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Briquette Testing Lab Mumbai, Pune,Nashik,Chennai, Hyderabad, India
FAN SERVICES Provide BRIQUETTE Testing Lab Services |BRIQUETTE Chemical testing,BRIQUETTE Physical Testing,BioDiseal Testing Lab,Briquette Testing,Agriwaste Testing,Calorific Value Testing Lab,Pune, Ahmedabad, Aurangabad, Chennai, Nashik, Indore, Nagpur, Hyderabad, Coimbatore, Mumbai,India
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Fuel Testing Evolution: Unveiling the IQT TALM Precision Package
Since its inception in 1998, the IQT system has been at the forefront of fuel testing. It is established as the referee test method under EN 15940 for paraffinic fuels in Europe. With over 200 installations worldwide and more than 100,000 test runs, the IQT system is renowned for its reliability, precision, and cost-efficiency. For professionals engaged in fuel blending or advanced research, the IQT system promises precise and accurate results.
The IQT TALM Precision Package: Enhancing Your Testing
Elevate your fuel testing capabilities with the IQT TALM Precision Package. This package enhances the standard IQT system with eight meticulously designed upgrade kits aimed at maximizing automation, precision, and user-friendliness.
Key Components of the TALM Precision Package
TALM-K1: Elevating Control Cabinet
The electronic interface essential for kits K3 to K6 and K10. It facilitates control and sets a solid foundation for enhanced automation.
TALM-K2: IQT System and Control Software
Offers high visibility test monitoring accessible from anywhere in your lab. It simplifies calibration through automated testing modes, thereby boosting productivity.
TALM-K3: Nozzle Tip Temperature Control
This component enhances precision by removing manual coolant flow adjustments. (Requires TALM-K1 and K2 kits)
TALM-K4: Combustion Chamber Tail Temperature Control
Improves precision by eliminating manual coolant flow adjustments in the combustion chamber tail. (Requires TALM-K1 and K2 kits)
TALM-K6: Electronic Coolant Flow Indicator
Automates digital coolant flow indication within IQT™ System Software (ISS). (Requires TALM-K1 and K2 kits)
Additional Upgrade Kits
TALM-K7: Controls gas stream pressures and monitors cylinder gas levels.
TALM-K8: Improved Heater Monitoring Tool (coming soon).
TALM-K9: Self-sealing reservoirs that enhance productivity.
TALM-K10: Automates fuel level monitoring to prevent spills.
Unique Features of the IQT System
Extended Testing Range: ASTM D6890-18 broadens testing range with high precision.
Sensitivity to Cetane Improver Additives: Detects minor fuel quality variations.
High Cetane Improver Measurement Capability: Measures high levels without negative effects.
Ideal for Paraffinic Fuels: Suited for highly paraffinic fuels from synthesis or hydro-treatment.
Automated Operation: Short test times under 20 minutes ensure high productivity.
Small Sample Size: Uses less than 100 mL of sample, reducing resource consumption.
Low Operating Costs: Proven safety record with easy maintenance access.
FAQs about the IQT Totally Automated Laboratory Model
What is the significance of the IQT system?
The IQT system is a Constant Volume Combustion Chamber instrument that has been critical for paraffinic fuels testing in Europe since 1998. It is known for its reliability and low operating costs.
What are the key advantages of the IQT system?
The key advantages include a small sample size, reduced specification combustion air, cost-effective reference materials, and exceptional precision valuable for research purposes.
What does the IQT TALM Precision Package offer?
The IQT TALM Precision Package offers a set of upgrade kits designed to enhance the automation, precision, and user-friendliness of the standard IQT system.
Can I customize my package?
Yes! You can choose from eight upgrade kits or opt for a comprehensive solution that bundles five primary kits.
What are the benefits of the TALM-K7 panel?
The TALM-K7 panel enhances automation by controlling gas pressures and providing alerts when cylinders are nearly empty to prevent interruptions.
What are the distinguishing features of the IQT system?
The distinguishing features include extended range tests, sensitivity to additives, automated quiet operation, short test times, and small sample sizes ensuring ease of use and efficiency.
Is the system capable of testing biodiesel fuels?
Yes! The system has proven testing capability for B100 and various biodiesel fuels from diverse sources.
Where can I learn more about this system’s capabilities?
Contact our experts who will provide detailed information tailored to your needs.
Concluding Thoughts on Fuel Testing Revolution with IQT
Since its inception in 1998, the IQT system has transformed fuel testing. As industries evolve, demanding higher standards and efficiency, the IQT system stands ready to meet these challenges head-on. With an unwavering commitment to reliability and cost-efficiency, the innovative approaches introduced by the Precision Package elevate both automation and user-friendliness, thus raising industry benchmarks altogether.
Unlocking Future Prospects: Embrace The Difference
Precision meets ease-of-use combined with unmatched adaptability, making this versatile solution crucial across various industrial applications worldwide today. Future-oriented innovation empowers every stakeholder involved, whether blending enthusiasts or dedicated researchers alike, delivering truly revolutionary experiences that redefine excellence within the realm of fuel testing, one test at a time!
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6 Benefits of Moringa
What is Moringa?
Mostly referred to as the "miracle tree," the fast-growing moringa tree is actually native to northern India.
The most well-known and widely used part of the tree are its seeds, which have been part of a traditional food in Asia and Africa for centuries.
Today, moringa is readily available in various forms, including capsules, extracts, oils, powders & teas. The seeds can also be roasted and eaten like nuts, and the flowers can be consumed to make tea.
However, the easiest method to consume moringa is in powder form, made from dried leaves. The taste is much milder than the seeds, & dried leaves actually contains higher amounts of nutrients than the fresh versions.
Overall, moringa is highly valued for its nutritional advantages. It's also been used for non-food purposes like biodiesel production and as an component in beauty products.
Summary: Moringa originates from northern India and has long been used for nutritional, medical and different non-food uses.
1. The Moringa Plant Combats Malnutrition
In developing nations, where malnutrition is additional prevalent, moringa can be a lifesaver.
In fact, many groups and villages are cultivating the moringa plant in order to make it a staple part of their diet.
Along with its impressive amount of vitamins and minerals, moringa is a fine source of protein and essential fats.
The leaves have even been used as a multivitamin supplement because of their much amounts of minerals like iron, calcium, and zinc, all essential for growth and evolve.
The tree is also resistant to drought and can withstand dried and hot climates, making it an excellent, nutrient-dense food source for impoverished communities.
Summary: Moringa is a fine source of protein, fats, vitamins and minerals necessary for proper growth and development. The plant is easy to evolve and resistant to drought, making it an important food source for malnourished communities.
2. Can Be Used for Water Purification
Boasting antimicrobial properties, moringa India also play a powerful role in water cleaning in developing nations.
When the oil is extracted from the moringa seeds, a protein-rich "cake" is left. This can inhibit bacterial growth and be used to purify water for humans.
Because moringa can be grown in abundance, this is an easy, cost-effective method to prevent waterborne diseases.
Summary: Moringa seeds suppliers India extract can inhibit bacterial growth and be used to clean water, making it potable for humans and animals.
3. Acts as an Anti-inflammatory and Antioxidant
Research be seen that moringa seeds contain a powerful mix of health-promoting antioxidants.
In mouse studies, Moringa seed exporters India extract functioned as an anti-inflammatory and antioxidant, make better symptoms of ulcerative colitis (UC). This data suggests a similar effect could be seen in humans.
Another study got to know that boiling the seeds increased the availability of both antioxidants and iron.
Summary: Moringa seeds offer anti-inflammatory and antioxidant effects, which may assist symptoms of ulcerative colitis.
4. Boosts Heart Health
Different studies have found that moringa seeds may be beneficial to heart health.
They contain high levels of monounsaturated fats, which can help lower LDL (bad) cholesterol and may decrease your risk of heart disease and stroke if replacing saturated fat.
In one lab study done on rats, the use of moringa seeds decreased oxidative stress and protected heart cells while reducing inflammation.
Another study on rats found that moringa seed powder lessen cardiac fibrosis, triglycerides and heart rate, and improved overall cardiac function.
Summary: Studies have found that moringa seeds may improve heart health by decrease triglycerides, oxidative stress and inflammation.
5. Moringa Supports Digestion
Because of its high fiber content, moringa pods may be beneficial for your digestion.
Each pod contains around 47% fiber and can help you digest daily and easily.
In saying that, whether you'll benefit from an increase or reduce in fiber depends on your situation.
It's also unclear if this would be considered low FODMAP and acceptable for IBS as it has not been tested.
Summary: Moringa pods are high in fiber, which can aid digestion in many instances.
6. May Help Fight Cancer
Moringa seeds are familiar for their potential cancer-fighting abilities.
A protein take out from moringa seeds has been shown to slow the growth of liver cancer in both human and animal cells by up to 71%.
In another lab study, moringa seed extract kept breast cancer cells from significantly growing and increasing.
Liver & colon cancer cells have also been shown to decrease significantly when treated with moringa seeds.
Although this research only reflects lab studies and cannot be applied to humans, the results are promising.
Summary: Moringa seeds have been shown to slow the development of cancer cells in various lab studies.
Looking for moringa seeds suppliers India ? Contact Terry Exports
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Biodiesel : Facts and Myths on Making Biodiesel
What is Biodiesel?
Biodiesel is an energizing and exceptionally quickly developing elective fuel that can be bought or made yourself. To separate biodiesel into two unique methodologies we have the accompanying data with respect to the inquiry; What is biodiesel?
From a Technical point of view:
Biodiesel is a diesel cycle fuel made from vegetable oils, reused oil, and additionally creature fats. The overall synthetic assignment for biodiesel is 'Unsaturated fat Alkyl Esters.' Biodiesel and biodiesel mixes can be utilized in CI motors. In diesel-controlled vehicles, trucks, farm haulers, boats, delivering gear, water system frameworks, mining hardware, electrical generators, and most applications where diesel is commonly utilized.
From a Practical stance:
Biodiesel works in all diesel motors. It's produced using normal oils as opposed to oil. Biodiesel performs comparably to diesel fuel, and can be utilized without any alterations to the diesel motor or the vehicle at Biodiesel fuel station .
Bio Basics
To improve comprehension of what a Biodiesel production plant is, here are a couple of connections identifying terms related with the rudiments of biodiesel.
Titration
Titration is a typical lab technique for quantitative/compound investigation that can be utilized to decide the convergence of a known reactant. - Wikipedia Titration is a circuitous test with the expectation of complimentary unsaturated fats (FFA) in squander vegetable oil. With common café squander oil (under 5% FFA), there's no compelling reason to perform titration with the BioPro™.
Free Fatty Acid (FFA)
Unsaturated fats can be bound or joined to different particles, for example, fatty oils or phospholipids. At the point when they're not connected to different atoms, they're known as "free" unsaturated fats. - Wikipedia Free Fatty Acid Typically FFA are impeding the biodiesel making measure. For most different reactors, in the event that the FFA level in an oil surpasses 2-3%, at that point it is almost difficult to change over into a Biodiesel manufacturing plant. In the BioPro™ 190, the most extreme suggested level is 5%.
Squander Vegetable oil
Numerous vegetable oils have comparative fuel properties to diesel fuel, aside from higher thickness and lower oxidative dependability. On the off chance that these distinctions can be survived, vegetable oil may fill in for #2 Diesel fuel, most essentially as motor fuel or home warming oil. Some companies like as agri and aqua also provides Polyhouse vertical farming
That is Turmeric farming in polyhouse at your bio diesel fuel station that creates a green outlook for the future .
Emulsions
Producers of biodiesel sometimes experience emulsions when they are washing their fuel with water. Due to emulsifying toxins in crude fuel just as chilly climate and different elements, the water can frame a scattered stage in the consistent biodiesel stage.
An 'emulsion' [IPA]: [1]) is a combination of two immiscible (unblendable) fluids. One fluid (the scattered stage) is scattered in the other (the constant stage). Numerous emulsions are oil/water emulsions, with dietary fats being one normal kind of oil experienced in regular day to day existence. Instances of emulsions incorporate spread and margarine, milk and cream, and vinaigrettes; the photograph delicate side of photographic film, magmas and cutting liquid for metal working. - Wikipedia Emulsions
Biodiesel Facts And Myths
Realities:
Biodiesel is perceived by each industry and government substance, including the EPA and the US Department of Transportation.
Biodiesel is made by changing the synthetic structure of regular vegetable and creature oils.
Biodiesel consumes altogether cleaner then diesel fuel and is almost carbon nonpartisan and biodiesel is non-harmful
Biodiesel has a lot higher lubricity than diesel fuel bringing about longer motor life and cleaner fuel infusion parts.
Legends:
"Biodiesel is reused fryer oil." - MYTH - Biodiesel can be produced using any vegetable or creature oil however it has been synthetically handled into an engine fuel.
"Biodiesel requires a transformation." MYTH - This disarray is an aftereffect of the old act of copying straight vegetable oil in more seasoned diesel motors, which requires a vehicle change. Biodiesel doesn't need a change and can be blended in any extent with oil diesel fuel.
"Biodiesel is costly." MYTH - Buying Biofuel station around $4.95 per gallon (July 25, 2012) - generally equivalent to the cost of oil diesel fuel. In any case, biodiesel can be created by an individual utilizing a BioPro™ processor, as a rule for under $1.00 per gallon! (Camp Blanding, a National Guard unit in Florida makes their biodiesel in a BioPro™ for $0.68 pennies per gallon)
"Biodiesel will void my guarantee." MYTH - Many organizations warrant their diesel motors for use with biodiesel just to a point, for example, a 20% mix. Be that as it may, they are precluded by the Magnuson Moss Warranty Act from voiding a guarantee on the grounds that a client surpasses their specifications, except if the higher mix of biodiesel were to legitimately cause the disappointment. By a similar rationale they can likewise void a guarantee if an awful tank of oil diesel fuel straightforwardly causes a disappointment.
"Biodiesel is an ideal fuel."- MYTH - Biodiesel offers enormous points of interest however, similar to any fuel, has a few impediments. it is influenced by chilly climate to a more noteworthy degree than diesel fuel #2, and it commonly conveys 2-3% lower fuel mileage.
#polyhouseverticalfarming#Turmericfarminginpolyhouse#Biodieselfuelstation#Biodieselproductionplant#Biodieselmanufacturingplant#Biofuelstation
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Save Money on Easy, Awesome Science Projects
Get 15% off your Ward’s Science order and free shipping with this special code
From the Cool Cat Teacher Blog by Vicki Davis
Follow @coolcatteacher on Twitter
Ward’s Science has cool hands-on science lessons. Everything comes in the box and you’re ready to engage your students. Recently I tested three of these science kits and in this blog post, I’ll share a review of these kits and how you can save 15% and get free shipping on your future order before October 31, 2019. Additionally, I’ll share information on engaging students in hands-on science learning.
This post is sponsored by Ward’s Science. All opinions are my own. Kits were tested by a middle school science teacher in my school.
Save 15%. Cool Cat Teacher readers Get 15% off your order total Plus Free Shipping with exclusive promo code WardsWorld15CC. (See details for how to redeem this code at the bottom of this post.)
What Kits Did We Test?
We selected some kits to get students excited about matter and also sustainability and water. I appreciate that these are aligned to Next Generation Science standards and that everything is included and ready to go.
Clearing the Water Kit: In this kit, students design a water filtration kit. Everything is included for fifteen groups of students as they model one step of the water filtration process. Kit aligned to Next Gen standards MS-ESS3-3, MS-ETS1-1, MS-ETS1-2, MS-ETS1-3
Green Chemistry: The Production of Biodiesel: In this experiment, students will make crude biodiesel and understand more about “green chemistry.” This also includes enough for 15 lab groups.
Properties of Matter: What is Oobleck? This is the perfect lesson for introducing matter as students back the solid/liquid Oobleck. Students learn the properties of matter and the differences between solids and liquids. While this is recommended for younger students, it is also a great introductory lesson about matter and includes enough for ten lab groups.
Many more kits are available on the Ward’s Science site. Save 15% and get free shipping before October 31 by using the code WardsWorld15CC at check out. (See promotion details at the bottom of this post.)
Also check out teacher grants and funding services for teachers.
Why Hands-On Science?
Recently, I had teen genius, Gitanjali Rao, on the 10 Minute Teacher podcast and she made it clear that when her teachers started teaching science with hands-on experiments that she started learning and understanding science. She said that lecture and taking notes didn’t teach her anything.
My friend DeMarco opened his kit and was ready to teach the lesson with handouts, lab groups and ready to use materials.
But the challenge with hands-on science is that it can be difficult to assemble the materials, organize the plans, and arrange things for effective lab groups. Ward’s Science makes this easy for science teachers. Check out their three catalogs:
Ward’s Science Catalog
Ward’s Science STEM Catalog
Ward’s Healthcare and Medical Catalog
So, if you’re ready to get hands-on in a simple way, check out Ward’s Science and get some kits and get students engaged and excited.
Kits came ready to use with students.
Promotion Exclusions
Offer valid on the web only at wardsci.com. To activate the offer, use promo code at checkout. Offer expires 10/31/19. Free shipping includes standard ground shipping only and excludes items with hazardous shipping; standard hazardous shipping fees will apply. Unless otherwise specified, contract discounts and special offers may not be applied to any item priced with a final digit of ‘9’ (i.e. $6.99; $10.09; $129.99.) Offer excludes Somso models due to the custom nature of the product. Offer excludes all Triumph Board products. Promotional discounts also may not be combined with other offers, discounts, contracts, or promotions. For more details, visit wardsci.com/terms. Selected items may be or contain chemicals, live materials, or hazardous materials and may be restricted for purchase by educational institutions only. To purchase restricted items, please log into wardsci.com with your Full Web Profile, or create a new Full Web Profile here using your school’s Shipping Account Number. A full profile also allows you to pay with purchase orders, receive tax exemptions, contract pricing (if applicable), and other advanced features. Don’t know your Shipping Account Number or not sure what it is? We can help. Email [email protected] or Click to Chat on the profile registration page and a Ward’s Science representative will help you locate your Shipping Account Number or apply for a new one
Disclosure of Material Connection:
This is a “sponsored blog post.” The company who sponsored it compensated me via cash payment, gift, or something else of value to include a reference to their product. Regardless, I only recommend products or services I believe will be good for my readers and are from companies I can recommend. I am disclosing this in accordance with the Federal Trade Commission’s 16 CFR, Part 255: “Guides Concerning the Use of Endorsements and Testimonials in Advertising.”
The post Save Money on Easy, Awesome Science Projects appeared first on Cool Cat Teacher Blog by Vicki Davis @coolcatteacher helping educators be excellent every day. Meow!
from Cool Cat Teacher BlogCool Cat Teacher Blog https://www.coolcatteacher.com/save-money-on-easy-awesome-science-projects/
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Eleventh Week
This week, I was only able to work Tuesday and Wednesday, because I had my OChem midterm on monday and wanted to stay on campus to review my reactions, and then I left Thursday at 3AM to go to the Alpha Chi convention to present my REU research. On tuesday, I spent all day in the analytical lab running titrations. I ran ~10 titrations to figure out the acidity of different biodiesel products, and I ran ~10 titrations in order to figure out the percentage of water. Other than this, all of the analytical samples either were in progress, or we didn’t have enough sample to finish all the requested testing. It’s kind of weird, at most jobs it seems like you want to get ahead, but out here getting ahead typically means that something went wrong and we couldn’t do all the testing, lol.
On wednesday, I was in the analytical lab, and I was told to concentrate down my product, and remove a contaminant. I did this by vacuum filtration, and found that we actually have these really nice disposable vacuum filtration, which makes figuring out exactly how much solid we collected really easy. Additionally, afterwards I rotovapped down my solution, and sent it off to figure out how much contaminant was still left in it.
All in all, most of this week was just busy work that needed to get done, but I think we’re at the edge of some cool stuff in this project, so I’m hoping that next week we get some cool results. Additionally, next week I’ll get my evaluation back, so hopefully it’s good things!
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Freedom Leaf FAQ: 16 Questions About Hemp and CBD
Here are 16 frequently asked questions about marijuana’s most famous non-intoxicating cannabinoid and industrial cousin.
1. What’s the difference between hemp and CBD?
Cannabis sativa L, a.k.a. “industrial hemp,” is an incredibly versatile and durable plant, making it ideal for the manufacture of rope, canvas, paper, textiles, fuel and plastic. Hemp seeds are frequently used for food and beauty products. Hemp grows tall and thin, like bamboo, and is non-intoxicating, unlike marijuana.
Cannabidiol, or CBD, is extracted from hemp or cannabis to make oil. In the past few years, as the legality of marijuana has evolved, CBD sales skyrocketed by nearly 40%, according to New Frontier Data. This growth is unlikely to slow as word about CBD’s potential healing and medicinal benefits continues to spread.
2. What’s the difference between hemp-derived CBD and cannabis-derived CBD?
Hemp-derived CBD, extracted only from the stalks and stems, contains less than 0.3 percent THC and must be imported into the U.S. The 2014 Farm Bill allowed states to grow hemp as part of university research pilot programs. However, most hemp-derived CBD comes from outside the U.S.
Cannabis-derived CBD is not limited to extraction from the stalks and stems. Other parts of the plant, especially the flowers, can be used to make CBD oil. Cannabis-derived CBD is grown in legal states.
(function($){ function bsaProResize() { var sid = "12"; var object = $(".bsaProContainer-" + sid + " .bsaProItemInner__img"); var animateThumb = $(".bsaProContainer-" + sid + " .bsaProAnimateThumb"); var innerThumb = $(".bsaProContainer-" + sid + " .bsaProItemInner__thumb"); var parentWidth = "772"; var parentHeight = "105"; var objectWidth = object.width(); if ( objectWidth < parentWidth ) { var scale = objectWidth / parentWidth; if ( objectWidth > 0 && objectWidth != 100 && scale > 0 ) { animateThumb.height(parentHeight * scale); innerThumb.height(parentHeight * scale); object.height(parentHeight * scale); } else { animateThumb.height(parentHeight); innerThumb.height(parentHeight); object.height(parentHeight); } } else { animateThumb.height(parentHeight); innerThumb.height(parentHeight); object.height(parentHeight); } } $(document).ready(function(){ bsaProResize(); $(window).resize(function(){ bsaProResize(); }); }); })(jQuery); (function ($) { var bsaProContainer = $('.bsaProContainer-12'); var number_show_ads = "0"; var number_hide_ads = "0"; if ( number_show_ads > 0 ) { setTimeout(function () { bsaProContainer.fadeIn(); }, number_show_ads * 1000); } if ( number_hide_ads > 0 ) { setTimeout(function () { bsaProContainer.fadeOut(); }, number_hide_ads * 1000); } })(jQuery);
The most meaningful difference between the two are oversight and product quality. Imported CBD oil has little-to-no oversight regarding extraction techniques and is not likely to have undergone any testing. U.S.-grown, cannabis-derived CBD is tightly controlled, monitored and tested for contaminants.
3. Can you smoke hemp?
Hemp is bred to have negligible amounts of THC and a higher ratio of CBD. So you could smoke it. But if getting high is part of the plan, then hemp’s not for you.
Charlotte Figi
4. What is CBD?
One of the more than 100 chemical compounds present in the cannabis plant, CBD interacts with the body’s endocannabinoid system, which plays a role in regulating physiology and mood. CBD burst onto the scene in 2013 when a young Colorado Springs girl named Charlotte Figi caught the attention of Dr. Sanjay Gupta while filming the CNN documentary, Weed. Figi, who suffers from Dravet syndrome, was having up to 300 seizures a week until her parents started treating her with a high-CBD strain now named for her, Charlotte’s Web.
5. What’s the difference between THC and CBD?
The obvious and visible difference between THC and CBD is that THC can get you high, while CBD cannot. Both are known to have healing properties, but high amounts of THC are less likely to be tolerated by patients, while CBD is known to be tolerable even at high doses. Side effects from CBD are not widely reported, but when they do occur, they’re believed to generate from interaction with other drugs. THC has side effects that are well-known but temporary, like dry mouth, red eyes, sore throat and increased heart rate.
6. Which cannabis strains are highest in CBD?
According to lab data posted by Leafly, the Dancehall strain, with a CBD:THC ratio of 20:1, ranks first. Other high CBD strains include ACDC (19:1), Ringo’s Gift (19:1), Remedy (17:1), Suzy Q (17:1) and Sour Tsunami (15:1). Other strains with high, or balanced, ratios of CBD to THC are Atlant, Avidekel, Candida, Cannatonic, Charlotte’s Web, Dance World, Dinamed, Good Medicine, Harlequin, Hawaiian Dream and Nordle.
7. What are the medical benefits of CBD?
Studies have shown that CBD plays an important role in the treatment of many conditions, most notably, epilepsy. In fact, the FDA recently approved Epidiolex , a CBD oil for Dravet syndrome and Lennox-Gastaut syndrome, another rare kind of epilepsy.
A 2012 study suggested that CBD can be used for pain management. Many professikonal athletes say it helps them recover from injuries and manage chronic pain and inflammation. Other studies have shown that CBD acts as a neuroprotectant (to shield the brain and nervous system).
CBD also interacts in profound ways with cancer cells and may even cause cancer cell death. Other medicinal benefits of CBD include easing symptoms of anxiety and insomnia and as a potential treatment for fighting opioid addiction.
Irie CBD tinctures
8. What’s the best way to use CBD—smoke, vape, eat, tincture, topical?
Most people consume CBD by vaping or as a pill, capsule or tincture. Others may dab it or add it to their food as an isolate. To relieve aches and pains, many use CBD topicals, like a cream or salve. You can also smoke the flower.
9. Is CBD legal?
Even though it seems like CBD is popping up everywhere, the short answer is no, CBD is not federally legal. Fourteen U.S. states have enacted laws that laws that allow for its limited use. But, for the most part, it sits in a legal grey area. If the product contains even a trace amount of THC, it’s considered an illegal substance and may not enter the U.S. stream of commerce. As for U.S. farmers who are growing hemp as part of pilot programs or in legal states, CBD sales are essentially tolerated and lightly enforced. But if you ask the DEA, the Department of Justice and the FDA, CBD is a controlled substance.
However, Epidiolex, mentioned in question 7, was given Schedule V status (“lower potential for abuse”) under the Controlled Substances Act (CSA) by the DEA in September. All other CBD formulas remain in Schedule I (“no currently accepted medical use and a high potential for abuse”), despite extracts being given a new code in 2016.
Industrial hemp farm at University of Kentucky College of Agriculture, Food and Environment’s Spindletop Research Farm in Lexington
10. Is hemp legal?
Hemp has been illegal since the Marijuana Tax Act of 1937, when it got ensnared in the same legal net as marijuana, making it a Schedule I drug. Things have changed somewhat for the better since President Obama signed the 2014 Farm Bill. Now, 41 states have authorized hemp production. However, the disconnect between state and federal laws remains a barrier because the U.S. government continues to assert that hemp and marijuana are legally identical. This puts farmers at risk of prison, asset forfeiture or DEA raids.
11. What are some of the products that can be made with hemp?
Hemp can be made into hundreds of products, such as paper, rope and textiles for clothing. High-end car companies like BMW and Mercedes are utilizing hemp-based composites and plastics, while more companies in the food and beauty sectors are adding hemp to their products. There have been exciting developments in plastics, biodiesel and hemp nanomaterials, which could one day replace environmentally devastating batteries in cell phones and hybrid automobiles.
Hempcrete
12. Can hemp be used to build houses?
Yes! Hempcrete—a mixture of hemp, lime and water—is thought to be more thermal resistant than concrete, as well as more energy efficient. Building with hemp is an environmentally friendly alternative, making the home much less toxic, fire resistant and more able to withstand mold, insects and fire.
13. Where is hemp grown around the world?
Industrial hemp crops span the globe, but the top producer is China, where hemp has been growing continually for thousands of years, followed closely by France and Canada.
14. How will the 2018 Farm Bill affect hemp’s legality?
Passage of the 2018 Farm Bill would be a game changer for the U.S. hemp industry. Introduced last spring by Senate Majority Leader Mitch McConnell, the new law would remove hemp from the CSA and legalize it as an agricultural commodity. On September 30, Congress allowed the 2014 Farm Bill to expire. On November 29, the Senate Agriculture Committee agreed to the above provisions. The bill still needs to be voted on by the full Senate.
15. Are hemp food and household products legal?
Yes, but only if the products contain imported hemp seed or hemp seed oil and has less than 0.3 THC. Two exemplary companies in this space are soap maker Dr. Bronner’s, which annually imports 20 tons of hemp seed oil from Canada, and The Body Shop, with its bestselling line of hemp seed, oil-based lotions, from French-grown plants.
Nutritious hemp seeds
16. What are the nutritional benefits of hemp seeds?
Non-psychoactive hemp seeds, or hearts, have been a nutritional powerhouse for thousands of years because they’re high in polyunsaturated fatty acids like linoleic acid (omega-6), alpha-linolenic acid (omega-3) and gamma-linolenic acid (GLA), and other nutrients.
Polyunsaturated fats are believed to help reduce bad cholesterol levels, which is essential to lowering the risk of heart disease and stroke. These fats also add vitamin E, an important antioxidant that protects the body from cell-damaging free radicals. Since our bodies are unable to produce polyunsaturated fats, hemp seeds can play an important nutritional role in long-term health. Hemp seeds are high in vitamins A and C and beta-carotene, another powerful antioxidant.
Hemp seeds also contain fiber, protein, potassium and iron. Add hemp to your diet by sprinkling shelled seeds on salads or yogurt. Check your local grocery stores for seeds, protein powder, hemp milk, nutrition bars, granola and cold-pressed hemp seed oil. However, cooking with hemp seed oil is not recommended; when heated, it becomes rancid and loses its nutrients. It’s best to keep it cool.
Related Articles
U.S. Chemist Roger Adams Isolated CBD 75 Years Ago
Freedom Leaf Dives into the Hemp-CBD Market
Joy Beckerman: Hemp Industries Association Evangelist
This article appears in Issue 34. Subscribe to the magazine here.
The post Freedom Leaf FAQ: 16 Questions About Hemp and CBD appeared first on Freedom Leaf.
Source: https://www.freedomleaf.com/hemp-cbd-faq/
The blog article Freedom Leaf FAQ: 16 Questions About Hemp and CBD is republished from GigglesNDimples.com
from Giggles N Dimples - Feed https://gigglesndimples.com/2018/12/05/freedom-leaf-faq-16-questions-about-hemp-and-cbd/
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BioDesign Challenge
On July 12th, the students of ASU Digital Culture and The Design School have presented their LIFE/LIGHT project at the Biogesign Challenge summit in MOMA, New York. The project was developed at AME 410 Interactive Materials course and finalized for the competition.
The summit happened for the third time, engaging enthusiasts that combine design with biotechnology. It is one of the largest biodesign events in the US and brings the attention of the growing community of designers and researchers.
Around twenty teams have participated in the Challenge this year from various schools and countries. The 1st prize was taken by the team from Central Saint Martins, UK, that have presented the concept of Quantumworm Mines. The runners-up were the students of University of Edinburgh, UK with the research project “UKEW 2029” that showed parallels between biology and socio-political trends.
What if we worked with the natural world that surrounds us to design with and within its natural patterns, schedules, and properties instead of forcing it to work inharmoniously around ours? How can we be more aware of how we impact the environment we share — even at a microscopic level? #Biodesignchallenge #asu
A post shared by ASU Herberger Institute (@asuherberger) on Jun 23, 2017 at 11:55am PDT
ASU project researched the potential of bioluminescent unicellular organisms and scrutinized the issue of co-habitat and control in a man-made environment. LIFE/LIGHT is an algae-driven living building system that produces fuel and light if properly taken care of.
We were designing in the middle-ground between an artifact, living nature, and humanity where the behavior of each component of the system influences its performance. (See figure 1.)
Figure 1. Concept diagram.
Choosing our components within the broad fields of nature and artifacts, we decided to look into the relationships between dinoflagellate, a capricious algae creature that illuminates ocean in a number of coastal cities, including San Diego, and architecture as a medium for most of the human activities.
LIVING ARCHITECTURE
With the increasing concerns about ecology, the notion of living architecture arises. In the age of Anthropocene, living buildings adapt to the constant flux of technological, social and environmental conditions through integration with living nature.
The best example of such thing, probably, would be the rice paddles in South Vietnam (image 1), a sustainable artifact of agriculture and built environment that existed for centuries.
Image 1. Rice paddles in South Vietnam, stock photo.
Among other inspirational examples are the Algae-fueled building in Hamburg designed by ARUP (image 2), the proposal by Mitchell Joachim for homes grown like plants (image 3), and the interactive installation by David Benjamin that visualized ecological conditions for the citizens of Seoul (image 4).
Image 2. BIQ algae-powered building in Hamburg, image courtesy of ARUP.
Image 3. FabTreeHub, image courtesy of Mitchell Joachim.
Image 4. Living Light, Seoul, image courtesy of David Benjamin and The Living New York.
DINOFLAGELLATE
Image 5. Bioluminescent dinoflagellate, stock photo.
Dinoflagellates are unicellular algae plankton chosen for the LIFE/LIGHT project due to the its qualities:
Bioluminescence
Image 5. Bioluminescent jellyfish, stock photo.
Bioluminescence is the ability of living organisms to produce light. The “cold light” produced by dinoflagellate is done without wasting energy compared to conventional
electrically generate light.
When agitated by movement, algae colony produces light for a short perious of time.
CO2 Consumption
Dinoflagellate photosynthesis is capable of converting CO2 in glucose. This provides residual potential energy within cultures longer after decay.
Conversion to biofuel
Dinoflagellates may contain large amounts of high-quality lipids, the principal component of fatty acid methyl esters. The harvest of these organisms provides a suitable choice as a bioresource for biodiesel production.
Natural medium
Dinoflagellates are marine organisms that thrive in the natural medium of marine water. It makes them suitable for growth in the coastal cities with the use of natural salt water resources only.
ALGAE AT DAR
The dinoflagellates were grown in SANDS lab as part of the Digital Art Ranch at ASU.
This space supports DIY biology as well as other forms of researching interactive materials (image 6).
Image 6. The experience of working with dinoflagellates, photos from DAR.
Growing algae takes a lot of patience and attentiveness. Not only we had to keep in a specific medium for the lack of fresh marine water, but also synchronise its day and night cycles with the lab operating hours.
During the day cycle (~12 hours), photosynthesis happens, and algae transform CO2 into glucose. During the night cycle (~12 hours also), they multiply and show bioluminiscense if agitated. Like humans, dinoflagellates are active during the day, rest during the night, and are very irritated when their rest is interrupted.
The optimal living condition for dinoflagellate is a room temperature 18 to 24°C (65 to 75°F) and avoiding rapid temperature fluctuations. This was regulated using a white LED lamp, which can be changed for a cool white fluorescent light.
Challenges
Time was a limiting factor as cultures would take a week or two to regain its properties from packaging. This opened for the possibility that cultures order may have been non-lively upon arrival.
Also the time for sub-dividing cultures takes 3-4 weeks, again letting the subcultures regain their properties. Then when testing cultures, this would have to be done over a span of days to few weeks to determine the necessary action for culturing.
A typical dinoflagellate flash of light contains about 100 million photons and lasts about a tenth of a second. In a testing format, it is suggested to use a control amount and compare the luminous value on the scale of 10. Also, one has to be very careful not to “stimulate” the culture before you actually measuring their light output because the first time they flash they produce a lot more light than each successive flash.
Learned
Patience and constantly being aware of the cultures. The cultures can be unforgiving when they begin to use bio luminescence and taking additional time to recharge before seeing the effect again. Also there was a problem to document the effect during an appropriate time.For circadian rhythms to
For circadian rhythms to be aligned with documentation during the day. The cultures would be in a night cycle during the day. Causing a problem of space, we had to devise a small container that would keep temperatures low and block enough light pollution from the room it was placed in.
DINOFLAGELLATE BUILDING FACADE SYSTEM
The project is a living building system that is attached to buildings in coastal cities and relies on algae for light and fuel production. It utilizes ocean water resources as a medium for dinoflagellate. It consists of tubes filled with algae-infused fluid, distributed operational nodes that control the water flow and a controlling device.
Image 7. Facade system sketch
The system works in 3 different modus operandi: day, night and
harvesting organic residues for biofuel production.
System elements
Figure 2. System elements
Day mode
During the day, the water is supplied from the ocean water resources and distributed to the LIFE/LIGHT and other building systems, e.g. cooling. The algae-infused fluid flows into the tubes attached to a building facade and exposed to the sun.
Figure 3. Day mode
Night mode
At night, algae-infused water fills the interior tube system that prevents its exposure to
city night illumination. When moved, the fluid gives away cold light that supports quiet
night activities inside a building.
In this mode, the most interaction between a human and the system happens. Human and algae share the same habitat and have to live in harmony in order for the system to work. If the night cycle is distracted by a human’s late night activities, algae do not multiply. When a person moves within the space with the algae tubes, they also move, arousing bioluminescence and illuminating the space.
Figure 4. Night mode
Harvest mode
At the end of dinoflagellates life cycle, they become a residual organic matter that can be harvested in order to produce biofuel.
Figure 5. Night mode
Operational node
The node serves an illustration to a highway of tracks within a system.
There would be numerous tubes to ensure the cultures are filtering, harvesting and transport to the correct location.
Image 8. Operational node
Controlling node
Inspired by thermostats, the control unit provides a basis for displaying information and controlling additional systems in a house.
The 3 buttons would allow for the most critical options of the system to be chosen.
Additionally, the display provides a small sample of the dinoflagellates that would be tested. Depending on the condition of the sample and the previous sample was taken, the filter option could be accepted. Cycling the dinoflagellate culture and providing more medium.
Image 9. Controlling node
The origin of the design needed to resemble a simple form of communication to a user that performs maintenance with the architecture embedded system. Not only would it provide given information on the LCD screen but it has the ability to control other system operations as needed.
Image 10. Inspiration for the controlling node. Image courtesy of Honeywell.
The questions then are:
What is the boundary between an artifact and nature? Is the LIFE/LIGHT system alive?
Would you co-inhabit space in algae and adjust your habits so that both species thrive or control it remotely and transform living creatures into a utility?
The project was submitted by Loren Benally and Veronika Volkova and contributed by Jacob Sullivan and Ryan Wertz
from Blogger http://lamurdis.blogspot.com/2017/07/biodesign-challenge.html
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The Comprehensive Guide to Ignition Delay Testing with the IQT Lab Model
Are you looking to assess fuel quality and performance through ignition delay testing? Look no further than the IQT Lab Model, also known as IQT-LM. Since its inception in 1998, this model has been a pioneer in the industry, offering a reliable and effective solution for your testing needs.
High Precision Fuel Injection System (HP-FIS)
Equipped with the standard High Precision Fuel Injection System (HP-FIS), the IQT-LM ensures accurate fuel injection for ignition delay testing, laying a solid foundation for dependable results. While it may not boast all the automation and precision features of other models, its robustness makes it an excellent choice for fundamental testing requirements.
Specifications and Standards
The IQT Lab Model is recommended for conducting ignition delay and Derived Cetane Number (DCN) tests on various fuel types. It complies with essential standards, including ASTM D6890, EN 15195 (IP 498), and ASTM D6751. These standards cover a wide range of fuel characteristics, making the IQT-LM an indispensable tool for professionals and researchers alike.
User-Friendly Interface
Operating on a Windows 10 PC running the IQT TALM K2 software, each IQT system offers enhanced visibility for monitoring tests, ensuring convenience in a lab environment. The monitor display provides easy access to critical data and test progress, simplifying your testing process.
Data Backup and Redundancy
Featuring a fully integrated data backup system with RAID 1 redundancy on the primary drive, the IQT Lab Model ensures that your data is secure even in the event of system failure. This additional layer of security gives you peace of mind during testing procedures.
Additional Features
The TALM K2 software provides highly visible test monitoring for quick assessment. Automated calibration is recommended for use with specific fuel reservoir assemblies. The system offers automated test procedures, quiet operation, ease of use, short test times (around 17 minutes), and compatibility with various fuel types.
Proven Testing Capability
The IQT Lab Model boasts proven ability to test highly paraffinic fuels from synthesis or hydro-treatment while requiring only a small sample size (less than 100 mL). With low operating and maintenance costs and easy access for maintenance, it's a reliable choice for conducting tests on biodiesel blends as well.
Conclusion
In conclusion, the IQT Lab Model (IQT-LM) continues to stand as a testament to reliability and precision since its launch in 1998. Whether you're a professional or researcher seeking dependable results from ignition delay testing, this model is sure to meet your needs.
Frequently Asked Questions about the IQT-LM:
What is the IQT Lab Model (IQT-LM)?
The IQT Lab Model is an ignition delay testing instrument designed for assessing fuel quality and performance. Equipped with HP-FIS, it's well-suited for tests according to industry standards.
What are the key standards that the IQT-LM complies with?
The model complies with important standards such as ASTM D6890, EN 15195 (IP 498), and ASTM D6751—ensuring comprehensive coverage across various fuel types.
How user-friendly is the interface?
With user-friendly software offering high-visibility test monitoring capabilities, it's easy to assess test progress in any lab environment.
Can it withstand data loss in case of system failure?
Yes! The model features fully integrated data backup systems ensuring data security even in case of system failure.
What are some additional features?
Other features include highly visible test monitoring using TALM K2 software along with automated calibration—making it an efficient choice for different fuel types.
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Revolutionize Your Fuel Testing with the IQT Totally Automated Laboratory Model
Introducing the IQT system, a groundbreaking CVCC instrument that has set the industry standard since its inception in 1998. As the trusted referee test method in EN 15940, governing paraffinic fuels in Europe, the IQT system embodies reliability, precision, and cost-efficiency. Its compact sample size, minimized combustion air requirements, and affordable reference materials make it an unparalleled choice. Whether you're engaged in fuel blending or pioneering research, the IQT system's precision and accuracy have you covered. With over 200 installations globally, some boasting over 100,000 test runs, the IQT system's track record speaks volumes about its reliability.
Unveiling the IQT TALM Precision Package
Elevate your fuel testing experience with the IQT TALM Precision Package, enhancing the standard LM system with eight upgrade kits to ensure peak automation, precision, and user-friendliness. For those seeking a comprehensive solution, the TALM Precision Package bundles five primary TALM kits to enhance precision and ease of use.
TALM-K1: Elevating Control Cabinet
This cabinet acts as the electronic interface for other automated components, indispensable for kits K3 to K6 and K10.
TALM-K2: IQT System and Control Software
The IQT TALM software provides enhanced test monitoring with high visibility, accessible from anywhere in your lab. It simplifies calibration through automated, unattended mode testing, boosting productivity and convenience.
TALM-K3: Nozzle Tip Temperature Control
Enhance IQT precision and eliminate manual coolant flow adjustments with this kit (requires TALM K1 and K2 kits).
TALM-K4: Combustion Chamber Tail Temperature Control
Achieve heightened IQT precision by eliminating the need for manual coolant flow adjustments in the combustion chamber tail (requires TALM-K1 and K2 kits).
TALM-K6: Electronic Coolant Flow Indicator
Bid farewell to manual coolant flow checks at the beginning and end of an operating period. Kit K6 provides automated digital coolant flow indication within IQT™ System Software (ISS) (requires TALM-K1 and K2 kits).
Discover More TALM Upgrade Kits
TALM-K7: Electronic Pressure Regulator Panel
TALM-K8: Improved Heater Monitoring Tool (coming soon)
TALM-K9: Self-Sealing Fuel Reservoirs with Filling Cleaning Station
TALM-K10: Waste Fuel Container
Key Features That Set IQT Apart
Extended testing range (31.5 to 75.1 DCN) with enhanced precision according to ASTM D6890-18.
Sensitive to cetane improver additives and minor fuel quality variations.
Ability to measure high levels of cetane improver (3000 ppm+ 2EHN) without negative carryover effects.
Ideal for testing highly paraffinic fuels from synthesis or hydro-treatment.
Automated, quiet operation for ease of use.
Short test time (under 20 minutes) ensures high productivity.
Small sample size (less than 100 mL) reduces resource consumption.
Rugged system with low operating and maintenance costs.
Easy maintenance access.
Proven safety track record over the years.
Trusted for testing B100 and various biodiesel fuels from diverse sources.
Experience the IQT difference – where precision meets ease, reliability, and cost-efficiency.
FAQs about the IQT Totally Automated Laboratory Model
What is the significance of the IQT system in fuel testing?
The IQT system plays a crucial role in fuel testing as a cutting-edge CVCC (Constant Volume Combustion Chamber) instrument. Since 1998, it has been the referee test method in EN 15940, governing paraffinic fuels in Europe. This status underscores its reliability, precision, and cost-effectiveness, making it an essential tool for ensuring fuel quality.
What are the key advantages of the IQT system?
The IQT system offers several key advantages, including a small sample size, reduced specification combustion air requirements, and cost-effective reference materials. Its exceptional precision makes it invaluable for fuel blending and research purposes. With over 200 installations worldwide and a trusted track record, it is recognized as a symbol of reliability in the industry.
What is the IQT TALM Precision Package, and how does it enhance the standard IQT system?
The IQT TALM Precision Package is a set of upgrade kits designed to elevate the automation, precision, and user-friendliness of the standard IQT system. It includes kits like TALM-K1 (System Control Cabinet), TALM-K2 (IQT System and Control Software), and more, all aimed at improving the overall testing experience.
Can I customize my IQT TALM Precision Package with specific upgrade kits?
Absolutely! The TALM Precision Package offers flexibility with eight available upgrade kits. You can choose the kits that best suit your needs. If you prefer a comprehensive solution, you can opt for the TALM Precision Package, which bundles five primary TALM kits to enhance precision and ease of use.
How does the TALM-K7 Electronic Pressure Regulator Panel benefit IQT operators?
The TALM-K7 panel enhances automation and precision by controlling all three gas stream pressures and monitoring gas levels in cylinders. It eliminates the need for manual gas pressure adjustments, ensures stable gas pressures, and alerts operators when gas cylinders are nearly empty to prevent test interruptions.
What are the key features that set the IQT system apart from other fuel testing instruments?
The IQT system stands out with its extended testing range (31.5 to 75.1 DCN), sensitivity to cetane improver additives, ability to measure high levels of cetane improver without carryover effects, suitability for testing highly paraffinic fuels, automation, quiet operation, short test times, small sample size, low operating costs, and a proven safety track record.
Can the IQT system test biodiesel fuels, and if so, from what sources?
Yes, the IQT system has a proven testing capability for B100 and various biodiesel fuels from different sources. It is versatile and adaptable for a wide range of fuel types.
How can I learn more about the IQT system and its capabilities for my specific needs?
To explore the IQT system's capabilities and discuss how it can meet your specific requirements, please contact our team of experts who will be happy to provide you with detailed information and guidance.
0 notes
Text
Revolutionizing Fuel Testing: Meet the IQT Automated Laboratory Model
In a landscape where precision, reliability, and cost-efficiency reign supreme, the IQT system emerges as a game-changer. Since its inception in 1998, this Constant Volume Combustion Chamber (CVCC) instrument has been leading the way in fuel testing standards. Serving as the revered referee test method in EN 15940, governing paraffinic fuels in Europe, the IQT system stands as the trusted choice for industry leaders. Its appeal lies in its modest sample size, minimal combustion air requirements, and budget-friendly reference materials. Whether you're a fuel blending aficionado or a pioneering researcher, the IQT's precision and accuracy have you covered. With over 200 installations worldwide, boasting over 100,000 test runs collectively, the IQT's track record speaks volumes about its reliability.
Introducing the IQT TALM Precision Package: Elevate Your Fuel Testing Experience
Prepare to embark on a journey to elevate your fuel testing endeavours with the IQT TALM Precision Package. This comprehensive package takes the standard LM system and enhances it with eight cutting-edge upgrade kits. These kits epitomize automation, precision, and user-friendliness, catering to those who demand a holistic solution. The TALM Precision Package bundles five primary TALM kits to enhance precision and user experience seamlessly.
TALM-K1: Enhancing Control Cabinet Functionality
The cornerstone of automation for other components, this cabinet serves as the electronic interface, facilitating kits K3 to K6 and K10.
TALM-K2: IQT System and Control Software Advancements
The IQT TALM software introduces advanced test monitoring with high visibility, accessible from any corner of your lab. Simplify calibration through automated, unattended mode testing, ultimately enhancing productivity and convenience.
TALM-K3: Nozzle Tip Temperature Control for Enhanced Precision
Bid farewell to manual coolant flow adjustments and elevate IQT precision with this kit (requires TALM K1 and K2 kits).
TALM-K4: Precise Combustion Chamber Tail Temperature Control
Experience heightened IQT precision by eliminating the need for manual coolant flow adjustments in the combustion chamber tail (requires TALM-K1 and K2 kits).
TALM-K6: Streamlined Electronic Coolant Flow Indicator
Bid adieu to manual coolant flow checks with automated digital coolant flow indication within the IQT System Software (ISS) (requires TALM-K1 and K2 kits).
Explore More TALM Upgrade Kits
TALM-K7: Electronic Pressure Regulator Panel (optional)
TALM-K8: Improved Heater Monitoring Tool (coming soon)
TALM-K9: Self-Sealing Fuel Reservoirs with Filling Cleaning Station
TALM-K10: Automated Waste Fuel Container Level Monitoring
Unlocking Unique Features of the IQT System
ASTM D6890-18 expands the testing range (31.5 to 75.1 DCN) with enhanced precision.
Sensitivity to cetane improver additives and minor fuel quality variations.
Measures high levels of cetane improver (3000 ppm+ 2EHN) without negative carryover effects.
Ideal for testing highly paraffinic fuels from synthesis or hydro-treatment.
Automation, quiet operation, and swift testing (under 20 minutes) ensure remarkable productivity.
A small sample size (less than 100 mL) reduces resource consumption.
The rugged system comes with low operating and maintenance costs.
Easy maintenance access.
A proven safety track record over the years.
Trusted for testing B100 and a variety of biodiesel fuels from diverse sources.
FAQs about the IQT Automated Laboratory Model
What is the significance of the IQT system in fuel testing?
The IQT system is a cutting-edge CVCC (Constant Volume Combustion Chamber) instrument that has been at the forefront of fuel testing since 1998. It's significant because it serves as the referee test method in EN 15940, governing paraffinic fuels in Europe, making it a proven, reliable, and precise instrument with low operating costs.
What are the key advantages of the IQT system?
The IQT system boasts advantages such as a small sample size, reduced specification combustion air, and cost-effective reference materials. It offers exceptional precision, making it a valuable tool for fuel blending and research purposes. With over 200 installations worldwide and a trusted track record, it's a symbol of reliability.
What is the IQT TALM Precision Package, and how does it enhance the standard IQT system?
The IQT TALM Precision Package is a set of upgrade kits designed to elevate the automation, precision, and user-friendliness of the standard IQT system. It includes kits like TALM-K1 (System Control Cabinet), TALM-K2 (IQT System and Control Software), and more, all aimed at improving the overall testing experience.
Can I customize my IQT TALM Precision Package with specific upgrade kits?
Absolutely! The TALM Precision Package offers flexibility with eight available upgrade kits. You can choose the kits that best suit your needs, and if you prefer a comprehensive solution, you can opt for the TALM Precision Package, which bundles five primary TALM kits.
How does the TALM-K7 Electronic Pressure Regulator Panel benefit IQT operators?
The TALM-K7 panel enhances automation and precision by controlling all three gas stream pressures and monitoring gas levels in cylinders. It eliminates the need for manual gas pressure adjustments, ensures stable gas pressures, and alerts operators when gas cylinders are nearly empty to prevent test interruptions.
What are the key features that set the IQT system apart from other fuel testing instruments?
The IQT system stands out with its extended testing range (31.5 to 75.1 DCN), sensitivity to cetane improver additives, ability to measure high levels of cetane improver without carryover effects, suitability for testing highly paraffinic fuels, automation, quiet operation, short test times, small sample size, low operating costs, and a proven safety track record.
Can the IQT system test biodiesel fuels, and if so, from what sources?
Yes, the IQT system has a proven testing capability for B100 and various biodiesel fuels from different sources. It is versatile and adaptable for a wide range of fuel types.
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Elevate Your Fuel Testing: Unveiling the IQT Totally Automated Laboratory Model
The IQT system, a revolutionary CVCC instrument setting industry standards since 1998, is transforming fuel testing. As the trusted referee test method in EN 15940, regulating paraffinic fuels in Europe, the IQT system stands as a beacon of reliability, precision, and cost-efficiency. Its small sample size, reduced combustion air requirements, and budget-friendly reference materials make it an unparalleled choice. Whether you're into fuel blending or groundbreaking research, the IQT's precision and accuracy have got you covered. With over 200 installations worldwide and some boasting over 100,000 test runs, the IQT's track record speaks volumes about its trustworthiness.
Unveiling the IQT TALM Precision Package
Take your fuel testing to the next level with the IQT TALM Precision Package. This package takes the standard LM system and supercharges it with eight upgrade kits, ensuring automation, precision, and user-friendliness are at their peak. If you're looking for a comprehensive solution, the TALM Precision Package bundles five primary TALM kits to elevate precision and ease of use.
TALM-K1: Elevating Control Cabinet
This cabinet serves as the electronic interface for other automated components, making it a must-have for kits K3 to K6 and K10.
TALM-K2: IQT System and Control Software
The IQT TALM software offers enhanced test monitoring with high visibility, accessible from anywhere in your lab. It simplifies calibration through automated, unattended mode testing, boosting productivity and convenience.
TALM-K3: Nozzle Tip Temperature Control
Boost IQT precision and eliminate manual coolant flow adjustments with this kit (requires TALM K1 and K2 kits).
TALM-K4: Combustion Chamber Tail Temperature Control
Experience heightened IQT precision by removing the need for manual coolant flow adjustments in the combustion chamber tail (requires TALM-K1 and K2 kits).
TALM-K6: Electronic Coolant Flow Indicator
Say goodbye to manual coolant flow checks at the start and end of an operating period. Kit K6 provides automated digital coolant flow indication within IQT™ System Software (ISS) (requires TALM-K1 and K2 kits).
Discover More TALM Upgrade Kits
TALM-K7: Electronic Pressure Regulator Panel (optional)
Take your automation and precision further with this panel, which controls gas stream pressures and monitors cylinder gas levels. It eliminates the need for manual gas pressure adjustments, enhances precision, and warns of low gas levels.
TALM-K8: Improved Heater Monitoring Tool (coming soon)
TALM-K9: Self-Sealing Fuel Reservoirs with Filling Cleaning Station
Enhance productivity, safety, and fuel handling with self-sealing reservoirs that can be filled remotely. Prepare samples in advance for faster testing and increased efficiency.
TALM-K10: Waste Fuel Container
Automate fuel level monitoring in the waste fuel container to prevent spills. Get operator alerts through the TALM-K2 graphical user interface (requires TALM-K1 and K2 kits).
Key Features That Set IQT Apart
ASTM D6890-18 extends the testing range (31.5 to 75.1 DCN) with enhanced precision.
Sensitive to cetane improver additives and minor fuel quality variations.
Measures high levels of cetane improver (3000 ppm+ 2EHN) without negative carryover effects.
Ideal for testing highly paraffinic fuels from synthesis or hydro-treatment.
Automated, quiet operation for ease of use.
Short test time (under 20 minutes) ensures high productivity.
Small sample size (less than 100 mL) reduces resource consumption.
Rugged system with low operating and maintenance costs.
Easy maintenance access.
Proven safety track record over the years.
Trusted for testing B100 and various biodiesel fuels from diverse sources.
What is the IQT system, and why is it significant in fuel testing?
The IQT system is a cutting-edge CVCC (Constant Volume Combustion Chamber) instrument that has been at the forefront of fuel testing since 1998. It's significant because it serves as the referee test method in EN 15940, governing paraffinic fuels in Europe, making it a proven, reliable, and precise instrument with low operating costs.
What are the key advantages of the IQT system?
The IQT system boasts advantages such as a small sample size, reduced specification combustion air, and cost-effective reference materials. It offers exceptional precision, making it a valuable tool for fuel blending and research purposes. With over 200 installations worldwide and a trusted track record, it's a symbol of reliability.
What is the IQT TALM Precision Package, and how does it enhance the standard IQT system?
The IQT TALM Precision Package is a set of upgrade kits designed to elevate the automation, precision, and user-friendliness of the standard IQT system. It includes kits like TALM-K1 (System Control Cabinet), TALM-K2 (IQT System and Control Software), and more, all aimed at improving the overall testing experience.
Can I customize my IQT TALM Precision Package with specific upgrade kits?
Absolutely! The TALM Precision Package offers flexibility with eight available upgrade kits. You can choose the kits that best suit your needs, and if you prefer a comprehensive solution, you can opt for the TALM Precision Package, which bundles five primary TALM kits.
How does the TALM-K7 Electronic Pressure Regulator Panel benefit IQT operators?
The TALM-K7 panel enhances automation and precision by controlling all three gas stream pressures and monitoring gas levels in cylinders. It eliminates the need for manual gas pressure adjustments, ensures stable gas pressures, and alerts operators when gas cylinders are nearly empty to prevent test interruptions.
What are the key features that set the IQT system apart from other fuel testing instruments?
The IQT system stands out with its extended testing range (31.5 to 75.1 DCN), sensitivity to cetane improver additives, ability to measure high levels of cetane improver without carryover effects, suitability for testing highly paraffinic fuels, automation, quiet operation, short test times, small sample size, low operating costs, and a proven safety track record.
Can the IQT system test biodiesel fuels, and if so, from what sources?
Yes, the IQT system has a proven testing capability for B100 and various biodiesel fuels from different sources. It is versatile and adaptable for a wide range of fuel types.
How can I learn more about the IQT system and its capabilities for my specific needs?
To explore the IQT system's capabilities and discuss how it can meet your specific requirements, please contact our team of experts who will be happy to provide you with detailed information and guidance.
0 notes
Text
Revolutionizing Fuel Testing: Unlock the Potential of the IQT Totally Automated Laboratory Model
Since its inception in 1998, the IQT system has been a ground-breaking CVCC instrument, setting the industry standard and establishing itself as the trusted referee test method in EN 15940, governing paraffinic fuels in Europe. Recognized for its reliability, precision, and cost-efficiency, the IQT system stands as a symbol of innovation. Its compact sample size, reduced combustion air requirements, and cost-effective reference materials make it an unmatched choice for fuel blending and cutting-edge research. With over 200 installations globally, some exceeding 100,000 test runs, the IQT system's track record speaks volumes about its trustworthiness.
Introducing the IQT TALM Precision Package: Elevate Your Fuel Testing Experience
Take your fuel testing to new heights with the IQT TALM Precision Package, enhancing the standard LM system with eight advanced upgrade kits. These kits ensure that automation, precision, and user-friendliness are optimized, providing a comprehensive solution for your testing needs.
TALM-K1: Enhancing Control Cabinet
Serving as the electronic interface for other automated components, this cabinet is essential for kits K3 to K6 and K10.
TALM-K2: IQT System and Control Software
The IQT TALM software offers enhanced test monitoring with high visibility, accessible from anywhere in your lab. Simplify calibration through automated, unattended mode testing, boosting productivity and convenience.
TALM-K3: Nozzle Tip Temperature Control
Enhance IQT precision and eliminate manual coolant flow adjustments with this kit (requires TALM K1 and K2 kits).
TALM-K4: Combustion Chamber Tail Temperature Control
Achieve heightened IQT precision by eliminating the need for manual coolant flow adjustments in the combustion chamber tail (requires TALM-K1 and K2 kits).
TALM-K6: Electronic Coolant Flow Indicator
Bid farewell to manual coolant flow checks at the start and end of an operating period. Kit K6 provides automated digital coolant flow indication within IQT™ System Software (ISS) (requires TALM-K1 and K2 kits).
Explore More TALM Upgrade Kits
TALM-K7: Electronic Pressure Regulator Panel
Take your automation and precision further with this panel, controlling gas stream pressures and monitoring cylinder gas levels. Eliminate the need for manual gas pressure adjustments, enhance precision, and receive warnings of low gas levels.
TALM-K8: Improved Heater Monitoring Tool (coming soon)
TALM-K9: Self-Sealing Fuel Reservoirs with Filling Cleaning Station
Enhance productivity, safety, and fuel handling with self-sealing reservoirs that can be filled remotely. Prepare samples in advance for faster testing and increased efficiency.
TALM-K10: Waste Fuel Container
Automate fuel level monitoring in the waste fuel container to prevent spills. Receive operator alerts through the TALM-K2 graphical user interface (requires TALM-K1 and K2 kits).
Key Features That Differentiate IQT
ASTM D6890-18 extends the testing range (31.5 to 75.1 DCN) with enhanced precision.
Sensitive to cetane improver additives and minor fuel quality variations.
Measures high levels of cetane improver (3000 ppm+ 2EHN) without negative carryover effects.
Ideal for testing highly paraffinic fuels from synthesis or hydro-treatment.
Automated, quiet operation for ease of use.
Short test time (under 20 minutes) ensures high productivity.
Small sample size (less than 100 mL) reduces resource consumption.
Rugged system with low operating and maintenance costs.
Easy maintenance access.
Proven safety track record over the years.
Trusted for testing B100 and various biodiesel fuels from diverse sources.
Experience the IQT Difference: Where Precision Meets Ease, Reliability, and Cost-Efficiency
FAQs about the IQT Totally Automated Laboratory Model
What is the IQT system, and why is it significant in fuel testing?
The IQT system is a state-of-the-art CVCC (Constant Volume Combustion Chamber) instrument that has been leading fuel testing since 1998. It's significant as it serves as the referee test method in EN 15940, governing paraffinic fuels in Europe, proving to be reliable, precise, and cost-effective with low operating costs.
What are the key advantages of the IQT system?
The IQT system boasts advantages such as a small sample size, reduced specification combustion air, and cost-effective reference materials. It offers exceptional precision, making it a valuable tool for fuel blending and research purposes. With over 200 installations worldwide and a trusted track record, it symbolizes reliability.
What is the IQT TALM Precision Package, and how does it enhance the standard IQT system?
The IQT TALM Precision Package is a set of upgrade kits designed to elevate the automation, precision, and user-friendliness of the standard IQT system. It includes kits like TALM-K1 (System Control Cabinet), TALM-K2 (IQT System and Control Software), and more, all aimed at improving the overall testing experience.
Can I customize my IQT TALM Precision Package with specific upgrade kits?
Absolutely! The TALM Precision Package offers flexibility with eight available upgrade kits. You can choose the kits that best suit your needs, and if you prefer a comprehensive solution, you can opt for the TALM Precision Package, which bundles five primary TALM kits.
How does the TALM-K7 Electronic Pressure Regulator Panel benefit IQT operators?
The TALM-K7 panel enhances automation and precision by controlling all three gas stream pressures and monitoring gas levels in cylinders. Eliminate the need for manual gas pressure adjustments, ensure stable gas pressures, and receive alerts when gas cylinders are nearly empty to prevent test interruptions.
What are the key features that set the IQT system apart from other fuel testing instruments?
The IQT system stands out with its extended testing range (31.5 to 75.1 DCN), sensitivity to cetane improver additives, ability to measure high levels of cetane improver without carryover effects, suitability for testing highly paraffinic fuels, automation, quiet operation, short test times, small sample size, low operating costs, and a proven safety track record.
Can the IQT system test biodiesel fuels, and if so, from what sources?
Yes, the IQT system has a proven testing capability for B100 and various biodiesel fuels from different sources. It is versatile and adaptable for a wide range of fuel types.
How can I learn more about the IQT system and its capabilities for my specific needs?
To explore the IQT system's capabilities and discuss how it can meet your specific requirements, please contact our team of experts who will be happy to provide you with detailed information and guidance.
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Revolutionize Your Fuel Testing with the IQT Totally Automated Laboratory Model
Meet the IQT system, a ground-breaking CVCC instrument that has been the industry standard since 1998. As the trusted referee test method in EN 15940, governing paraffinic fuels in Europe, the IQT system stands as a beacon of reliability, precision, and cost-efficiency. Its small sample size, reduced combustion air requirements, and budget-friendly reference materials make it an unparalleled choice. Whether you're into fuel blending or conducting ground-breaking research, the IQT's precision and accuracy have you covered. With over 200 installations worldwide, some boasting over 100,000 test runs, the IQT's track record speaks volumes about its trustworthiness.
Unveiling the IQT TALM Precision Package
Take your fuel testing to the next level with the IQT TALM Precision Package. This package enhances the standard LM system with eight upgrade kits, ensuring automation, precision, and user-friendliness are at their peak. If you're looking for a comprehensive solution, the TALM Precision Package bundles five primary TALM kits to elevate precision and ease of use.
TALM-K1: Elevating Control Cabinet
This cabinet serves as the electronic interface for other automated components, making it a must-have for kits K3 to K6 and K10.
TALM-K2: IQT System and Control Software
The IQT TALM software offers enhanced test monitoring with high visibility, accessible from anywhere in your lab. It simplifies calibration through automated, unattended mode testing, boosting productivity and convenience.
TALM-K3: Nozzle Tip Temperature Control
Boost IQT precision and eliminate manual coolant flow adjustments with this kit (requires TALM K1 and K2 kits).
TALM-K4: Combustion Chamber Tail Temperature Control
Experience heightened IQT precision by removing the need for manual coolant flow adjustments in the combustion chamber tail (requires TALM-K1 and K2 kits).
TALM-K6: Electronic Coolant Flow Indicator
Say goodbye to manual coolant flow checks at the start and end of an operating period. Kit K6 provides automated digital coolant flow indication within IQT™ System Software (ISS) (requires TALM-K1 and K2 kits).
Discover More TALM Upgrade Kits
TALM-K7: Electronic Pressure Regulator Panel
Take your automation and precision further with this panel, which controls gas stream pressures and monitors cylinder gas levels. It eliminates the need for manual gas pressure adjustments, enhances precision, and warns of low gas levels.
TALM-K8: Improved Heater Monitoring Tool (coming soon)
TALM-K9: Self-Sealing Fuel Reservoirs with Filling Cleaning Station
Enhance productivity, safety, and fuel handling with self-sealing reservoirs that can be filled remotely. Prepare samples in advance for faster testing and increased efficiency.
TALM-K10: Waste Fuel Container
Automate fuel level monitoring in the waste fuel container to prevent spills. Get operator alerts through the TALM-K2 graphical user interface (requires TALM-K1 and K2 kits).
Key Features That Set IQT Apart
ASTM D6890-18 extends the testing range (31.5 to 75.1 DCN) with enhanced precision.
Sensitive to cetane improver additives and minor fuel quality variations.
Measures high levels of cetane improver (3000 ppm+ 2EHN) without negative carryover effects.
Ideal for testing highly paraffinic fuels from synthesis or hydro-treatment.
Automated, quiet operation for ease of use.
Short test time (under 20 minutes) ensures high productivity.
Small sample size (less than 100 mL) reduces resource consumption.
Rugged system with low operating and maintenance costs.
Easy maintenance access.
Proven safety track record over the years.
Trusted for testing B100 and various biodiesel fuels from diverse sources.
Experience the IQT Difference – Where Precision Meets Ease, Reliability, and Cost-Efficiency
FAQs about the IQT Totally Automated Laboratory Model
What is the IQT system, and why is it significant in fuel testing?
The IQT system is a cutting-edge CVCC (Constant Volume Combustion Chamber) instrument that has been at the forefront of fuel testing since 1998. It's significant because it serves as the referee test method in EN 15940, governing paraffinic fuels in Europe, making it a proven, reliable, and precise instrument with low operating costs.
What are the key advantages of the IQT system?
The IQT system boasts advantages such as a small sample size, reduced specification combustion air, and cost-effective reference materials. It offers exceptional precision, making it a valuable tool for fuel blending and research purposes. With over 200 installations worldwide and a trusted track record, it's a symbol of reliability.
What is the IQT TALM Precision Package, and how does it enhance the standard IQT system?
The IQT TALM Precision Package is a set of upgrade kits designed to elevate the automation, precision, and user-friendliness of the standard IQT system. It includes kits like TALM-K1 (System Control Cabinet), TALM-K2 (IQT System and Control Software), and more, all aimed at improving the overall testing experience.
Can I customize my IQT TALM Precision Package with specific upgrade kits?
Absolutely! The TALM Precision Package offers flexibility with eight available upgrade kits. You can choose the kits that best suit your needs, and if you prefer a comprehensive solution, you can opt for the TALM Precision Package, which bundles five primary TALM kits.
How does the TALM-K7 Electronic Pressure Regulator Panel benefit IQT operators?
The TALM-K7 panel enhances automation and precision by controlling all three gas stream pressures and monitoring gas levels in cylinders. It eliminates the need for manual gas pressure adjustments, ensures stable gas pressures, and alerts operators when gas cylinders are nearly empty to prevent test interruptions.
What are the key features that set the IQT system apart from other fuel testing instruments?
The IQT system stands out with its extended testing range (31.5 to 75.1 DCN), sensitivity to cetane improver additives, ability to measure high levels of cetane improver without carryover effects, suitability for testing highly paraffinic fuels, automation, quiet operation, short test times, small sample size, low operating costs, and a proven safety track record.
Can the IQT system test biodiesel fuels, and if so, from what sources?
Yes, the IQT system has a proven testing capability for B100 and various biodiesel fuels from different sources. It is versatile and adaptable for a wide range of fuel types.
How can I learn more about the IQT system and its capabilities for my specific needs?
To explore the IQT system's capabilities and discuss how it can meet your specific requirements, please contact our team of experts who will be happy to provide you with detailed information and guidance.
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The IQT Lab Model: A Thorough Guide to Ignition Delay Testing for Fuels
Ignition delay testing is a crucial aspect of assessing fuel quality and performance. The IQT Lab Model, also known as IQT-LM, stands out as a fundamental yet highly effective instrument for such testing. This guide delves into the features and advantages of the IQT-LM, a model that has been a pioneer in the industry since its inception in 1998. Whether adhering to ASTM D6890, EN 15195 (IP 498), or ASTM D6751 standards, the IQT Lab Model proves to be a reliable partner.
High Precision Fuel Injection System (HP-FIS):
The IQT-LM model is equipped with the standard High Precision Fuel Injection System (HP-FIS). This advanced system ensures precise fuel injection for ignition delay testing, laying the groundwork for dependable results. Although the LM model may lack the automation and precision features of the TALM model, it remains a robust and trustworthy option for fundamental testing needs.
Specifications and Standards:
The IQT Lab Model is the preferred equipment for conducting ignition delay and Derived Cetane Number (DCN) tests on various fuel types. It complies with crucial standards, including:
ASTM D6890: Standard Test Method for Determination of Ignition Delay and DCN of Diesel Fuel Oils by Combustion in a Constant Volume Chamber.
EN 15195 (IP 498): Liquid petroleum products – Determination of ignition delay and DCN of middle distillate fuels by combustion in a constant volume chamber.
ASTM D6751: Standard Specification for Biodiesel Fuel Blend Stock (B100) for Middle Distillate Fuels.
User-Friendly Interface:
Each IQT system is supplied with a Windows 10 PC running the IQT TALM K2 software. This user interface offers enhanced visibility for monitoring tests, making it convenient for use in a lab environment. The provided monitor display ensures easy access to critical data and test progress.
Data Backup and Redundancy:
The IQT Lab Model features a fully integrated data backup system. This system automatically backs up the entire computer system to an internal backup drive, providing an additional layer of security for your data. The primary drive features RAID 1 redundancy, ensuring that even in the event of a disk drive failure, the system can continue operating, and the failed drive can be easily replaced.
Additional Features:
The TALM K2 software offers highly visible test monitoring for quick assessment.
Automated calibration is recommended for use with the Extra-Large (95 mL, stainless steel) Fuel Reservoir Assembly.
The IQT system is consistent with fuel specification test methods.
It offers automated test procedures, quiet operation, and ease of use.
Short test times, approximately 17 minutes, ensure high productivity.
Enhanced productivity can be achieved with the K9 self-sealing reservoirs and cleaning/filling station, allowing preparation of multiple fuel samples for testing ahead of time.
It can be used with either the TALM-K7 electronic pressure regulator system (K1 is not needed) or the mechanical pressure panel.
The IQT is sensitive to cetane improver additives and small fuel quality variations.
It can measure high levels of cetane improver (3000 ppm+ 2EHN) with no negative carryover effects.
Proven ability to test highly paraffinic fuels from synthesis or hydro-treatment.
The IQT Lab Model requires a small sample size, less than 100 mL.
It offers a high level of reliability, a rugged system, and low operating and maintenance costs.
Easy access for maintenance and a safety track record established over many years.
It has a proven testing capability for B100 and other biodiesel fuels from various sources.
Conclusion:
In conclusion, the IQT Lab Model (IQT-LM) is a testament to reliability and precision in the world of ignition delay testing for fuels. With a strong history dating back to its launch in 1998, the IQT-LM continues to serve the needs of professionals and researchers across the globe.
Frequently Asked Questions:
What is the IQT Lab Model (IQT-LM)?
The IQT Lab Model, or IQT-LM, is an ignition delay testing instrument designed for assessing the quality and performance of various fuels. It is equipped with the High Precision Fuel Injection System (HP-FIS) and is well-suited for conducting tests in accordance with industry standards.
What are the key standards that the IQT-LM complies with?
The IQT Lab Model is specified equipment for testing fuels according to several important standards, including ASTM D6890, EN 15195 (IP 498), and ASTM D6751. These standards cover a range of fuel types and characteristics.
How user-friendly is the IQT-LM's interface?
The IQT-LM is equipped with the IQT TALM K2 software, offering a user-friendly interface. It allows for high-visibility test monitoring, making it easy to assess test progress and data in a lab environment.
Can the IQT-LM withstand data loss in case of system failure?
Yes, the IQT Lab Model features a fully integrated data backup system, automatically backing up the entire computer system to an internal backup drive. Furthermore, the primary drive has RAID 1 redundancy, ensuring data security and system resilience in the event of a drive failure.
What are the additional features of the IQT-LM?
Some additional features of the IQT Lab Model include highly visible test monitoring with the TALM K2 software, automated calibration (recommended for use with specific fuel reservoir assemblies), short test times (approximately 17 minutes), and the ability to measure high levels of cetane improver additives with no negative carryover effects.
Is the IQT-LM compatible with various fuel types?
Yes, the IQT-LM is designed to test a wide range of fuel types, including highly paraffinic fuels from synthesis or hydro-treatment. Its versatility makes it a valuable tool for analyzing different fuel samples.
Is the IQT-LM easy to maintain?
Yes, the IQT Lab Model offers easy access for maintenance, and it has a proven safety track record established over many years. It is a rugged system with low operating and maintenance costs.
What is the testing capability of the IQT-LM regarding biodiesel fuels?
The IQT Lab Model has a proven testing capability for B100 and other biodiesel fuels from various sources. It is a reliable choice for conducting tests on biodiesel blends.
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