Systems. This can help to ensure that your car runs smoothly and effectly.

　　Will be durable and reliable.

　　High-quality and are designed to work perfectly with the very.

　　Car is as safe as postible.

　　

　　

　　Trial took an important step today — — Establish business in Bangladesh. The company announced that BANGLAMARK Corporation will

　　Became their new distributor in Bangladesh and opened a new office in Dhaka, the capital of Bangladesh.

　　The new office held a ribbon-cutting ceremony this morning, and the national and local news media and more than 200 customers and businesses cooperated.

　　Partners attended the ceremony.

　　In the afternoon, a signing ceremony was held in the Utshab Hall of Radisson Water Blue Garden in Dhaka.

　　Michelangelo Amelia, General Manager of FPT Industrial SEA (Southeast Asia), Rob, CEO of BANGLAMARK

　　Steven, executives from two companies and senior government officials from Bangladesh attended the event. The guests also included Yida.

　　His Excellency Enrico Nunziata, Ambassador of Liberia to Bangladesh. Headquartered in Dhaka, BANGLAMARK is one of the leading companies in Bangladesh, specializing in engineering and construction, information and financial technology,

　　He has 20 years of professional experience in the fields of heavy equipment, ship solutions, trade, energy and electricity.

　　The new distribution agreement will make FPT Indus

　　Trial’s customers can equip their ships with more powerful engines and will help meet Bangladesh’s energy needs.

　　"BANGLAMARK became our distributor in Bangladesh, and this is FPT Indus.

　　Trial is the first step to build a strong footprint here, "Michelangelo Amelia said," FPT Indus.

　　Trial’s excellent Cursor and NEF engines will provide the perfect solution for customers seeking durability and reliability in Bangladesh.

　　Final plan. "

　　Rob Steven added: "We have brought 150 years of professional experience and quality products to the Bangladesh market. We look forward to

　　Work with FPT Industrial to provide power for the future. "

　　

　　The materials for TEM-8 mainly come from British and American newspapers, magazines, radio stations or websites. One of them includes: TED talk, and Mini-lecture in 2018 and 2016 comes from TED talk. I suggest you watch and listen to TED talk more often.

　　Speaker: Alex Laskey

　　Topic: how behavioral science can lower your energy bill

　　How many of you have checked your email today? Come on, raise your hands. How many of you are checking it right now?

　　How many of you checked your mailbox today? Come on, hands up. How many people are checking it now?

　　And how about finances? Anybody check that today? Credit card, investment account? How about this week?

　　What about the fund account? Has anyone checked it today? Credit cards, investment accounts? Have you checked this week?

　　Now, how about your household energy use? Anybody check that today? This week? Last week? A few energy geeks spread out across the room. It’s good to see you guys. But the rest of us — this is a room filled with people who are passionate ab out the future of this planet, and even we aren’t paying attention to the energy use that’s driving climate change.

　　What about household energy use? Has anyone checked that today? This week? What about last week? There are some energy geeks in this room. Nice to meet you. But the rest of us, this is a room full of people who are passionate about the future of this planet, but we don’t care about the energy consumption that causes climate warming.

　　The woman in the photo with me is Harriet. We met her on our first family vacation. Harriet’s paying attention to her energy use, and she is decidedly not an energy geek. This is the story of how Harriet came to pay attention.

　　The woman with me in this photo is Harriet. We met her on our first family holiday. Harriet is paying attention to her energy use. There is no doubt that she is not an energy geek. This is the story of why Harriet pays attention to energy.

　　This is coal, the most common source of electricity on the planet, and there’s enough energy in this coal to light this bulb for more than a year. But unfortunately, between here and here, most of that energy is lost to things like transmission leakage and heat. In fact, only 10 percent ends up as light. So this coal will last a little bit more than a month. If you wanted to light this bulb for a year, you’d need this much coal.

　　This is coal, the most common power source on the planet. There is enough energy in this coal to make this light bulb light for more than a year. Unfortunately, in the process from here to here, most of this energy was lost because of conduction loss and heat release. In fact, only 10% of energy is finally released in the form of light energy. So this coal can only last for a little more than a month at most. You need so much coal if you want to light this light bulb for a year.

　　The bad news here is that, for every unit of energy we use, we waste nine. That means there’s good news, because for every unit of energy we save, we save the other nine. So the question is, how can we get the people in this room and across the globe to start paying attention to the energy we’re using, and start wasting less of it?

　　The bad news is that for every 10% of the energy we use, we waste 90%. This also means that there is good news, that is, for every 10% energy we save, we save the remaining 90%. The question is, how can we make people in this room and people all over the world pay attention to the energy we use and start to reduce waste?

　　The answer comes from a behavioral science experiment that was run one hot summer, 10 years ago, and only 90 miles from here, in San Marcos, California. Graduate students put signs on every door in a neighborhood, asking people to turn off their air conditioning and turn on their fans. One quarter of the homes received a message that said, did you know you could save 54 dollars a month this summer?

　　The answer comes from a behavioral science experiment, which was conducted on a hot summer day ten years ago, only 90 miles away in San Marcos, California. Graduate students made a message on every door in a certain block, telling people to turn off the air conditioner and turn on the electric fan. A quarter of families received a message saying, Do you know? You can save $54 a month this summer?

　　Turn off your air conditioning, turn on your fans. Another group got an environmental message. And still a third group got a message about being good citizens, preventing blackouts. Most people guessed that money-saving message would work best of all. In fact, none of these messages worked. They had zero impact on energy consumption. It was as if the grad students hadn’t shown up at all.

　　Just turn off the air conditioner and use the electric fan. The other group received messages about the environment. The message the third group got was to be a civilized citizen and prevent power failure. Most people think that messages that save money will be the most effective. In fact, none of the messages worked. They don’t care about these energy consumption problems. It’s as if graduate students haven’t posted these messages.

　　But there was a fourth message, and this message simply said, "When surveyed, 77 percent of your neighbors said that they turned off their air conditioning and turned on their fans. Please join them. Turn off your air conditioni ng and turn on your fans." And wouldn’t you know it, they did. The people who received this message showed a marked decrease in energy consumption simply by being told what their neighbors were doing.

　　But there was a fourth message, which simply said, "The survey found that 77% of your neighbors said they turned off the air conditioner and started using electric fans. Please join them. Turn off the air conditioner and turn on the electric fan. " Do you believe it or not? They did it! The people who received this message significantly reduced their energy consumption. Just because I told them what the neighbors were doing.

　　So what does this tell us? Well, if something is inconvenient, even if we believe in it, moral suasion, financial incentives, don’t do much to move us — but social pressure, that’s powerful stuff. And harnessed correctly, it can be a powerful force for good. In fact, it already is.

　　What does this tell us? Well, if something is inconvenient, even if we believe it, moral persuasion and economic encouragement will not make us act, but social pressure is strong. If used correctly, it can be a powerful positive energy. In fact, it already is.

　　Inspired by this insight, my friend Dan Yates and I started a company called Opower. We built software and partnered with utility companies who wanted to help their customers s ave energy. We deliver personalized home energy reports that show people how their consumption compares to their neighbors in similar-sized homes.

　　Inspired by this, my friend Dan Yates and I started planning a company called "Opower". We develop software and cooperate with public utility companies, which also want to help their customers save energy. We publish personalized home energy reports to show people how much they consume compared with their neighbors with similar houses.

　　Just like those effective door hangers, we have people comparing themselves to their neighbors, and then we give everyone targeted recommendations to help them save. We started with paper, we moved to a mobile application, web, and now even a controllable thermostat, and for the last five years we’ve been running the largest behavioral science experiment in the world.

　　Just like those effective messages posted on the door, we ask people to compare themselves with their neighbors and then give targeted suggestions. Help them save. We started with paper, then mobile phone applications, internet, and now even controllable thermostats. In the past five years, we have started the largest behavioral science experiment in the world.

　　And it’s working. Ordinary homeowners and renters have saved more than 250 million dollars on their energy bills, and we’re just getting started. This year alone, in partnership with more than 80 utilities in six countries, we’re going to generate another two terawatt hours of electricity savings.

　　It worked. Ordinary homeowners and renters have saved more than $250 on their energy bills, when we were just beginning. Just this year, we have cooperated with more than 80 public institutions in six countries, and we are trying to save another two terawatt-hours (100 million kWh) of electricity.

　　Now, the energy geeks in the room know two terawatt hours, but for the rest of us, two terawatt hours is more than enough energy to power every home in St. Louis and Salt Lake City combined for more than a year. Two terawatt hours, it’s roughly half what the U.S. solar industry produced last year.

　　Now, the energy geeks in the house know two terawatt hours, but for us, the remaining two terawatt hours can be used by every household in St. Louis and Salt Lake City for more than a year. Two terawatt hours, about half of the annual output of American solar factories last year.

　　And two terawatt hours? In terms of coal, we’d need to burn 34 of these wheelbarrows every minute around the clock every day for an entire year to get two terawatt hours of electricity. And we ‘re not burning anything. We’re just motivating people to pay attention and change their behavior.

　　Just two terawatt hours? If we switch to coal, we need to burn 34 wheelbarrows of this kind of coal every minute, 24 hours a day for a whole year, in order to get two terawatt hours of energy. However, we don’t burn anything, we just inspire people to pay attention and change their behavior.

　　But we’re just one company, and this is just scratching the surface. Twenty percent of the electricity in homes is wasted, and when I say wasted, I don’t mean that people have inefficient lightbulbs. They may. I mean we leave the lights on in empty rooms, and we leave the air conditioning on when nobody’s home.

　　But we are just a company, and these are just a drop in the bucket. 20% of the energy in a family is wasted. When I say wasted, I don’t mean that people install some useless light bulbs. They can have it. I mean, we leave lights on in empty rooms, and we still turn on the air conditioner when no one is at home.

　　That’s 40 billion dollars a year wasted on electricity that does not contribute to our well-being but does contribute to climate change. That’s 40 bill ion — with a B — every year in the U.S. alone. That’s half our coal usage right there.

　　The $40 billion wasted every year has not contributed to building a well-off society in an all-round way, but it will lead to climate change. That’s $40 billion, in America alone. Half of our coal was used there.

　　Now thankfully, some of the world’s best material scientists are looking to replace coal with sustainable resources like these, and this is both fantastic and essential. But the most overlooked resource to get us to a sustainable energy future, it isn’t on this slide. It’s in this room. It’s you, and it’s me. And we can harness this resource with no new material science simply by applying behavioral science. We can do it today, we know it works, and it will save us money right away.

　　Now, fortunately, some of the best materials scientists in the world are looking for sustainable energy instead of coal. Like these, this is amazing and necessary. But most neglected resources lead us to the future of sustainable energy, and the people who can do this are not on this screen. But in this room, you and me. We can make use of this resource without using the latest material science and technology. We can do it today, we know it is feasible, and it will save us money immediately.

　　So what are we waiting for? Well, in most places, utility regulation hasn’t changed much since Thomas Edison. Utilities are still rewarded when their customers waste energy. They ought to be rewarded for helping their customers save it.

　　Then what are we waiting for? Well, in most places, the regulation and utilization of energy has not changed much since Edison’s time. Public utilities have been rewarded for customers wasting energy. But they should be rewarded for helping customers save energy.

　　But this story is much more than about household energy use. Take a look at the Prius. It’s efficient not only because Toyota invested in material scie nce but because they invested in behavioral science. The dashboard that shows drivers how much energy they’re saving in real time makes former speed demons drive more like cautious grandmothers.

　　But this story is much more than just about the energy use of the family. Look at this Toyota Prius. It is very efficient, not only because Toyota invested in materials science, but also because they invested in behavioral science. The dashboard tells drivers how much energy they have saved in real time. Make the previous speed devil more like a cautious grandmother.

　　Which brings us back to Harriet. We met her on our first family vacation. She came over to meet my young daughter, and she was tickled to learn that my daughter’s name is also Harriet. She asked me what I did for a living, and I told her, I work with utilities to help people save energy. It was then that her eyes lit up.

　　This brings us back to Harriet’s story. We met her on our first family holiday. She came to see my little daughter, and she was glad to learn that my daughter’s name was Harriet, too. She asked me what I do, and I told her that I work with public institutions to help people save energy. Just then her eyes lit up.

　　She looked at me, and she said, "You’re exactly the person I need to talk to. You see, two weeks ago, my husband and I got a letter in the mail from our utility. It told us we were using twice as much energy as our neighbors."

　　She looked at me and said, "You are the very person I want to communicate with. You see, two weeks ago, my husband and I received a letter from our public utility. Tell us that we use more than twice as much energy as our neighbors. "

　　"And for the last two weeks, all we can think about, talk about, and even argue about, is what we should be doing to save energy. We did everything that letter told us to do, and still I know there must be more. Now I’m here with a genuine expert. Tell me. What should I do to save energy? "

　　"In the past two weeks, all we thought, discussed and even argued was what we should do to save energy. We did everything the letter told us, and I knew there must be more. Now I am standing here with a real expert. Tell me. What should I do to save energy? "

　　There are many experts who can help answer Harriet’s question. My goal is to make sure we are all asking it.

　　There are many experts who can answer Harriet’s questions. My goal is to make sure that everyone will ask this question.

　　Thank you.

　　Thank you.

　　Remark: All rights and interests belong to TED. More information about TED can be found in www.ted.com, official website!

　　Disclaimer: All articles are reproduced except those with original authorization, and the copyright belongs to the original author or platform. If there is any infringement, please contact backstage and tell me to delete it. Thank you.

　　TED college collection

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　　Twenty

　　Twenty-one

　　

　　is plaguard with a number of myths and misconceptions, just like the inject molding process items.

　　Running Into All Kinds of Production PrivateMs and Quality issues during the mold-maching process.

　　Which Heat is exclosive. It’s only logical that if the plastic do fees notze uniformly, the mold will be usedless for all insposes.

　　"General, Other Techniques are used for propotyping, but the major issues without that is the lack of resemblance with the final product.

　　Will enable you to get a feel for the Finished Product, so that you can make need,

　　

　　Evaluation, Adjustments, and so forth. Hence, it only makes ance to employ highly experiene cnc operators who can minimize scrap and arm with the best machnes in the this.

　　

　　Four Key areas of the Machine Are Responsible for Low AMounts of Waste Plastic — The Gate Locations, Runners, Sprue, And the Cavity, where excwine,

　　

　　Your End Product Can Be Greatly Determined Before Production Even Begins.

　　Follow that size thermoplastic inject Molds Advice, Optimizing Your ManuFacturing thermoplastic Injection Molds PROCES WILL BE A CAKEWALK.

　　About the author

　　

　　Feng Zhiqiang, chairman of the sub-venue.

　　He is currently the vice president of Trina Solar and the director of the State Key Laboratory of Photovoltaic Technology. Part-time professor of Sun Yat-sen University, doctoral supervisor of Changzhou University, deputy director of Photovoltaic Professional Committee of China Renewable Energy Society, and member of National 863 Program Expert Group. Participate in the "Jiangsu Innovation and Entrepreneurship Leading Talents Program". He holds Ph.D. and Master’s degrees in materials science from Yokohama National University, Japan, and works as a postdoctoral fellow at Iowa State University, USA. Dr. Feng has worked as a research and development engineer and scientist in Japan, American National Laboratory and top semiconductor companies for more than 20 years. In 2015, he won the China Photovoltaic Achievement Award. His research interests are the reliability of high-efficiency crystalline silicon solar cells and photovoltaic modules and photovoltaic products. He has published more than 120 papers and obtained 10 patents.

　　Zhang Zhen, chairman of the sub-venue

　　Mainly engaged in high-efficiency photovoltaic systems and photovoltaic reliability research. He focuses on the research and development of Trina Solar photovoltaic projects, including special solar module and module materials, solar module efficiency and hybrid photovoltaic systems. As a postdoctoral researcher in the photovoltaic reliability team of the National Renewable Energy Laboratory. He graduated from China Academy of Sciences and received his Ph.D. from Sun Yat-sen University, specializing in photovoltaic research. He has served as the head of module research and development team in Trina Solar Energy Co., Ltd. and Solar Energy Company, and has guided many projects such as low series resistance module, low power consumption module, service life of module packaging materials, BIPV module development and smart photovoltaic module and system research.

　　Atsushi Masuda, Chairman of the Sub-venue

　　Atsushi Masuda received his Ph. D degree inEngineering from Kanazawa University, Japan in 1996. In 1996 he joined School of Materials Science, Japan Advanced Institute of Science and Technology and in 2005 hejoined Research Center for Photovoltaics, National Institute of Advanced Industrial Science and Technology. He iscurrently a Deputy Director, Research Center for Photovoltaics, National Institute of Advanced Industrial Science and Technology. His main research field is solar-cellmaterials and reliability of photovoltaic module s. He was a member of Steering Committee of 6thWorld Conference on Photovoltaic Energy Conversion and a member of Steering and Organizing Committees o f 27th International Photovoltaic Science andEngineering Conference. He is an authorand co-author of over 200 technical papers and conference papers. He has applied for over 50 foreign anddomestic patents. He is a senior memberof the Japan Society of Applied Physics, the Ceramic Society of Japan, theJapan Society of Vacuum and Surface Science, and the Institute of Electronics,Information and Communication Engineers.

　　Sarah Kurtz, Chairperson of the breakout session.

　　Dr. Sarah Kurtz received her PhD from Harvard University in Chemical Physics in 1985 with Roy Gordon. She moved directly tothe Solar Energy Research In stitute (now the National Renewable EnergyLaboratory, NREL) where she has worked for more than 30 years on a variety ofsolar energy projects. She is known for her contributions to developing multijunction, GaInP/GaAs solar cells, supporting the Concentrator Photovoltaic(PV) industry, and, more recently, her work with PV performance andreliability. Her work has been recognized with a jointly received Dan David Prize in 2007, the Cherry Award in 2012, and the C3E Lifetime Achievement Award in 2016. In late 2017 she transitioned to a faculty position at the University of California at Merced, while continuing work with NREL.

　　Session 10 (tentative schedule)

　　Session 1: November4th 13: 30-16: 00.

　　Moderator: Zhang Zhen

　　Invitation report

　　13: 30-13: 50 Max B. Koen Topp Han Wha Q Cells R&D Analysis & Modeling Team Leader

　　Subject of report: to be determined

　　oral report

　　13:50-14:05 Chengying Shi

　　Report topic: Effect of high wind speed dust on silicon photovoltaic modules performance.

　　14: 05-14: 20 Dr. Pei-Chieh Hsiao, University of New South Wales (UNSW)

　　Topic of the report: The RMO mechanical stress in glass-glass modules of half silicon solar cells interconnected by preventive tabbing.

　　14: 20-14: 35 Yoshihiro Hishikawa (AIST) invited researchers.

　　Report topic: performance monitoring of PV modules and arrays for reliability evaluation.

　　14:35-14:50 Yating Zhang

　　Topic of the report: The Irradiance Mismatch Effects on the Performance of Bifacial Photovoltaic Modules.

　　14: 50-15: 05 Dr. Juan Camilo Ortiz Liz Cano Delft University of Technology

　　Topic of the report: thermal management of PV modules: passive cooling solutions for front and back surfaces.

　　15:05-15:20 Yunlinsun

　　Topic of the report: Study on Simulation and Optimization for Output Characters of Bifacial PV Modules Based on Outdoor Empirical Tests.

　　15:20-15:35 Marco Ernst, Research Fellow, Australian National University

　　Report topic: Impact of (multi-) bus bar design in full and half cell modules on the cell-to-module yield under realistic conditions.

　　15:35-15:50 Peide Han

　　Report topic: physical mechanism and temperature control of shaded solar cell hot-spot

　　Session 2: November6th 8: 30-10: 00.

　　Moderator: Feng Zhiqiang.

　　Invitation report

　　8:30-8:50 Yasuaki Ishikawa, Associate Professor, Nara Institute of Science and Technology, Japan

　　Topic of the report: Detailed analysis of potential induced degradation in p-type crystalline silicon photovoltaic modules.

　　He worked as a postdoctoral researcher at the Institut Fur Physiikalische Elektronik in Stuttgart University, Germany, studying wearable photovoltaics. Since 2005, he has been engaged in postdoctoral research in the Department of Physics and Astronomy, University of Toledo, USA, studying multi-junction amorphous silicon solar cells. In 2006, he joined Sharp Corporation in Japan, engaged in solar cell research. Since 2010, he has been an associate professor at the Graduate School of Materials Science, Nara Institute of Science and Technology, Japan. The current research fields include the application of nanostructures in energy harvesters, printing electronics, processing of oxide materials and devices, and photoelectric reliability.

　　oral report

　　8: 50-9: 05 Yujino, researcher, National Institute of Advanced Industrial Science and Technology (AIST)

　　Subject of the report: lifetime prediction of crystalline SiPV modules under UV-hydrothermal stress.

　　9:05-9:20 Zhao Wu

　　Report topic: Statistical modeling of UV induced PV module power degradation based on acceleration tests.

　　9: 20-9: 35 Senior Research Fellow, National Science and Technology Development Bureau, Amornrat Limmanee

　　Topic of the report: A simple method to estimate degradation rates of photovoltaics without infrared data.

　　9: 35-9: 50 TV Senior Technical Engineer of Beide Group

　　Subject of the report: Reliability

　　9:50-10:05 Hao Song

　　Report topic: indoor accelerated aging test for silicon PV module with a combined procedure of thermal cycling and high intensity infrared.

　　Session 3: November6th 10: 30-12: 00.

　　Moderator: Atsushi Masuda

　　Invitation report

　　10: 30-10: 50 Senior Vice President and CTO of Artes Solar Photoelectricity (Suzhou) Co., Ltd.

　　Subject of report: to be determined

　　He has more than 20 years of research and development experience in photovoltaic and semiconductor industries. In Artes Solar Photoelectricity (Suzhou) Co., Ltd., he led the technical team to successfully launch large-scale production technologies such as single crystal and polysilicon wafers and dual-cell module, many of which have become mainstream technologies in the photovoltaic field. He won the first prize of Shanghai Science and Technology Innovation Award, the chief scientist of China 863 project, and the member of photovoltaic committee of China Renewable Energy Society. Has more than 50 invention patents.

　　oral report

　　10:50-11:05 Yan Yang

　　Topic: Research on Optimization of Structured Ribbon for Photovoltaic Module

　　11:05-11:20 Bing Gao

　　Topic: performance and degradation comparison for long-term reliability of diverse kinds of photovoltaic modules in the east of China.

　　11:20-11:35 Ji.Xia Du Pont Technical Fellow

　　Report topic: evaluation long-term reliability of solar module and its components by field study.

　　11:35-11:50 William Gambogi DuPont Technical Fellow

　　Report topic: performance and durability of transparent back sheets for bilateral PV modules.

　　11:50-12:05 Chunhua Zhong

　　Topic of the report: the study on let id of monocrystal cz-silicon

　　12: 05-12: 20 Researcher James Ma3m

　　Topic: optimization of silicon PV modules for power/yield and durability using light redirecting films.

　　Session 4: November7th 10: 30-12: 00.

　　Moderator: Sarah Kurtz

　　Invitation report

　　10: 30-10: 50 Dr. Researcher, Taeko Semba Namics Corporation

　　Report topic: Correction mechanisms of the front-side metallization by high-temperature high-humity test on crystalline SiPV module.

　　In 2009, he received a doctorate in solid state physics from Ibaraki University. Joined NAMICS in April 2009. Participate in the development of metallization paste for P-type silicon and back contact solar cells. Since 2016, the main research focus has been on the reliability of the front metallization paste. In June 2018, he won the Best Poster Award of wcpec7 Poster Award for "Glass Corrosion and Lead Compound Formation during Metallization of Crystalline Silicon Photovoltaic Module in High Temperature and High Humidity Test".

　　10:50-11:10Nikos Kopidakis, scientist, National Renewable Energy Laboratory, USA

　　Report topic: low uncertainty PV module calibrations

　　oral report

　　11:10-11:25Takehiro Yoshida, a student of Tokyo University of Science and Technology, Japan.

　　Report topic: quantitative evaluation of outdoor degradation rate of PV system by analyzing output current, voltage and power.

　　11: 25-11: 40 Dr. Pei-Chieh Hsiao, University of New South Wales (UNSW)

　　Report topic: balanced contact method to reduce the RMO mechanical stress in silicon solar cells induced by interconnection.

　　11: 40-11: 55 Researcher Keiichiro Sakurai (AIST)

　　Report topic: Recovery of CIGS solar cells from PID stress with spectrally selective illumination and light Soaking.

　　11:55-12:10 Bill J.J. Liu Miasole Director

　　Topic of the report: establishing the long-term reliability performance of flexible PV modules from accelerated testing.

　　

　　a Hollywood bungalow. "Les doesian’t care money he has.

　　At the "les fest," And on Jan. 22 He was honored at les blank Day in Berkeley, where he lived for more thanears.

　　Thought it was the best film on music I had ever seen. He get stuff that nobody else gets. "

　　USC.

　　"People TOOK Notice Because It was something they had never see," luddy said.

　　This was in the days beface independent file, and the 31-minute portrait was shown atfestivals, museums and on television, launching blank’s career.

　　Of the festival "at the San Francisco International Film Festival and WAS NAMED The Best Feature Documentary by the British Academy of Film and Television Arts.

　　AU Bale, "About the Cajun and Creole Culture in Louisiana.

　　"HE HAD A WONDERFUL, EXTRAORDINRY EYE," Said Strachwitz, Whose Tight Time and Money Frame was often at ODDS With Blank’s "Fly on the Wall" Filmmaking Strategy.

　　be aggressive and get an overall projecting. ""

　　God Respects us when we work but loves us when we dance, "" Dry Wood, "" HOT PEPPER, "" In Heaven THERE is No Beer? "

　　Audience. "

　　Year, and it users, is given to a conceptual artist.

　　

　　

　　. Blank Blamed the Smoking.

　　"Every day he is hike the neighborHoods of Berkeley. That’s why he is here. He liked to go on Major Hikes on the weekend.

　　HIS LAST HIKE in Tilden Park Was in Jury, and Even as his health failed he was well-.

　　"He kept walking until he just couldn’t walk anymore," Said Harrod Blank.

　　He kept working, too. At the time of his deth, he had two two projects going, one on an alabama folk artist and the Other on a fellow documentarian.

　　"Those Films Just NEED to Be Edited," Said Harrod Blank. "If He Kept Living, that would have happy in the next year or two."

　　His best-known and most-loved clips.

　　"IT Summarized some of his amazing accomplishments," said strachwitz, who was there.

　　

　　One of the keys getting the desired bend angle is to design the day.

　　Called it) and the Die Die.

　　At my career, I undertood that it worked, but not why it worked. Today, having about 40 More Years of Experience, I Will Explain why.

　　

　　

　　

　　Doing so controls the amount and sectity of the coining in the Radial Area.

　　Beyond 90 DEGREES TO AN Acute Angle (See Figure 2).. All of the strain is the product of nature CCCURRING THEATAPENS DUNDING The METAL BeENDING PROTESS.

　　

　　One Disadance of a Rotary Bender is that It used the uses mechanical motion to create the bend, so it requires periodic maIntennce to ensure precis, Low-FricTion Rotation.

　　additional coining.

　　

　　With the strong support by domestic and international associations and media and all the staff’ s effort, GWHE goes smoothly. You can see from the following three aspects:

　　1/ Media Profile:

　　More than 200 organizations and associations support GWHE, which are from China, America, India, Malaysia, Germany, Span, Pakistan, South Africa, England, Korea, Singapore,Canada, Nigeria and so on.

　　Featured Media:

　　International Solar Energy Society

　　ERA Solar Magazine

　　2/ Exhibitor Profile:

　　Over 90 enterprises have become our exhibitors, such as Haier, ISES, Rheem, etc.

　　Exhibiting products:

　　Heat pump product and equipment

　　Solar water heating equipment

　　Electric water heater

　　Gas water heater

　　Related accessories and equipment, water management system, hot water solution, energy-saving hot water project, etc.

　　3/ Visitor Profile:

　　About 1500 domestic and 120 overseas companies have registered to visit GWHE2012.

　　According to the statistics, 71% of them are interested in solar and heat pump water heater, 20% would like to purchase electric water heater and gas water heater, and others want to see water purification system, boiler, and latest hot water solution.

　　More good news is updating!

　　If you want to be exhibitor or visitor of GWHE2012, please feel free to contact us.

　　Best regards

　　Jacob Kong

　　GWHE 2012 Organizing Committee

　　Mobile: + 86 13416279371

　　Fax: +86 20 82579220

　　Email: Marketing4@grandeurhk.com

　　Web: http://www.whstgz.com

　　

　　The Extube⑩ Series from Martin Professional ( http://www.martin.dk ) is a modular system of IP65 rated linear LED luminaires designed for dynamic illumination of outdoor architecture and much more. With RGB+W color mixi ng, a choice of opaque lenses and an exceptionally easy means of installation, Extube is ideal for a variety of dynamic illumination needs including floodlighting, wall-grazing, cove lighting or creating continuous lines of decorative color, inside or out.

　　Slim and compact yet surprisingly powerful, Extube is available in two lengths; 30 cm (1 ft, 12 LEDs) and 120 cm (4 ft, 48 LEDs). A simple all-in-one dynamic lighting solution, Extube is weatherproof rated at IP65 for the outdoor illumination of facades, structures, bridges, cruise ships and more.

　　Made of robust extruded aluminum, the Extube’s slim aesthetics allows the luminaire to blend inconspicuously into existing architecture. It is also an ideal decorative lighting effect for clubs and lounges and will fit perfectly into TV, theatre and touring shows.

　　Extube includes a number of key features that cannot be found in any other dynamic linear fixture on the market today. The high-output luminaire is bri ghter than other LED luminaires in its class. With a lamp life rating of 20,000 hours and no movable parts, service intervals are few and far between.

　　The Extube comes with a choice of narrow, medium and wide diffuser options, or it can be used without a diffuser for an even narrower beam. The standard spread angle is narrow for long throws and the module is tiltable for precise optical aiming.

　　If ambient temperatures are too high, output from the LEDs is automatically decreased. This extends the lifespan of the diodes, and ensures that output is maintained at the optimum level.

　　A central feature of the Extube is its ability to create even and consistent colors. Each pixel board has been measured and calibrated, guaranteeing standardized brightness and color performance.

　　With four colored diodes (Red, Green, Blue and White) instead of the usual three, Martin is able to offer a broader and finer range of colors. The Extube’s RGB+W diodes excel at creating deep, saturated colors and the addition of the white LED gives several advantages: a true white, the ability to adjust color temperature, and the possibility to create soft pastel shades.

　　The Extube offers greater intuitive control of color, with four distinct control modes. In addition to RGB (three channel) and RGBW (four channel) color fine-tuning, HSI (Hue, Saturation, Intensity) lets you set the effect you want by scrolling through hues, altering their saturation and changing their intensity. HSI-C adds color temperature control to the intuitive benefits of HSI. The Extube is controlle d by industry standard DMX 512-A. For greater flexibility, the long version can be controlled either as 4 single pixels or as one pixel.

　　The Extube is 0-100% dimmable for balance of brightness or the ability to respond intelligently to the availability of natural light.

　　Installation of the Extube is as easy as it gets. The simple click-together system slides onto standard DIN rail. There is no need for an external power supply or control box unit; everything is built into the Extube, reducing logistical costs and hassle. Furthermore, Extube automatically auto-addresses during set-up.

　　The Extube is built up around modular, interconnectable units. The simple click-together system has cable-less loop-through of data and power, which limits set-up time, reduces cable mess and ensures a clean look.

　　The luminaire is convection cooled so no fans or other moving parts are used, and the Extube comes with a switch mode power supply for worldwide compatibility. Rigorously tested and CE, ETL & CETL approved, the Extube is built for simplicity.