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"Retreatant Registration Form www.skdemmaus.org β [email protected] Please fill up this form using print letters to ensure all information is correctly registered. YES!!! I want to register myself to participate in the next Emmaus Retreat for Women at ο¨ All activities in this Retreat will be held in English. \nFull Name: Home Address: City State ZIP e-mail \n Home Phone Number Cell or Alternate Phone Number In case of any Emergency, call: \nName Relationship Phone Number \n (husband, son, daughter, β¦) The cost of the Retreat is US$ 200.00 (two hundred US dollars). \nIt covers lodging (2 nights), all meals, transportation to and from the Retreat House, and all \nnecessary material for you to enjoy the Retreat. The size of my shirt should be: β‘ Small (S) β‘ Medium (M) β‘ Large (L) β‘ Extra-Large (XL) β‘ Double-Extra Large (XXL) I will pay the $200.00 registration fee with: \nβ‘ Check β‘ Credit Card β Sign to authorize it: _________________ \n Please issue your check to Credit Card Type: MasterCard or Visa St Katharine Drexel with Credit Card Number: ________________________________ βEmmaus English Womenβ Name on Credit Card: _______________________________ on Memo field. Expiration Date: ________/________ CVV: ____________ g y\np p St. Katharine Drexel Catholic Church (Weston, FL) \nβ‘ I am aware that this is a Retreat run by laywomen based on the Roman Catholic faith. Have you been fully vaccinated against the Covid-19? β‘Yes β‘No My current Marital Status is: β‘ Single β‘ Married β‘ Widowed β‘ Divorced β‘ I prefer not to mention it If you have any restrictions in terms of meals or if you need to take medicines, let us know:"
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"HIGH POWER FRONT-END MMICS Project description ICT and telecom sectors will go through another major evolution with the development of new visionary \nconcepts in the higher millimetre-wave (mm-wave) frequency band to support various applications such as \nsensing and security, IoT, autonomous driving, e-health, cloud computing, and virtual reality. This project stems from a successful application approved by the European Organization CELTIC NEXT \nβEnergy-Efficient Radio Systems at 100 GHz and beyond: Antennas, Transceivers and Waveformsβ and \nincludes in total around 30 industrial and academic partners from 3 different countries with the aim to \ndevelop a highly efficient integrated antenna module and RF front-end solution with adaptive waveform \ngeneration in spatial, temporal, and frequency domains for beyond 5G (B5G) wireless communication \ninfrastructure at 100GHz band and support other application sectors such as security & sensing, imaging, \nindustrial IOT, automation etc. There are plenty of technological factors and mechanical challenges in \ndesigning RF hardware and modules around 100 GHz. These factors include cost pressure, higher level of \nintegration, component sharing with current systems and increased system density, and high RF power \ngeneration with lower DC power consumption. As an industrial PhD student in this project, you will conduct \nresearch on high power front-end Monolithic Microwave Integrated Circuits (MMICs). Your research will \naddress innovative PA and switch circuit topologies that enhance energy efficiency and at the same time \nachieve significant output power utilizing state-of-the-art GaAs and GaN semiconductor technologies. Your research will include: β \nEnergy efficient circuit topologies for 100+ GHz operation. β \nDesign, characterization and verification of integrated \ncircuits for mm-wave applications β \nCircuit integration",
null,
"Figure 1. Photograph of a class AB PA Applicant The PhD candidate must have a relevant background from Electrical Engineering, Engineering Physics or \nsimilar corresponding to at least 240 higher educational credits. It is beneficial and a merit if you have \nexperience about microwave electronics and microwave measurements. For pursuing a PhD, it is important \nthat you are motivated of the research topic and that you can take on responsibility of your own research \nand take initiatives. Itβs also expected that you can work independently and being a good team player. \nFurthermore, since communication of research results is a central part of the work, communicative skills in \nEnglish (oral as well as in writing) are vital. As an industrial PhD student you will be employed by the industrial partner (Gotmic) but will follow the PhD \neducational programme at Chalmers University of Technology. The student has the same obligations and \nopportunities as a University employed PhD student but also the industrial support and influence. As an \nIndustrial PhD student, you are also given the benefits of full access to world-class labs for millimeter wave \nmeasurements at Gotmic and Chalmers [https://www.chalmers.se/en/researchinfrastructure/kollberglaboratory/Pages/default.aspx]. Both industrial and academic supervision and, large academic and \nindustrial contact network. Gotmic considers the student a long term investment, and our hope is that the Gotmic AB Arvid Hedvalls backe 4, SE-411 -33 GΓΆteborg, Sweden HIGH POWER FRONT-END MMICS student brings added value for us in terms of knowledge and ideas with the long-term vision of a continued \ncareer with the company. A Swedish PhD is respected worldwide and takes normally five years to pursue. Within this time-frame, \npublications in high impact journals are expected, equivalent to one-year full-time study of courses is \nrequired for a PhD degree and one year of departmental work (teaching and other duties). More \nhere [https://www.chalmers.se/en/research/doctoral-programmes/Pages/default.aspx]. Partners Gotmic AB was founded in 2008 with the vision to bring competitive high-performance mm-wave (50-300 \nGHz) integrated circuits (MMIC and packaged MMIC) to the market and to lower the cost barrier associated \nwith such technology. Gotmic is today positioned as a leading mm-wave component supplier and sells \nannually around 100,000 ICs, the majority used for telecommunication at the E-band, where Gotmic \npresently holds 20% of the global market. The high level of R&D and close collaboration with Chalmers in \nparticular and other partners have created a technological edge towards competitors. Gotmic employs 14 \npeople and had a revenue of 25 MSEK in 2019. At Chalmers we perform world-class research on high-speed electronic components, circuits, and systems \nin the frequency range from 1 GHz to 500 GHz, and beyond. A major part of our research is targeting the \nneed for higher capacity and improved energy efficiency in future wireless communication and sensor \nsystems. Our research is supported by access to state-of-the art semiconductor technologies and \nmeasurement lab facilities. Application Procedure Please send your CV, a personal letter where you introduce yourself, describe your previous experience of \nrelevance for the position (e.g. education, thesis work and, if applicable, any other research activities) and \nyour future goals. Please also include a copy of your bachelor and/or masterβs thesis accompanied by \nattested copies and transcripts of completed education, grades and other certificates, e.g. TOEFL test \nresults. Applications should be sent by email to [email protected]. For questions and further information \nabout the position and project please contact Marcus or Christian. Dead-line for submitting your application \nis February 14th 2021. Incoming applications will be reviewed continuously until the last effective date for \nsubmission. Contacts Marcus Gavell, CTO @ Gotmic AB \nChristian Fager, Professor @ Chalmers University of Technology [email protected] \[email protected] Tel. +46 708 264 448 \nTel. +46 31 772 5047 Gotmic AB Arvid Hedvalls backe 4, SE-411 -33 GΓΆteborg, Sweden"
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"May 2018 Newsletter Rusinga Island \nNearly a decade ago, Theodora Alunga Ayot, one of my college professors and a dear friend, invited a group of \nher former students to join her on a trip to Rusinga Island on Lake Victoria in Western Kenya. While on that first \neye-opening trip, we noticed a couple of ways we thought we could contribute to the work of people committed to \ndeveloping their communities there. Out of that initial engagement, Operation My People and a partnership with \nthe Soul Source Foundation began. \nIn the years and recurring trips from board members and supporters since, we have focused our efforts on \neducational programs and empowerment training for women and girls. In the legacy of our beloved professor \nwho calls friends in her communities in both Kenya and America βmy people,β we organized Operation My People \nto sponsor a cohort of 40 high-school-age scholarship students each year. Weβve also worked with local experts \nand facilitators to establish a series of womenβs groups throughout the region that encourage their participants to \nbuild and embrace their own capacity to improve their lives, to make a living and transform their families and \ncommunities. Weβve also funded a nutrition program and worked with other local agencies to coordinate a sexual \nand reproductive health education program. In more recent years, weβve worked with graduates of Operation My \nPeople as theyβve sought college and vocational training opportunities; helping future nurses, teachers, and \njournalists (among other professions) receive the schooling they need to pursue their chosen careers. \nThis month, Iβll be traveling back to Rusinga Island (for the first time since 2010) as a member of the Soul Source \nFoundation Board. Iβm going there to hear about community successes and learn about current challenges. Iβll \nhave the opportunity to reconnect with friends that I met on earlier trips and meet new friends who are contributing \nto life and development there. Iβll have the chance to hear stories that will help us evaluate how Soul Sourcesβ \nefforts can be better focused and more helpful. Iβm excited for this opportunity and hopeful that it will not only give \nme the chance to reconnect with important, meaningful work, but also experience renewal among friends in a \nplace I have grown to love. \nIβm grateful for this time. Iβm grateful to Arbor Covenant for allowing me the opportunity. I am sure that I will \nreturn with stories of people who are transforming their lives and their community β stories of God at work in the \nPastor Peter Morris Postscript: \nWhile I am away, if you encounter a situation in which you or a loved one require pastoral care, please contact \nMark Hanson (Arbor Covenantβs congregational chair). He will have contact information for a couple of my local \ncolleagues who can meet with you. Arbor News Arbor Covenant Church Madison Wisconsin IMPORTANT ANNOUNCEMENT: Summer Hours Beginning Memorial Day, we will have our worship service at 10:00 AM for the summer. Childrenβs Church will \ncontinue throughout the summer. Congregational Meeting We hope you can join us at the congregational meeting on June 3! Most of the meeting will be set aside as time to \nreflect on who we are as a community, who God is to us, and to discern how we are being called as a \ncongregation. Part of that conversation will be to look at all of the ministries we oversee and consider our \ninvolvement, both as individuals and as a community. The leadership team has had some of these conversations \nwith Pastor Peter, and we are excited to see how God is at work when the whole congregation comes together. Covenant Women \n2018 Booklist \nThe annual Covenant Women book discussion took place at Ann-Brittβs condo in April. The discussion was lively \nas always. Kris prepared the list of submitted books and handed it out to those who were able to attend. The list \nis now posted on the churchβs website and available for anyone who would like to see it. Go to \narborcovenant.org. Under βPast and Present Announcementsβ you will see Covenant Women Booklists. Enjoy! Covenant Women Fall Fellowship \nAll women are encouraged to join other women from the Central Conference at beautiful Covenant Harbor Bible Camp on the shores of Lake Geneva September 14-16. If you would like more information, see Ruth Hallblade as soon as possible. \nEarly Childhood Learning Center Mission Project",
null,
null,
null,
"On the weekend of April 27-28, a hearty group of volunteers from Arbor helped Ms. Joyce make a toddler \nplayground at her daycare center. Ms. Joyce is exceedingly grateful for the help. Now the toddlers will have a \nsafe, clean area to play. Ken Lund submitted these pictures of the completed project. Thank you to all the \nvolunteers. Pete Sjoblum from the Central Conference will facilitate the meeting. Lunch and childcare will be provided!",
null,
"Summer Fellowship Gatherings The Leadership Team is working on planning summer events. We will provide more information on each event \nin the June newsletter. At this point, we will provide you with what we know. If you would like to help with \nplanning an event, please talk to the contact person listed. Picnics: We are planning three church picnics on Thursday evenings in the summer. June 14 β",
null,
"July 12 β and August 9. They will be open to all and neighbors, garden users, and pantry users will \nbe invited. There will be some games and music. Pontoon Ride: Last summer many enjoyed the pontoon ride on Lake Mendota. We will try to reserve for June 19 or 20. Mark Hanson is planning. Zoo: Plan to attend the Zoo Outing on June 25 or 26. All ages are welcome. We will eat lunch before leaving the park. Kris Brown is planning. \nConcert on the Square: We will plan to attend the July 18 concert. All ages",
null,
null,
"are welcome. Jan Gietzel is planning. \nCovenant Harbor Worship- We are planning to attend the Covenant Harbor",
null,
"Worship Service on July 22. The schedule of speakers has not yet been announced. Kris Brown \nwill plan. \n Mallards Game β We will plan to go to an afternoon Mallards Game on July 29 (at 4:05 PM). Pastor Peter will organize this. Covenant Point Triathlon β Covenant Harbor",
null,
"Bible Camp has a triathlon the weekend of August 4-5. See Mark Hanson if \ninterested in participating. Canoe Trip β Mark Hanson is planning a canoe trip August 11-12. Olbrich Gardens β Interested people may visit Olbrich Gardens late in August. No",
null,
"specific date yet. Parish Notes Pastor Peter will be away for the first three weeks of May. Ken Lund will be speaking on May 6, Joyce Boggess \nwill be speaking on May13 and Rev. Peter Sjoblom from the Central Conference will speak on May 20. \nAnniversaries May 8 \nDebby Meyer \nMay 22 \nJohn and Sue Pecotte May 8 Sarah Howard \nMay 25 \nKen and Elrene Lund May 24 \nJanis Hanson May 25 \nJohn Pecotte Volunteer Ministries Hosts \nChurch Reader \nProjector May 6 \nChuck and Jan \nGietzel May 13 \nDeb Levin and \nMichelle Stachowiak Amanda Pecotte \nBoggess Mark \nFledderjohann Rachel \nWoofter Ruth \nKeillor Elrene \nPecotte Chuck \nStachowiak May 20 \nTamsin Ford \nAmanda Pecotte May 27 \nAnn-Britt Keillor and \nUlrika Swanson Childrenβs Ministries Ulrika \nSwanson This week is the last Friday Fun Night for the school year. We will start again in the fall. Thanks to all those \nwho helped and supported the program this year! \nSummer camps at Harbor and Point are filling up fast! Check the websites for availability, \nand talk to Rachel about registration and fees. We have money available to help everyone get to camp! \nSummer programming for kids: There will be no VBS this summer. Instead, \nwe want to embrace our whole church community and beautiful grounds! We will be \nhaving monthly picnic dinners at church, followed by a short story & activity together. \nStay tuned for more details, but for now save the dates: June 14, July 12, and August 9. Prayers \n-The kids of Arbor, that they would know God. \n-The parents at Arbor, that they would have wisdom and peace as they parent \n-The volunteers who work with our kids and help them to come to know God. Good Neighbors Personal Essentials Pantry Item of the Month: Skin Lotion (10 oz.) Please leave donations in the box in the front hallway. Thank you. May Calendar",
null,
"7 6 \n9:15 AM Sunday \nStudy Group \n10:25 AM Gathering \n10:30 AM \nCall to Worship \nDeacon Offering 6:30 \nTeam 10:00 AM-noon \n5:30 PM-7:00 \nPM Kids Fun \n10:00 AM-noon \nPantry 18 \n10:00 AM-noon \nPantry 25 \n4:30 AM-7:00 \nShelter @Grace \nEpiscopal * \n10:00 AM-noon \n10:00 AM-noon \nPantry 10 \n7:00 PM-9:00 PM \nSmall Group 12 \n9:00-noon Work Day 19 26 13 \n9:15 AM Sunday \nStudy Group \n10:25 AM Gathering \n10:30 AM \nCall to Worship \nMotherβs Day 20 \n9:15 AM Sunday \nStudy Group \n10:25 AM Gathering \n10:30 AM \nCall to Worship 14 \n10:30 AM Community Meals \n@ Luke House \n5:30 PM- 7:30 PM \nEssentials Pantry \n7:00 PM-9:00 PM \nSmall Group 21 \n7:00 PM-9:00 PM \nSmall Group 27 \nCall to Worship 28 \nDay 29 \n7:00 PM-9:00 PM \nSmall Group * Shelter Volunteers: Peter Morris and Dan Meyer"
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"url": "http://www.arborcovenant.org/wp-content/uploads/2018/03/2018-Arbor-May-Newsletter.pdf"
} | |
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"N: 30.816502 W: -85.234094 Springs Canoe/Kayak Launc Florida State Parks State Park The Upper Chipola River Paddling Trail is a shady, unspoiled waterway that meanders about 4.5 miles before \nending in Florida Caverns State Park near Marianna. Several clear springs dot the river and colorful g p\ng wildflowers adorn the banks in spring and fall. This remote stretch of the Chipola River is a site on the Great p g\np Florida Birding and Wildlife Trail with excellent wildlife viewing opportunities. Be sure to bring a camera and o da d g a d d e a\nt e ce e t d e e\ng oppo tu t es e su e to b g a ca e a a d binoculars, and a fishing pole to try your luck catching the riverβs tasty freshwater fish. The original Chipola ,\ng p y y g\ny g\np River Paddling Trail begins below Florida Caverns State Park at Yancey Bridge (SR 166) and flows 51-miles g g to its designated ending at Scotts Ferry on SR 71 This 4.5-mile paddling trail from Christoff Landing downstream to the Florida Caverns State Park is suitable s 5\ne padd g t a o\nC sto a d g do st ea to t e o da Ca e s State a\ns su tab e for beginning to intermediate paddlers, depending on water levels and amount of downed trees. Portages \nmay be necessary, especially after storm events. From Christoff Landing it may be possible to paddle about \n1.5 miles upstream, to visit the historic Bellamy Bridge, site of colorful local ghost legends. The Bellamy p\ny g ,\ng g\ny Bridge Heritage Trail is about a half mile walk and can be accessed from the parking area on CR 162. \nAccessing the river at SR 162 bridge is not recommended as the dirt road is rough and rainy conditions may \nrequire carrying boats and gear through thick muck. \nThe trail ends at a boat ramp near a small bridge on Blue Hole Drive inside Florida Caverns State Park. A \nshort distance downstream of the boat ramp the river disappears into a submerged cave, re-emerging a 1/4 \nmile later. As a result paddling is not allowed past the bridge. The portion of the river that continues p g\np g\np downstream follows a man-made cut that was made decades ago in order to allow logs to be floated \ndownstream. This feature has since become clogged with downed trees and is now preserved as wildlife \nhabitat. It is possible to rent canoes from the state park office at the entrance and paddle upstream and back. \nBe sure to visit Baltzell Springs, about 1.2 miles upstream from the park boat ramp on the east side of the \nriver. Please avoid trespassing on private lands especially around springs please! #1, Start of the Trail, Christoff Landing # ,\ng Historically, Christoff Landing was a location where a ferry carried passengers across the river. Primitive \ncamping with picnic pavilions is available nearby on adjacent North Florida Water Management District \nproperty. No fees but Reservations required. There is a single-laned paved ramp and ample parking. p ope ty o ees but ese at o s equ ed e e s a s g e a ed pa ed a p a d a p e pa g Directions from Marianna: From intersection of US 90 and Pennsylvania Ave, turn right (north) on Bumpnose \nRd and drive 5.2 mi. Turn right (east) on Christoff Landing Rd; the launch site is 0.3 mi. ahead. #2, Mile 4.5, End of the trail, Florida Caverns State Park \n Native Americans and early Spanish expeditions used the βnatural bridgeβ at the paddling trailβs end point as #2, Mile 4.5, End of the trail, Florida Caverns State Park Upper Chipola River Paddling Trail Guide \nThe Waterway \nThe Paddling Experience Access Points \na crossing point on the Chipola River. It was also used by Andrew Jackson's troops in 1818 during the g p p\ny p\ng Seminole Indian Wars. The boat ramp is located between the park entrance station and the family camping \narea on Blue Hole Drive. There is an admission fee to enter the park. Directions from Marianna: From a ea o ue o e e\ne e s a ad ss o ee to e te t e pa ect o s o\na a a\no intersection of US 90 and Jefferson St (SR 166/CR 167), head north (it becomes Caverns Rd); the park \nentrance is approx. 2.7 mi. on the left (west) side of the road Bear Paw Outfitters 850-482-4948 Canoe rentals from the Florida Caverns State Park office, 850- 482-9598 Base Camp Florida Caverns State Park makes an excellent base camp for exploring Jackson County, an excellent wildlife \nviewing, cave diving and paddling destination. Stop by the Visitors Center and tour the caves that have a \nlong and interesting geologic history. Beginning about 38 million years ago when sea levels were much \nhigher and the southeastern coastal plain of the United States was submerged, shells, coral and sediments \ngradually accumulated on the sea floor. As sea levels fell, these materials hardened into limestone. During \nthe last million years, acidic groundwater dissolved crevices just below the surface creating cave passages \nlarge enough to walk through. Dazzling stalactites, stalagmites, flowstone and other fragile cave-drip \nformations were formed by a similar dissolving process by the naturally acidic rainwater. The park's bluffs, \nsprings and caves are referred to as karst terrain, and the caves provide habitat for the blind cave crayfish, \ncave salamanders and three species of cave roosting bats. \nCivilian Conservation Corps (CCC) and Florida Caverns State Park \nThe land that comprises a large part of Florida Caverns State Park was acquired on October 11, 1935. Work \non the tour cave and structures within the park were completed by members of the Civilian Conservation \nCorps (CCC) and the Works Projects Administration. Both groups emerged from President Roosevelt's New \nDeal, established in 1933 to provide jobs to men during the Great Depression. Tireless hours of work went \ninto the development of the park, which included many aspects beyond the cave. Progress continued on the \npark until 1942, when the United States joined World War II and funding was cut to the CCC and Works \nProgress Administration programs. Florida Caverns State Park was officially opened to the public in 1942 and \nthe men who helped develop this park unquestionably left their mark.",
null,
null,
null,
"Christoff Landing \n Baltzell Springs Bellamy Bridge, Photos Liz Sparks Upper Chipola River Paddling Trail Guide Outfitters and Shuttle Service"
],
"url": "https://floridadep.gov/sites/default/files/Upper_Chipola_guide_0.pdf"
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"Career: Environmental Chemist The Chemistry of Bioluminescence ββIβve always been interested in living things, and as I learned \nmore and more about the complexities of cells, I knew that I \nwanted to study the lives of cells as a career. Understanding \nhow a single cell functions, and how cells interact with each \nother can help us understand entire organisms. \nIn my research, I explore gene and protein functions and what \neffects those genes and proteins have on cell processes and \nhealth. Usually, this isnβt something that you can see with your \nown eyes since proteins are so small. Bioluminescence is special since it is a protein interaction that we can observe without the help of microscopes, \nmaking it more tangible. In the lab, lots of things go wrong, and solving problems is the only way to move ahead on a project. It took time for me to learn to be more patient and stick with a \nproblem even when I am frustrated. Problem-solving helps me be a better scientist in the lab, \nbut also helps in everyday life! Knowing how cells operate helps me appreciate the beauty and \ncomplexities of organisms even more.β Amber Hale, Ph.D.",
null,
"Assistant Professor, McNeese State University, Louisiana \nScience Communication Fellow in the Corps of Exploration Career Connection Activity Background and Brainstorming Read the βintroduction to bioluminescenceβ (bi-o-lu-mi-nes-cence) and answer the \nfollowing questions with a partner! 1. Describe what βbioluminescenceβ means in your own words. 2. Have you seen any bioluminescent creatures? Name at least three creatures that make their own light helping them in their environment. 3. Think about why an animal might want to make their own light. Describe two scenarios where making light would be helpful to an organism. 4. Practice pronouncing this vocabulary in your group. Look up the definitions and an example of terms you donβt know. \n*Exergonic Based on what you know about bioluminescence and reaction types circle the \ntype of reaction you think a bioluminescent reaction represents? Why did you \nchoose your answer? Endergonic Exergonic 5. In the reaction below, indicate whether each component is a reactant, product, or enzyme. Put a check beside each component. \nEnzyme Luciferin \n Carbon dioxide \n Teacher Demonstration & Group Experiments Instructor Materials β\nGlow stick, large-diameter rod β\nShallow dish \nEye protection (safety goggles) β\nHydrogen Peroxide \nCutters (wire cutters are best, box cutter or scalpel) β\nQuart size freezer bag (optional) Lab Group Materials β\n2 glow sticks, long necklace-type \n(less expensive) or thicker rod type β\n2 clear bowls β\nIce water β\nHot water Demonstration: Anatomy of a glow stick",
null,
"We advise instructors to try this experiment before teaching with lab groups to know what to expect. Image by βScholastic Science World ---------------------------------------------------------------------------- Hand each group a glow stick and instruct students NOT to bend/break them. Ask \nstudents to closely observe the individual parts of the glow stick. After seeing each part, \ndiscuss how the glow stick might work. What is being separated? Why? Use wire cutters to carefully cut (on paper plate or cutting board) between the end of the \nglow stick and the inner glass ampule. Pour the fluid (hydrogen peroxide) that surrounds the ampule into a shallow dish. 1 Carefully remove the glass ampule place it inside the freezer bag. Use cutters to crush \nthe ampule being careful of sharp fragments. Coax the fluid into a lower corner of the \nfreezer bag. Trim the corner of the bag at a 45Β° angle to make a spout. Slowly pour the \nampule liquid into the shallow dish of hydrogen peroxide. When the solutions meet \nwatch for a chemiluminescence reaction. If your hydrogen peroxide spilled while dissecting the glow stick, use store-bought hydrogen peroxide to fill a shallow dish. If \ndemonstrating several times, vary the ratio of ampule dye: hydrogen peroxide. Ask \nstudents to suggest explanations for any changes seen. 1 The chemicals inside the glass ampule are a mixture of a dye and diphenyl oxalate, a chemical derived from acid. \nThe dye determines the color of the chemiluminescence. Experiment: Temperature Effects on Chemical Reactions After students familiarize with glow stick anatomy, challenge them with an experiment to examine temperatureβs impact on chemical reactions. Direct students to survey the lab \ngroup materials and come up with a plan to test the effect of temperature on chemical \nreactions. Groups should diagram / record their experimental design plans on the \nworksheet BEFORE they get started. Here is an example of a well-designed experiment: 1) Fill one bowl with ice water and one with very warm water. 2) Activate two intact glow sticks at the same time (or as closely as possible). 3) Place one glow stick in the ice water and one in the warm water. 4) Observe for 5 minutes and record differences between the brightness of the glow. Note:β Expect the glow stick in the very warm water will shine brighter and react faster \nthan the glow stick in the cold water. Educators could guide discussion on reaction rate \nand temperature-regulated reactions if appropriate. Students could move the glow stick \nfrom the ice water to the warm water to illustrate the point further. Student Experimental Questions 1. Construct a hypothesis explaining how the glow stick works. 2. Design an experiment using the materials you have been provided to test whether or \nnot temperature has an effect on the chemical reaction happening inside the glow stick.\nDescribe and/or diagram your experiment here. 3. Record your observations from your experiment. 4. Did the results of the experiment support your hypothesis? How did the temperature \nimpact or not impact your glowsticks? 5. What about bioluminescence might be challenging for a deep sea organism? Try to \nrelate your observations to your answer."
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"I n s I d e r I n f o β P a r t n e r f o r u m β t e c h n o l o g y f o c u s Vem sachsenwerk - generators for the \nwind energy industry The generator has a very important role to play in \nthe drive train of a wind turbine. The large rotor \nblades on the wind turbine convert the flow energy of the wind into a rotating motion of 6 to 15 \nrevolutions per minute. Since generators cannot be \ncoupled directly into the mains at these low speeds \nof rotation, a planetary gearbox is fitted before the \ngenerator, gearing the speed of rotation up from \napproximately 15 revolutions per minute to some \n1500 rpm. The generator itself is an energy converter. It converts the kinetic energy of the wind-driven rotor into \nelectrical energy which can be fed directly into the \nmains. In technical terms, the generator is identical \nto an electric motor, although this conversely turns \nelectrical energy into motion.\nTwo basic types of generators are used in wind turbines. Like its counterpart, the asynchronous generator, a synchronous generator is made up of two \nmain components: a fixed stator, made from coils \nand thin steel sheet, in which a magnetic rotating \nfield is generated, and a rotor (also known as an armature) fitted on a ball-bearing mounted shaft. The \nrotor can be excited with either permanent magnets \nor electromagnets.\nThe frequency of the electrical energy generated \nmust generally be modified to that of the mains \nbefore it is fed into the mains. The following options \nare available to do this for a synchronous generator",
null,
"High-quality products from Dresden for the leading manufacturers Wind energy is becoming increasingly important \nto power generation around the world. German \ncompanies, in particular, are in the vanguard of this \ntechnology. Manufacturers of wind energy equipment, nevertheless, on average export more than \n80 per cent of their production. The VEM Group \nhas made a significant contribution to this rapid \nexpansion with its wind energy generators, azimuth gearboxes and cast products. VEM Sachsenwerk is \none of the leading suppliers of systems operating in \nthe highest performance range. REpower, NORDEX \nand Ge wind β the leading system manufacturers \nβ use the Dresden-manufactured quality products. \nThe five thousandth wind energy generator was \nsupplied in 2009. Apart from large generators, \nthe VEM Group supplies azimuth gearboxes, low voltage \nmotors for lifts, heat exchangers and radiators as well as \nhydraulic systems.",
null,
"Circulation: 8,700; published three times a year since 1998 o n t e n t s VKA tests lubricity under high pressure ................................................p. 3 TOST test - Ageing behaviour of inhibited oils .......................................p. 3 2000 mΒ² β more space for OELCHECK and OilDoc ..............................p. 4 Changes at OELCHECK and OilDoc ......................................................p. 4 FVA Lubricants and Tribology Working Group at OELCHECK ..................p. 5 KUKA β all that moves in automation ....................................................p. 6 New training β Certified Lubrication Specialist ......................................p. 7 Question Time β Strong Acid Number (SAN) .........................................p. 8 New OilDoc seminars β current dates ..................................................p. 8 hild\nl h\ni d\nf Ch i Check-up C which will always be operating at a variable speed \nof rotation:\n οΏ½ A converter connected downstream of the \ngenerator to modify the electricity to the mains \n οΏ½ The variable speed of rotation of the rotor is \nmodified accordingly by a hydrodynamic transmission. In this case, the generator is connected \ndirectly to the mains.\nAsynchronous generators were frequently used on \nwind turbines in the past. At the end of the 1990s, \na new design came onto the market with the double \nfeed induction generator. Unlike the conventional \ninduction generator, it allows operation at variable \nspeeds of rotation. Its stator is connected directly to \nthe mains. In addition, its rotor circuit, also consisting of coils, is connected to the mains by means of \nslip rings and a frequency converter. Consequently, \noperation at variable speeds of rotation is possible. \nOne advantage is that only the smaller part of the \noutput is fed in via the converter which is therefore \ncomparatively small and cost effective.\nVEM develops and manufactures wind energy generators rated from 1.5 to 6.0 MW. They are always \nall designed and built to customer specifications. \nWhile customers have historically predominantly \nasked for induction generators, in future, synchro- nous generators which supply a more consistent \nfrequency and voltage will be taking a significant \nshare in the market. The more difficult conditions \nfor connecting to the various power grids can be \nbetter mastered with them. But whatever their \ntype, these generators, which are manufactured in \nSaxony, are characterized by their high energy yield \nthanks to electro-magnetic optimization, yet retain \na small installation volume. Sachsenwerk components are proving their worth \nall around the world. They can be found working in \nwind farms in the North Sea and the Irish Sea, in \nthe dry and cold of the Gobi desert in China and in \nsubtropical areas of Japan. They are exposed to the \nmost extreme environmental conditions, depending \non their location. Offshore wind farms, in particular, \nmust operate very reliably, being located at least 40 \nkilometres from the coastline. Their maintenance \nmust be minimal. VEM generators meet these \ncustomer requirements - thanks to the companyβs \nmany years of experience in the offshore business \nand with the contributions of its trained and certified staff. The Arklow Wind Park off the coast of \nIreland, built in 2004, is one of its reference sites. It \nis the first wind farm to meet all the conditions for \noffshore generation with its seven generators pro- ducing a total of 25.2 MW. For the offshore wind \nfarms Talisman off the Scottish coast, Thornten \nBank off the Belgian coast and Alpha Ventus off the \nGerman coast alone, VEM has supplied generators \nwith a total output of 100 MW.\nGenerators are intended to produce electricity continuously. The amount of power produced depends \non the wind conditions. Variable wind speeds and \nambient temperatures consequently have a major \ninfluence on the loads and temperatures of the \nrolling bearings and the lubricating grease used for \ntheir lubrication. The rotor of a generator is mounted between two self-aligning roller bearings. Each \nindividual rolling element of the bearing, which can \ncontain up to 90 elements, can weigh 3 kilos. But \nthe bearings are truly lightweights against the 18 \ntonnes that a generator for a 6 MW offshore wind \nturbine weighs. A bearing designed for a generator shaft some 500 mm in diameter will be filled \nwith around 1000 grams of grease. Good general \nlubricating properties are not the only criteria in \nselecting the grease. The grease must ensure an \neasy start at extremely low temperatures of -40Β°C. \nAt the same time, however, it must have good ageing stability with bearing temperatures exceeding \n100Β°C. In addition, extremely good work stability \nis required, as it must not escape from the bearing \nor harden so that too little lubricant gets into the \nbearing tracks, despite the vibrations as the turbine \nVEM-Sachsenwerkβs experts are thus particularly \ncritical in selecting the initial lubrication and their \nrecommendation for the lubrication of the generator bearings which are difficult to access. This is \nalso true for the maintenance instructions. The \ngenerator bearings are regreased once or twice \na year, depending on their type. This is done by \nthe wind farm operators, or by service companies \nin most cases. Caution is advised in regreasing in \nparticular. It may be the case that the two greases \nare not compatible if a bearing is regreased with a \ngrease different to the original grease. In this case, \nboth originally firm greases will become so soft that \nthey will escape from the bearings prematurely. \nEnormous repair costs can be incurred if a bearing \nis damaged for lack of lubrication. OELCHECK has developed a series of test methods \nespecially for the inspection of greases from wind \nturbines. Where mixing is suspected, or in cases \nof premature bearing failures, VEMβs experts take \nrepresentative grease samples which will be able \nto provide information relating to incorrect regreasing or contamination with water. The cause of the \ndamage can often be determined by analysing the \ngrease. The specimens taken from drip pans are \nexamined to determine optimum regreasing intervals. Analysis of production batches of the original \nfilling grease contributes to operational safety. C",
null,
"hildrenβs laughter instead of Christmas presents - for \nthe sixth year in a row in 2009 we followed this motto \nand donated to childrenβs projects. We donated 4,000 \neuros to the Brannenburg kindergarten association. A large, \ncomfortable pram was purchased for trips for the two classes for \nsmall children. W",
null,
"e have now been able to experience in person how well \nour donation has been received and the amount of fun \nwe have brought with it. On 11 June, the two prams \neach filled with six children visited OELCHECK. The βlittle urchinsβ and the teachers from the Brannenburger preschool \nclasses expressed their thanks for our \nChristmas donation once again with posters \nthey had painted themselves, a song and \nflowers. The smaller children can now sit \ncomfortably in the prams on outings, while \nthe bigger children walk. And if one of them \ngets tired, they just swap places. This visit \nby the children convinced us; our donation \nwas well received and this year too we will \nbe ensuring βchildrenβs laughter instead of \nChristmas presentsβ. Yours, Barbara Weissmann VKa tests lubricity under high pressure Many standards and specifications state a requirement for the VKA value. Lubricant manufacturers \ntherefore state the VKA value in data sheets for \nindustrial oils, greases and cutting fluids. It is determined using a four ball test (German: VKA) as \nspecified in DIN 51 350. The method is used in \nparticular for lubricants which must withstand great \nloads and pressures. They therefore contain active \nsubstances (EP additives) intended to allow high \npressures in the mixed friction area. The VKA value \nis stated in N (newtons) for the property and weld \nload. The higher this VKA value of an oil or grease, \nthe better its lubricating effect under pressure \nloading. For comparison: the weld load of a conventional industrial gear oil, CLP 320, is around 2200 \nN. Values in excess of 3600 N can be achieved by \nmodern synthetic high performance gear oil of the \nsame viscosity class.\nAlternatively, the test can be carried out in such a \nway as to determine the anti-wear behaviour of a \nlubricant at lower forces and for a longer test time.\nA VKA test is indispensable in the development \nand quality control of oils and greases which must \nbe very stable under pressure. Additionally, if the \nsituation in the testing equipment is only transferable into practice to a limited degree, the VKA test \nrepresents an important basis for the assessment \nof the lubricating effect of a lubricant under high \npressure loading. The simple and cost-effective \ntest thus permits direct conclusions to be drawn \nregarding the performance of the various EP additives and anti-wear agents. the four ball apparatus The test apparatus consists of one rotating ball and \nthree stationary balls, a drive unit and a load arm \ncarrying the test weights. The material and diameter of the balls is standardized. They are manufactured under stringent inspection. They are made \nfrom 100Cr6 bearing steel (G3) (material number \n1.35054) with a hardness of HRC 63 Β± 3. They are 12.700 mm in diameter. The stationary balls \nare held in a cup. The cup is filled with the lubricant to be tested (10 ml) completely covering the \nstationary balls are with lubricant. A horizontal arm \nsupported on the casing prevents the cup rotating.",
null,
"Ball cup with stationary balls β filled with oil A vertically mounted test spindle is located vertically over the cup. There is a bracket for the rotating \nball held in a ball holder at its lower end. The test \nspindle is driven by an electric motor and rotates \nat 1450 rpm. A circuit breaker interrupts the power \nsupply once the test balls are welded together and \nprevent rotation. The lever mechanism for applying \nthe test load is accommodated in the bottom part \nof the casing. The test load is adjusted by varying \nthe weights applied and the lever length. The test \nload is applied directly to the cup through a vertical ram, pressing the stationary balls against the \nrotating ball. test procedure and result The load that is expected to be good is initially applied as the test load when testing the lubricant. If \nno information is available, the approximate good \nload is determined in preliminary tests. A test run \non the four ball apparatus lasts one minute, unless \nit is first interrupted by the balls seizing. If seizing \ndoes not occur, repeat tests are carried out with \nnew balls, new lubricant and at an increased load. \nThe highest load at which no seizure occurs is called the good load, the first load at which seizing \noccurs is called the welding load. Both loads must \nbe confirmed by repeat testing. The result of the \nVKA test is stated as a VKA weld load or VKA value \nin accordance with DIN 51 350. If a material has a \nVKA value of 2400 N, for instance, this indicates \nthat test load at which the balls first weld together. \nIf the value determined is below 2000 N, it is only \nnecessary to state: VKA weld load below 2000 \nN in accordance with DIN 51 350 (part 2 for oils \nor part 4 for greases). The test procedure can be \nmodified to determine the long-term behaviour of \nEP and anti-wear additives. The ball rotates for an \nhour on the stationary balls under a relatively moderate loading of 150 N, for instance. Then the wear \nmarks, which form as cups on the three stationary \nballs, are measured. An average wear diameter, e.g. \n0.2 mm, is stated. Krl shear stability test determines \nchange in viscosity Multigrade engine and hydraulic oils and some synthetic oils contain a VI improver. Long-chain molecules of this kind can, in part, be badly sheared in \noperation. The old oil is consequently much thinner \nthan fresh oil. One method to determine the change \nin viscosity as a result of the destruction of the VI \nimprovers is the KRL shear stability test.\nThe VKA apparatus has also been used for this \nmodified method for more than 20 years. In the \nKRL test, the balls are replaced by a tapered roller \nbearing filled with the oil under test. Some 40 ml of \nthe oil under test is subjected to the shear stability \ntest at a temperature of 60Β°C with the roller bearing \nrotating at 1450 rpm for a time of 4, 8 or 20 hours \nin the immersion lubrication method. The speed \nof rotation, temperature and load remain constant \nthroughout the test. The decline in relative viscosity at 100Β°C for a 4-hour test is stated as the test \nresult in the form: KRL/A: 10.2%. tost test: ageing behaviour of inhibited oils The TOST ageing test (Turbine Oil Stability Test) is \nlaid down in EN ISO 4263. It is used to determine \nthe ageing behaviour of turbine, gear and hydraulic \noils as well as HFC and synthetic fluids. There is a \nrisk of oil ageing with the simultaneous formation of \nsludge and lacquer-like deposits in lubricants and \nhydraulic fluids that are in use over long lives of \nseveral thousands of hours. The TOST test simulates long-term service with its extremely long test \ntimes of 2000 hours or more. The test is therefore \nvery important in the development of an oil. But it \nalso allows conclusions regarding oil performance \nto be drawn from its comparison of new oil and old oil in the determination of the longest possible oil \nchange intervals. The 2000 hour TOST test is a \nnew special test from OELCHECK.\nThe test method exposes the oil to the stresses that \nalso promote oxidation and depositions in practice \nusing oxygen, water, high temperatures and metallic components. 60 ml distilled water is added to \n300 ml of the oil to be tested for testing purposes. \nThis mixture is constantly heated to 95Β°C. In addition, steel and copper wire coils are suspended in \nthe testing tank as catalysts. Three litres of oxygen \nis passed through the oil-water mixture each hour. \nSmall samples are taken from the mixture at regular intervals and their acid value is determined. This indicates the amount of potassium hydroxide required \nto neutralize the acids, which increase as a result of \noxidation, contained in a gramme of oil. The test is \nended as soon as an acid value of 2.0 mg KOH/g is \nreached. The time elapsed to this point is stated in \nhours as the test result. The smaller the value, the \nhigher the tendency of the oil to oxidize rapidly. If \nthe acid value remains below 2.0 mg KOH/g, even \nafter a test duration of 2000 hours, the acid value \nmeasured on conclusion of the test is stated. 2000 mΒ² more: new rooms for seminar attendees and staff The Technology and Dispatch departments moved \ninto our new building at the start of the year. It is \njust a few metres from OELCHECK House. The OilDoc seminars now take place in the state-of-the-art \nseminar room in the new building. A light-drenched \ncafΓ©teria with a view of the mountains joins on. Our \nstaff now have an even bigger fitness gym with a \nwellness area available to them. Space at last: 2000 mΒ² allows us enough space for staff and those attending our seminars Daily Technology discussion The analysis sets you have ordered are put together \nespecially for you in the dispatch department.",
null,
"Workstations in the Technology office Job changes Employee training in the new seminar room Refuel in the cafΓ©teria The head of the diagnosis team at OELCHECK \nGmbH for many years, Dipl.-Ing. rΓΌdiger Krethe, \nhas taken up a new position. With effect from 1 \nJuly 2010, with Dipl.-Ing. Peter Weismann, he is \njoint managing director of OilDoc GmbH. With Mr \nKrethe as presenter and coordinator, the OilDoc \nacademy offers seminars, inhouse training courses, \nexpert opinions and individual consultancy on all \naspects of the efficient application of lubricants, \ntribology and lubricant analysis. In addition, in \nFebruary 2011, the company will be staging its first \ninternational symposium, the OilDoc Conference \nand Exhibition in Rosenheim.\nDipl-Ing. (FH) steffen Bots will be taking over the \nrole of Head of the Diagnosis Team. He has been \nwith OELCHECK since 2005 and will be personally \nvery familiar to many customers through contacts at trade fairs and training courses. Under the management of Mr Bots, laboratory reports will be assessed by our diagnosis experts on behalf of our \ncustomers and telephone support for questions in \nconnection with lubricants will be further optimized.\nPeter Weismann also remains active as the Technical Manager for OELCHECK in addition to his duties for OilDoc GmbH.\nSince demand for our professional education and \nconsultancy services has shown continuous growth \nin recent years, it has made sense to separate \nthe business into oil analysis, which is done by \nOELCHECK, and seminars and consultancy, which \nis the responsibility of OilDoc. This will mean that \nwe can continue to guarantee in the future the high \nlevels of professionalism in all our services β in \nboth OELCHECK and OilDoc. y y\ng Action in the gym stle meeting in las Vegas The 65th Annual Meeting of the STLE took place in \nLas Vegas in May 2010. Over 1200 people participated in the Society of Tribologists and Lubrication \nEngineers event. The STLE represents the interests \nof more than 4000 technical experts from industry, \nscience and government in the USA, Canada and \nmany other nations. The event programme included \n370 presentations dedicated to lubricants. The \naccompanying trade exhibition was fully booked with 80 stands. On the OilDoc information stand, \nPeter Weismann and Steffen Bots presented the \nLubricant Conference to be held at the beginning of \nnext year in Rosenheim. Visitor interest exceeded \nall expectations. The OilDoc Conference and Exhibition was presented to STLEβs board members \nin two rounds of presentations at the invitation of \nSTLE management. from left to right: Peter Drechsler, Timken β STLE \nPresident 2010-2011, Steffen Bots β OELCHECK, \nDr. Robert Gresham β Head of STLE Training, Peter \nWeismann β OilDoc, Ed Salek, Executive Director STLE uests of oelchecK β the fVaβs lubricants \nand tribology Working group",
null,
"on tuesday, 29 June 2010, the german \ndrive technology research associationβs \n(fVa) lubricants and tribology Working \ngroup met at oelchecK in Brannenburg. The working group meets twice a year to consult on \ncurrent projects and new research projects. Almost \n80 members took up the invitation to Upper Bavaria.\nIn the newly opened OELCHECK House, the Group \ndiscussed, among other matters, ongoing research \nprojects and GETLUB, a conference on the subject \nof gearbox lubrication taking place in December \n2010 in WΓΌrzburg.\nFollowing a hard dayβs work, the party took the \nmountain railway up the nearby Wendelstein in \nglorious weather.",
null,
"OELCHECK was the host for a Bavarian evening \nwith alphorns, whip cracking and the Brannenburg \nbrass band. The following day, the OELCHECK laboratory once \nagain took centre stage. Meeting attendees who \nhad not had the chance to view it on the previous \nday took the opportunity of a tour of the pioneering \nlaboratory in lubricant analysis. new fVa code of practice β \noil changes in transmissions ew fVa code of practice β Service engineersβ risk of an error when changing \noil is increasing as a result of the great number \nof different transmission types and the new gear \noils. The German Drive Technology Research Association (FVA) has therefore drafted a special \ncode of practice drawing attention to the points to \nbe considered when changing gear oil. It offers the \ninformation needed in particular by designers, operators and service engineers to correctly change \nlubricants in transmissions. OELCHECK engineers \ncontributed to the drafting of the new code of practice with their expertise in the area of the analysis \nof old oil in conjunction with oil changes. The code of practice is a guideline to the details \nto be taken into consideration when changing the \noil in gearboxes. It is not, however, a list of recom- mended lubricants. The only valid lubricant recommendations are the relevant specifications issued \nby the manufacturer of the transmission in consultation with the manufacturer of the lubricants.",
null,
"Transmissions lubricated by grease are not covered \nby the code of practice. It applies to oil changes in \nindustrial transmissions of all types and for transmissions in marine applications β whatever the \nlubricating oil used. The specifications issued by \nthe manufacturers should be observed for gear oil \nchanges in road and rail vehicles, construction and \nagricultural machinery. The code of practice can, \nhowever, be helpful here. the new code of practice is available for \ndownload from www.fva-net.de. The German Drive Technology Research Association is a non-profit making association with the \npurpose of common research in the field of drive \ntechnology. Organizationally a part of the German \nEngineering Federation (VDMA), the FVA is the \nworldβs leading drive technology network. Its members are manufacturing companies in the drive \ntechnology sector. The FVAβs network includes the \nbest research institutes working in drive technology. In recent years, over 750 projects have yielded \nresearch results which have been and continue to \nbe successfully implemented in products Working \ntogether in research like this allows companies the \nopportunity of improving their technical knowledge \nand the quality of their products while reducing \nproduction costs. Some 100 ongoing projects \neach year are currently being coordinated by 23 \nactive working groups collaborating with around \n40 university institutes. Over 1000 expert representatives of the member companies are active in \nFVA committees.\nThe Lubricants and Tribology Working Group, with \nover 100 members including the representatives \nof the universities, is the largest of the very active \nFVA working groups. Its participants are taken \nfrom gearbox, bearing, seal, lubricant and additive \nmanufacturers and OELCHECK, the specialist in \nlubricant analyses. The various research projects \nfunded by the German government-backed AiF or \nby the Association itself cover fundamental topics in tribology and current questions relating to \nlubrication arising from practical drive technology \napplications. all that moves in automation such as gas or wire and can be automated without \nproblem. However, the weld points must always be \naccessible from both sides. This is childβs play for \nKUKA robots, as the welding gun almost becomes \na seventh robot axis and so the movement of the \ngun and the robot are programmed and operated \nsynchronously. Almost all KUKA robots have six axes and therefore \nalso the same number of transmissions, each of \nwhich are lubricated with 15 to 17 litres of synthetic \ngear oil. The oil is changed every five years or after \n20,000 hours of operation. In the automotive industry, this operation is generally performed directly by \nthe vehicle manufacturerβs own service engineers. \nAs the capacities of the transmissions are not very \ngreat, there is frequently no routine lubricant analysis for all transmissions. Yet the oil is subjected to \nhigh loads. The robots are in continuous use. Their \nmovement is jerky and thus generates shocks in \nthe transmission. The average temperatures in the \ntransmissions is around 80Β°C. It is accordingly \nimportant that only lubricants recommended by \nKUKA are used. Only those gear oils that KUKA \nhas previously thoroughly tested in practical tests \nsupported by oil analyses are approved. Consistent \nperformance by the lubricant ultimately contributes \nto reliability of production and the service life of the \ntransmissions. The screening of gear oils clearly illustrates the high \npriority oil analyses have in KUKAβs quality assurance. The ambition is to replace the gear oils in the \nrobots with lower friction lubricants changing from \nmineral oil-based gear oils to synthetic lubricants to \nachieve longer oil change intervals and to improve \nTo this end, samples from more than 1000 robot \ntransmissions were analysed by OELCHECK before \nit was possible to approve the synthetic gear oil \nfor long-term use. β An impressive example of the \ngreat care that KUKA Roboter GmbH takes with its \nquality assurance.",
null,
"KUKA robots spot welding in a car plant compared with other technical inventions, the robot is still comparatively \nyoung. the first industrial robot in the \nworld was not installed until the middle of the 20th century. following the \nhydraulic robots that were generally \nproduced in Japan, the first electrically \ndriven and microprocessor controlled \nrobot came onto the market in 1974. \nKuKa made the quantum leap in the development of industrial robots in 1996. This was when the first PC-based controller developed by KUKA was launched. This launched the \nage of βtrueβ mechatronics, characterized by the \nmeticulous interplay of software, controller and \nmechanism. All that moves in automation comes \nfrom KUKA. Whether in logistics, the plastics or \nmetal industries, medical technology or in the entertainment sector β KUKA robots are in use practically everywhere. Robots are increasingly contributing to the optimization and flexibilization of vehicle production in the \nautomobile industry. Here they mainly take on tasks \nsuch as welding, painting and bonding. If they are \nfitted with special dirt and heat-resistant foundry \nequipment, they can even work as an intelligent assistant in the manufacture of engines in the foundry.\nOver 1000 robots are active in the production of a \ncar model in a car plant. So 4000 units are not unusual in a large plant. Robots score over their human \ncolleagues with their economical production processes, reduced costs, higher output and constant \nquality. The more rotational and translation axes a \nrobot has, the greater is its mobility. Current mod- els with six axes are able to grip and handle almost \nany position in space. The robot is programmed by \nthe controller. Its movements are executed by the \ninterplay of the various axes. The tool required (e.g. \na welding gun) can be mounted on the robotβs hand \nat the end of the robotβs arm. One drive on each \naxis is responsible for the movement of the axes. It \nconsists of a motor, gearbox and controller. KUKA series 2000 robots are used in the automotive industry for spot welding body panels, among \nother tasks. This process joins two thin metal panels together. A continuous weld is not required. An \nelectric current concentrates high energies on a \nsmall area of a workpiece.\nHigh pressure then creates an unbreakable joint. \nThe entire process takes only a fraction of a second, is easy to handle, requires no other materials",
null,
"Design of a six axis KUKA robot new training for cls β ertified lubrication specialist unlike europe, the usa already has \nchallenging training and certification \nprogrammes for lubrication and oil \nmonitoring specialists. these certifications to become a certified lubrication \nspecialist (cls) and oil monitoring analyst (oma) are run by stle β the society \nof tribologists and lubrication engineers \nin the usa. STLE represent the interests of more than 4,000 \ntechnology experts in the industrial, scientific and \nadministrative sectors in the USA, Canada, and \nmany other countries. CLS and OMA are internationally recognized certifications that are also \nhighly valued in Asia, Africa and Latin America. It \nis high time that Europe set up similar professional \ndevelopment opportunities. OilDoc GmbH has recognized the great importance of a uniform standard \nin the examination of knowledge of lubrication. \nFrom 2011 it will be the first academy in Europe to \noffer, in co-operation with STLE, seminars covering lubrication and comprehensive examinations for \ncertification following the American model. the incorrect use of lubricants is a cost \nto the economy and the environment The capabilities, reliability and efficiency of practically all machinery and equipment nearly always \ndepends on the lubricants used. The important role \nof oils and greases in the reduction of friction and \nhence in efficiently saving energy is also increasingly being recognized. \nModern lubricants are playing an ever bigger role in \nmaintenance schedules. Nevertheless, today Germanyβs economy alone is burdened with costs arising from unnecessary wear in excess of 150 billion \neuros. To this must be added the enormous consequential costs arising from machine shutdowns, \nquality problems, etc. These can be estimated to \nmultiply costs by four or five times. Over 70% of the \ncauses of failures caused by wear can be traced \nback to servicing and operation in which lubrication \nplays a significant role. In addition to this, an intelligent lubricant management scheme is very important. Oils and greases are overwhelmingly based on \nnon renewable resources. The oil change intervals \ncan be safely controlled and generally significantly \nextended nowadays with lubricant analyses. This \nmeans that the consumption of new oil and the \nvolume of old lubricants decline to the benefit of \nthe environment. While the procedures for certification as a Certified Lubrication Specialist (CLS) and Oil Monitoring \nAnalyst (OMA) have been tried and tested over 15 \nyears, there is only quite modest provision for CPD \nin lubricants and lubrication engineering in Europe. \nVocational colleges offer hardly any professional \ninformation about lubricants and their applications. Universities and technical universities teach \nonly a little practical knowledge of tribology and \nlubrication engineering. To this is added the fact \nthat many mineral oil suppliers have largely withdrawn from training end users and now only provide \ntechnical information to their major customers and \nemployees. Both company and employee gain by \ncertification as a cls Service engineers in particular will enhance their \nCV by following a training course connected to the \nCLS examinations. After all, this qualification is evidence of an above-average knowledge of the field \nof tribology. The CLS has a solid knowledge base. \nHis tasks include:\n οΏ½ The selection and comparison of the lubricants \nto be used in all machines, motors, transmissions and hydraulic systems.\n οΏ½ Supporting the purchasing department by providing a comparative selection of the best suppliers at the best conditions.\n οΏ½ Regular monitoring of all lubricants used and improving all lubricating equipment and lubricating \n οΏ½ Drawing up lubrication schedules for all machines and ensuring efficiency by reducing the \nnumber of grades. \n οΏ½ The dissemination of practical, but well-founded, \nknowledge about lubricants and their application \nfrom procurement to disposal.\n οΏ½ Instruction and training of staff entrusted with \nlubrication, filtration and oil servicing. οΏ½ The development and optimization of quality assurance plans concerning the use of lubricants \nand handling old oils and greases.\n οΏ½ Troubleshooting when problems occur with components in which lubricants are in contact with \nthe part affected.\nOne important precondition for his work as a CLS \nis his absolute independence from particular manufacturers of lubricants, oil servicing equipment, etc. \nUltimately, only an objective CLS is in a position to \nlower the costs of lubricants while simultaneously \npreserving natural resources. the certified lubrication specialist cls β \npreconditions, training, certification As in the USA, the European programme will also \nrequire at least three years of practical experience \nin the lubrication of plant and machinery. Just as \nSTLE does at the international level, OilDoc will \noffer CPD seminars with content which will assist \nin passing the difficult CLS examination. However, \ncomplementary study of technical literature is also \nrecommended. Anyone who thinks that he has sufficient knowledge of lubrication can register for the \nexam. The exam takes three hours and comprises \nover 150 multiple choice questions. However, it is \nnot an easy exam for the students. At least 50% of \nthe candidates in the USA fail.\nOilDoc will probably be offering suitable training for \nthe European CLS at the end of 2011. Some of the \ncontent to be covered in the seminars will include:\n οΏ½ The fundamental principles of lubrication, friction \nand wear\n οΏ½ Synthetic and mineral oil based lubricants and \ntheir applications.\n οΏ½ The production, handling and storage of \nlubricants οΏ½ Agents added to reduce friction and wear\n οΏ½ Oil monitoring, longer oil change intervals and \nthe reduction of consumption\n οΏ½ The operation and lubrication of: motors, transmissions, bearings, chains, hydraulic systems, \ncompressed air systems\n οΏ½ Fluids used in metal machining, heat exchange \n οΏ½ The use of lubricating greases and regreasing \n οΏ½ Assembly pastes, non-friction coatings, cleaners \nand solvents\n οΏ½ Interaction of lubricants and seals, paints, \n οΏ½ Drawing up lubrication and maintenance \nschedules The test questions for CLS certification are prepared in collaboration with STLE. Just as those \nin the USA, they meet the standards published by \nNOCA (National Organization for Competency Assurance) complying with ISO 17024. The content \nof the seminars and the examination questions \nwill, however, be adapted to European conditions, \npartly thanks to the active collaboration of Peter \nWeismann in the CLS board. CLS certification is \nvalid for three years. At the end of this period, the \ncandidate takes a refresher certification to ensure \nthat his CLS knowledge is always kept up to date. Γlchecker is a periodical of oelchecK gmbh Kerschelweg 28 Β· 83098 Brannenburg Β· Germany [email protected] Β· www.oelcheck.de All rights reserved. Reproduction without permission \nConcept and text:\nAstrid HacklΓ€nder, Marketing & PR, 4600 Thalheim, Austria www.astridhacklaender.com Layout and design:\nAgentur Segel Setzen, Petra Bots, www.segel-setzen.com Photos: OELCHECK GmbH Β· KUKA Β· VEM Sachsenwerk Q u e s t I o n t I m e We have the oil in our biogas motors \nanalysed on a regular basis. studying the trends, we have noticed that in \nsome analysis results a san (strong \nacid number) is indicated in the laboratory report alongside the an or tan we \nnormally expect to see. Why is this value \ngiven and what is its significance? oelchecK:\nIn all laboratory reports relating to engine oil analyses we state the base number (BN) and/or the acid \nnumber (AN), depending on the scope of analysis \nrequired. These are supported by an initial pH value, \nthe i-pH value, for the oil from gas motors. The determination of these values is generally sufficient \nfor a determination of the optimum oil change time, \nwhich is heavily dependent on the composition of \nthe gas. If, however, the gas includes aggressive \nacids, which get into the oil from landfill gas, bio \ngases, or digester gas, the method for the determination of the AN is extended. The pH value is then \nless than pH 4 at the start of titration. Only then can \nan SAN (Strong Acid Number) be determined at all. \nThe consumption of potassium hydroxide required \nto reach a pH of 4 is stated as the SAN. Titration \nthen continues up to the neutral point (around pH \n7) and the consumption to this point is stated as \nthe AN. The SAN, a measure of very strong acids \nin engine oil, is only stated in the laboratory report \nif these aggressive acids are present in the oil. The \nAN always appears in the report, as ever. Oils age during their use. Oxidation, in which the \noxygen molecules change the hydrocarbon compounds in the oil, is one of the consequences of \nthis ageing process. This gives rise to organic \nproducts of oxidation which are acid in their reaction. These reactions take place very slowly at \nroom temperature and only have a minor influence \non the oilβs condition. The speed of the reaction \nis, however, considerably greater at the elevated \ntemperatures found inside an engine. Products of \ncombustion and wear particles in the oil also act as \ncatalysts. If residues from the combustion of gases \ncontaining harmful products such as are found in \nbio gases, landfill gas or digester gas then condense in the engine oil, this has an additional influence on the increase in the acid products created. \nThis ultimately damages the engine to the extent \nthat it needs to be repaired.\nOne of the tasks of the engine oil is to neutralize \nacid constituents. The engine components that are \nvulnerable to attack are thereby protected against \ncorrosive attack from the free acids. To ensure \nthat this acid neutralization succeeds over the \nlongest possible period, the oils contain alkaline \nadditives the modification of which is recorded in \nthe oil analysis in the form of the BN. If these base \nadditives have been used up or are present in the \noil in insufficient volumes, the strong, extremely \naggressive acids directly attack the vulnerable \nengine components such as the bearing metals. \nAt the same time, an increase in oil viscosity \nand the formation of lacquer-like deposits on hot surfaces (e.g. the inside of the piston crown) may \nbe observed.\nMonitoring of the oil in respect of its alkaline reserve and the acids present in the oil is therefore \ndecisive in determining the optimum time for an \noil change to protect the engine. Such oil values \nare also taken into consideration alongside wear \nvalues and contamination in the diagnosis of the \noil. Thus the BN or base number is an important \ncriterion for the quantity of acid constituents that \ncan still be neutralized and rendered harmless by \nthe oil. This BN potential is compared with the acid \nAN potential and the i-pH value in the analysis of \nthe old oil. At the OELCHECK laboratory, unlike the \nlaboratories operated by oil and engine manufacturers, we use an extended analysis method for the \ntitration curves to distinguish between the Strong \nAcid Number (SAN) and the Acid Number (AN) to \ntrace the very aggressive acids that occur in particular in special gas-powered engines.\nIn the laboratory report we only state the SAN if \nit is at all possible to determine a value because \nof the presence of strong acids. This is fortunately \ngenerally not the case. However. as soon as a SAN \n(stated in the laboratory report with values > 0.01 \nmgKOH/g) is measured, the oil must be changed \nwithout delay. At the same time it is recommends \nthat the oil change interval should be shortened so \nthat no SAN occurs the next time. A measurable \nvalue means that there is an acute risk of corrosion \nfor all engine parts from the oil that has become \ntoo acid. oelchecK is always ready to answer your questions about tribology and lubricant analyses. send us your questions by e-mail ([email protected]) or by fax (+49 8034/9047-47). e m I n a r s refrigeratio Under the co-ordination \nand leadership of the new managing director \nDipl.-Ing. RΓΌdiger Krethe, OilDoc will, for the first \ntime, be holding seminars and symposia using \nexternal speakers, in autumn 2010. The Refrigerating Equipment seminar will offer all there is to \nknow about refrigeration compressor types and \nmedia, their maintenance and care, oil changes, oil \ngrades and their selection and information from oil \nThe Paper Machinery symposium will bring news \nfrom the point of view of the manufacturers of paper \nmachinery, calenders and bearings. Best practice in \nfiltration, new lubricants, optimized central lubricat- ing systems, correct greasing, online sensors and \non-site methods of analysis as well as information \nobtained from oil analyses will also be presented by \nspeakers who are specialists in the subject.\nAll the events take place in the new OilDoc Seminar \nCentre in the Upper Bavarian town of Brannenburg, 60 km south-east of Munich. In addition to \nthis series of events, OilDoc also offers individual \nseminars with content customized to your company, \nhere or on your premises.\nFor detailed information and registration forms, \nplease visit www.oildoc.com. Mr RΓΌdiger Krethe \nand Ms Kathrin Gottwald look forward to discussing your individual needs on phone number \n+49 8034 9047 700 . seminar dates 13-15.09 Machine Monitoring by Oil Analysis for \nHydraulic Systems 16.09. \nAdvanced Seminar: Hydraulic Systems 04-06.10. Machine Monitoring by Oil Analysis for \nAdvanced Seminar: Engines \n25-27.10. Optimal Lubricant Management \n08-10.11. Machine Monitoring by Oil Analysis for \nIndustrial Applications \nAdvanced Seminar: Industrial \nApplications 15-16.11. Machine Monitoring by Oil Analysis for \nRefrigeration Equipment 22-23.11. Machine Monitoring by Oil Analysis for \nPaper Machinery"
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"url": "https://en.oelcheck.com/fileadmin/user_upload/pdf/oelchecker/en/2010/oelchecker_summer_2010_EN.pdf"
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"Digital Art House",
null,
"Β© Coldie, FOALS, detail, 2011.",
null,
"Β© Coldie, Coachella Crowd, detail, 2010. Coldie Front Row 3D: Stereoscopic Concert Photography Preview Date: 7th July, 6 β 8 PM (BST)\nExhibition: 8th July β 13th August, 2022 GAZELL.iO is pleased to welcome Coldie to the Project Space with Front Row 3D: Stereoscopic Concert Photography. \nIn partnership with Seattle NFT Museum, pioneering crypto artist Coldie will return to GAZELL.iO, taking \nover the Project Space with his solo exhibition having recently made notable advances in the traditional art \nworld with record-breaking sales for his single edition NFTs. During his previous residency at GAZELL.iO, Coldie sought to express the multifaceted nature of digital art \nand the wider crypto art space. More retrospectively, Front Row 3D: Stereoscopic Concert Photography invites the \nviewer to explore the development of stereoscopic three-dimensional (3-D) imaging and collage throughout \nhis artistic career. The works will explore Coldieβs use of 3-D imaging across a variety of mediums, including \nlenticular prints, photographs, moving images, and virtual reality (VR). The displayed collection of images \nderives from a watershed moment for the artist at Coachella from 2009 to 2011, where he assumed the role of \nofficial 3-D concert photographer - a position contemporarily largely unheard of. While much of Coldieβs early career involved commission-based graphic design projects, the eventual diversion \nof his focus was inevitable. Then, βthe world wasnβt paying attentionβ to what he was doing, yet through \nrelentlessly freelancing and experimenting during this time of relative anonymity, Coldie was able to crucially \nhone an evolving understanding of what βart culture meansβ to him. Despite his design work, Coldie is firmly βnot an illustratorβ. Depth - an integral element to the artistβs collaged work - cannot be achieved through illustration, yet the layers created by 3-D photography facilitate the creation 39 DOVER STREET LONDON W1S 4NN +44 207 491 8816 [email protected] GAZELL.IO Digital Art House of such. Tracing his fascination with the obscure technology of 3-D photography and stereoscopic imaging, \nColdie discusses his exposure to early examples of VR and 3-D film as a child. βMy grandparents had something \ncalled a magic eye poster, which is a weird space shuttle trick of the eye. Each time I see these images, there \nwas a level of creative shock.β His curiosity was innate and subconscious: βI wanted to pick it up and know how \nthose things were made.β\nThe photographs of Front Row 3D: Stereoscopic Concert Photography depict an era before Coldie discovered \nblockchain art, prior to his seminal Decentral Eyes series, which personalised the disruptive force of crypto. Itβs \nclear that Coldieβs glorification of blockchain celebrities began with the amplification of musicians during this \nperiod of his life, having photographed the likes of the Red Hot Chilli Peppers, the XX and Foals at various \nperformances. For Coldie, his lived experiences alongside an artistic career littered with experimentation have βculminated \nto what the work is now.β Grounded in both personal and material history, Front Row 3D: Stereoscopic Concert \nPhotography represents how Coldie consistently looks to the future, ahead of the curve. He explains, βI was \nalways thinking about the day I could look at my photos in full-colour VR. This show is a manifestation of a \ndream.β About The Artist Coldie is an award-winning mixed-media artist and one of the most collected crypto artists of our time whose \nstereoscopic 3D art has been featured in national juried art exhibitions, cryptocurrency conferences, and live \nauctions, including the recent Bonhams & SuperRare: CryptOGs, The Pioneers of NFT Art. He is an NFT \nearly adopter (starting in 2018). In 2019, he was part of a group of early NFT artists who helped establish 10% \nsecondary artist commissions that are now standard across NFT marketplaces. His blockchain themed artwork, \nincluding the βDecentral Eyesβ portrait series, gives a personalised visual representation of the disruptive industry. About GAZELL.iO GAZELL.iO is the digital arm of Gazelli Art House, comprising an online Residency programme, NFT drops and \ncollaborations, a dedicated Project Space holding monthly exhibitions, and a permanently installed VR Library \nβ all in the heart of Mayfair. Since 2015, GAZELL.iO Residency has offered a unique insight into the environments \nof some of the most recognised and upcoming VR, AR, and digital artists. The four-week online Residency allows \nartists to take creative control, enabling them to showcase their artistic journey and interact with new and existing \naudiences directly. In 2020, the Project Space was launched to allow artists to showcase their digital artworks in \na physical space. By bridging the gap between the digital and physical, NFT drops are shared in conjunction with \nthe subsequent Project Space exhibition or artist Residency. GAZELL.iO aims to bring digital art pioneers and \na new generation of artists to a broader audience through its dynamic exhibition and educational programme. For further information please contact: [email protected] | +44 (0) 207 491 8816 39 DOVER STREET LONDON W1S 4NN +44 207 491 8816 [email protected] GAZELL.IO"
],
"url": "https://gazell.io/usr/documents/exhibitions/press_release_url/98/coldie-press-release-2-.pdf"
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π MINT-1T:
Scaling Open-Source Multimodal Data by 10x:
A Multimodal Dataset with One Trillion Tokens
π MINT-1T is an open-source Multimodal INTerleaved dataset with 1 trillion text tokens and 3.4 billion images, a 10x scale-up from existing open-source datasets. Additionally, we include previously untapped sources such as PDFs and ArXiv papers. π MINT-1T is designed to facilitate research in multimodal pretraining. π MINT-1T is created by a team from the University of Washington in collaboration with Salesforce Research, other academic institutions including Stanford University, University of Texas at Austin, and University of California Berkeley.
You are currently viewing a subset of the PDF portion of π MINT-1T associated with CommonCrawl dump CC-2023-14
. For other PDF, HTML, and ArXiv subsets, refer to the π MINT-1T collection.
Updates
9/19/24
We have removed roughly 10% of the PDF samples as there was a mismatch between the frames in the TIFF images and the document metadata.
8/8/24
We have become aware that the image hashes in the PDF subset of MINT-1T do not match the images in the documents. We want to emphasize that the images for each document are correct, and only the image hashes in the documents' metadata are mislabeled.
Dataset Details
Dataset Sources
- Repository: https://github.com/mlfoundations/MINT-1T
- Paper: https://arxiv.org/abs/2406.11271
- Blog: https://blog.salesforceairesearch.com/mint-1t/
Uses
Direct Use
π MINT-1T is designed to facilitate research in multimodal pretraining. The dataset can be used for training multimodal models that can reson about interleaved text and images sequences such as Idefics2, XGen-MM, and Chameleon.
Out-of-Scope Use
π MINT-1T was built to make research into large multimodal models more accessible. Using the dataset to train models that ingest or generate personally identifying information (such as images of peopleβs faces and other sensitive content) as well as military applications are all inappropriate use cases of π MINT-1T.
Dataset Creation
Curation Rationale
π MINT-1T was created to address a significant gap in the open-source domain by providing a large-scale multimodal interleaved dataset for pre-training large multimodal models. This dataset aims to be a valuable resource for the research community, facilitating open science in multimodal pretraining.
Source Data
The dataset is a comprehensive collection of multimodal documents from various sources:
- HTML documents: Filtered from CommonCrawl WARC dumps spanning from 2017 to 2024
- PDF documents: Extracted from CommonCrawl WAT dumps covering 2023 to 2024
- ArXiv documents: A subset of papers from the ArXiv repository
In total, π MINT-1T contains 1056.8 million documents, broken down as follows:
- 1029.4 million HTML documents
- 24.0 million PDF documents
- 0.6 million ArXiv documents
Data Collection and Processing
The data collection and processing involved several steps:
Document Extraction:
- HTML documents were parsed from CommonCrawl WARC files
- PDF documents were extracted from CommonCrawl WAT files
- ArXiv papers were directly sourced from ArXiv S3 buckets
Filtering Process:
- Applied text quality filters to ensure content relevance and readability
- Removed duplicate content at both paragraph and document levels
- Filtered out undesirable content based on predefined criteria
- Verified image availability and quality for HTML documents
- Limited PDF size to 50MB and 50 pages to manage dataset size and quality
Image Processing:
- Used NSFW image detection to remove pornographic or otherwise undesirable images
- Removed images smaller than 150 pixels or larger than 20,000 pixels
- Adjusted aspect ratio thresholds for HTML (2:1) and PDF (3:1) to preserve scientific figures
Text Processing:
- Used fasttext for language identification, focusing on English content
- Masked personally identifiable information such as email addresses and IP addresses
- Applied paragraph and document-level deduplication using Bloom filters
PDF Specific Processing:
- Used PyMuPDF for parsing PDFs and extracting reading order
- Clustered text blocks based on columns and ordered from top left to bottom right
ArXiv Specific Processing:
- Used TexSoup to parse LaTeX source code and interleave images with text
- Cleaned up LaTeX code by removing imports, bibliography, tables, and citation tags
Various open-source tools were utilized in this process, including fasttext, PyMuPDF, and DCLM and bff for deduplication and content filtering.
Personal and Sensitive Information
Despite sourcing from public web data, significant efforts were made to minimize the inclusion of personal and sensitive information:
- Email addresses and IP addresses were masked to protect privacy
- An NSFW image classifierto remove inappropriate visual content
- URLs containing substrings associated with undesirable or sensitive content were filtered out
However, users should be aware that as the data originates from the public web, it may still contain some sensitive or personal information. The dataset creators acknowledge this limitation and advise users to exercise caution and potentially apply additional filtering based on their specific use cases.
Bias, Risks, and Limitations
Several potential biases, risks, and limitations have been identified:
Data Bias: As the dataset is sourced from web crawls, it may inherit biases present in online content.
Content Risks: Despite extensive filtering, there's a possibility that some offensive, insensitive, or inappropriate content may remain in the dataset.
Image Availability: The dataset relies on external image URLs, which may become unavailable over time due to link rot, potentially affecting the dataset's long-term usability.
PDF Parsing Limitations: The current method for extracting reading order from PDFs may not always accurately capture the intended flow, especially for documents with complex layouts.
Potential Legal and Ethical Concerns: While efforts were made to respect robots.txt files and remove sensitive information, there may still be content that individuals did not explicitly consent to include.
Recommendations
Given these considerations, the following recommendations are provided:
Additional Filtering: Users are strongly encouraged to apply additional filtering based on their specific use case and ethical considerations.
Inappropriate Use Cases: The dataset is not recommended for applications involving the processing or generation of personally identifying information, nor for military applications.
Legal Compliance: Users should independently verify compliance with applicable laws before employing MINT-1T for commercial purposes.
Bias Awareness: Researchers and developers should be cognizant of potential biases in the dataset and consider their impact on model training and outputs.
License
We release π MINT-1T under a CC-BY-4.0 license, designating it primarily as a research artifact. While the dataset is freely available, users are responsible for ensuring its legal use in commercial settings. Users must independently verify compliance with applicable laws before employing MINT-1T for commercial purposes.
Citation
@article{awadalla2024mint1t,
title={MINT-1T: Scaling Open-Source Multimodal Data by 10x: A Multimodal Dataset with One Trillion Tokens},
author={Anas Awadalla and Le Xue and Oscar Lo and Manli Shu and Hannah Lee and Etash Kumar Guha and Matt Jordan and Sheng Shen and Mohamed Awadalla and Silvio Savarese and Caiming Xiong and Ran Xu and Yejin Choi and Ludwig Schmidt},
year={2024}
}
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