion.This teenager has been honoured with the prestigious Diana Legacy Award for her philanthropic work in education. They often fared badly in exams. She was recently honoured with the prestigious Diana Legacy Award, an award that she received from Prince William and Harry at St James’s Palace in London.With her parents onboard and by delegating tasks to her friends and volunteers, she has set up 15 laboratories from which at least 3,500 kids benefit. Someday a student from one of my Yearn to Learn Labs will become the next Edison or Einstein and that would make me very proud," smiles a hopeful Nikhiya, the spark in her eye, striking. More than anything, it tells me that I am on the right track," says the ninth grader from Greenwood High School, with a quiet confidence. If we can get even 10% more students in technological fields, we can solve a lot that plagues us today – climate change, scarce resources and conflicts