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techtrends-today · 5 days

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Transforming Biotechnology with AI

The Growing Influence of Biotechnology

Biotechnology has become a pivotal force in various industries, particularly in healthcare and pharmaceuticals. With the ability to manipulate biological systems for the development of new drugs, therapies, and sustainable production methods, its applications are vast and impactful. At the heart of this progress is AI, which is enhancing efficiency, accuracy, and scalability in biotechnology processes.

Successful Scale-Up Examples

Moderna's COVID-19 Vaccine Production

Moderna successfully scaled up COVID-19 vaccine production by using AI algorithms to quickly identify promising mRNA sequences, speeding up development and enabling rapid large-scale production. This highlights AI's role in responding effectively to global health crises.

Ginkgo Bioworks' Synthetic Biology Advancements

Ginkgo Bioworks has made significant strides in synthetic biology by using AI to automate the design and testing of microorganisms. Their platform, which integrates AI with robotics, has enabled the efficient scale-up of synthetic biology projects from lab experiments to industrial applications. This has opened new avenues in producing bio-based products, from fragrances to agricultural strains, showcasing the versatility of AI in biotechnology.

Amgen's Biologic Drug Manufacturing

Amgen uses AI to enhance biologic drug manufacturing by implementing predictive analytics and process optimization, which streamlines production, reduces costs, and improves yield while maintaining quality in biopharmaceutical environments.

Biopharmaceutical Manufacturing Applications

Monoclonal Antibody Production

AI has revolutionized monoclonal antibody production, crucial for treating cancers and autoimmune diseases, by optimizing development and purification processes. Companies like Genentech and Bayer lead in enhancing production efficiency and efficacy through AI.

Outsourcing Manufacturing

AI is crucial in outsourcing biopharmaceutical manufacturing by enhancing quality and compliance. CMOs like Lonza and WuXi AppTec use AI to monitor production in real-time, detect anomalies, and ensure regulatory adherence, boosting efficiency, transparency, and control.

Data-Driven Process Optimization

AI-driven data analysis is revolutionizing biopharmaceutical manufacturing by optimizing processes. It analyzes production data to recommend improvements, enhancing yields, reducing waste, and shortening cycles. Pfizer's use of AI in gene therapy production exemplifies these advancements.

The Future of Biotechnology with AI

Enhanced Predictive Modeling

The future of biotechnology lies in the continued advancement of predictive modelling through AI. By refining these models, companies can anticipate and mitigate potential issues before they arise, leading to more robust and reliable production processes. This proactive approach will be essential as the complexity of biopharmaceutical products continues to grow.

Personalized Medicine

AI is transforming personalized medicine by tailoring treatments to patients' genetic profiles. Companies like IBM Watson Health are leading this innovation with AI algorithms that analyze patient data for optimal treatment identification, promising improved outcomes and a healthcare revolution.

Sustainable Biomanufacturing

AI technologies are enhancing sustainability in biomanufacturing by optimizing resource use, reducing waste, and minimizing environmental impact. For instance, AI-driven improvements in biofuel fermentation processes offer more efficient and eco-friendly fuel alternatives.

FAQs

Q1: How does AI enhance biopharmaceutical manufacturing?

A1: AI enhances biopharmaceutical manufacturing by optimizing processes, improving yield, ensuring quality control, and enabling predictive maintenance.

Q2: What are some successful examples of AI in biotechnology?

A2: Notable examples include Moderna's rapid COVID-19 vaccine production, Ginkgo Bioworks' synthetic biology advancements, and Amgen's biologic drug manufacturing improvements.

Q3: How can AI contribute to personalized medicine?

A3: AI contributes to personalized medicine by analyzing patient data to tailor treatments to individual genetic profiles, improving the efficacy and safety of therapies.

World Biomanufacturing Forum Overview

The World Biomanufacturing Forum, highlighted on the Leadvent Group's website, is a key meeting point for stakeholders in the biomanufacturing sector. This event promotes the exchange of ideas and practices among industry leaders, researchers, and policymakers. It provides a platform to discuss the latest in biomanufacturing technologies, regulatory updates, and effective production scaling strategies. Attendees can join expert-led sessions and networking activities, fostering collaborations to advance the industry. With a focus on cutting-edge developments, the forum is vital for those aiming to lead in bioprocessing and production efficiency.

#bioprocessing #GMP Manufacturing #Biomanufacturing conference #biotechnology #Manufacturing Science and Technology (MSAT)

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tamanna31 · 14 days

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Synthetic Biology: Industry Dynamics, Major Companies Analysis and Forecast- 2030

Synthetic Biology Industry Overview

The global synthetic biology market size was valued at USD 13.09 billion in 2022 and is expected to expand at a compound annual growth rate (CAGR) of 18.97% from 2023 to 2030.

The increasing scope of synthetic biology applications for multiplexed diagnostics & cellular recording, as well as therapeutic genome editing, is anticipated to surge its demand during the study period. Additionally, the utility of organisms and products from synthetic biology techniques in other sectors, including energy and chemicals, is also likely to impact the overall market growth.

Gather more insights about the market drivers, restrains and growth of the Synthetic Biology Market

The outbreak of COVID-19 led to an increased usage of synthetic biology products in the past 2 years. Many key pharmaceutical and biotechnology companies as well as synthetic biology players in the industry have increased their research activities globally, by adopting new techniques for producing test kits, therapies, and vaccines for COVID-19. In a study from European Parliament, synthetic biology is considered to be one of the developing technologies. It has the ability to be used in combating COVID-19 infection. Synthetic biology has also been highlighted as a means to accelerate vaccine development by the National Institute of Health in the U.S.

The global market is expected to advance as a result of the growing research and development activities in various fields. To improve conventional biofuel production, players are implementing synthetic biology approaches to enhance performance and increase the utilization of low-cost inputs such as waste. For instance, fashion companies such as Modern Meadow, Bolt Threads, and Vitro Labs are employing biotechnology to develop sustainable materials.

The market witnessed strong investments from private & public partnerships. As per the data published by SynBioBeta, the startups in the synthetic biology industry raised 7.8 billion in investment in 2020, and USD 18.0 billion in 2021. Companies such as Arbor Biotechnologies and DNA Script raised around USD 215 million and USD 167.2 million, respectively. The heavy investment increases the circulation of funds in the market and supports the growth of companies across the supply chain.

Furthermore, advances in genome editing and the presence of bio-foundries, as well as the availability of natural resources and enormous markets, are highlighted as global strengths in synthetic biology to build a bio-based economy. The possible challenges to the field's long-term development, such as insufficient infrastructure and policies, are discussed along with proposals for overcoming them through public-private partnerships, more effective multilateral cooperation, and a well-developed governance framework.

Additionally, players in the market are entering with the latest technologies in order to meet the growing demand and capture untapped avenues of the market. For instance, in November 2021, Creative Biogene released its broad shRNA products to accelerate RNAi research. The company has broad expertise and experience to offer high-quality RNAi products, including shRNA clones and siRNA libraries, intending to provide effective, convenient, and reliable tools to fast-track RNAi research.

Browse through Grand View Research's Biotechnology Industry Research Reports.

• The global recombinant DNA technology market size was valued at USD 728.9 billion in 2023 and is projected to grow at a CAGR of 5.4% from 2024 to 2030.

• The global DNA diagnostics market size was estimated at USD 10.64 billion in 2023 and is projected to grow at a CAGR of 4.51% from 2024 to 2030.

Global Synthetic Biology Market Segmentation

This report forecasts revenue growth at the global, regional, and country levels and provides an analysis of the latest trends in each of the sub-segments from 2018 to 2030. For this study, Grand View Research has segmented the global synthetic biology market report based on technology, product, application, end-use, and region:

Technology Outlook (Revenue, USD Million, 2018 - 2030)

NGS Technology

PCR Technology

Genome Editing Technology

Bioprocessing Technology

Other Technologies

Product Outlook (Revenue, USD Million, 2018 - 2030)

Oligonucleotide/Oligo Pools and Synthetic DNA

Enzymes

Cloning Technologies Kits

Xeno-Nucleic Acids

Chassis Organism

Application Outlook (Revenue, USD Million, 2018 - 2030)

Healthcare

Clinical

Non-Clinical

Non-healthcare

Biotech Crops

Specialty Chemicals

Bio-fuels

Others

End-use Outlook (Revenue, USD Million, 2018 - 2030)

Biotechnology and Pharmaceutical Companies

Academic and Government Research Institutes

Others

Regional Outlook (Revenue, USD Million, 2018 - 2030)

North America

Canada

Europe

Germany

France

Italy

Spain

Russia

Asia Pacific

Japan

China

India

Australia

Singapore

Latin America

Brazil

Mexico

Middle East & Africa

South Africa

Saudi Arabia

UAE

Key Companies & Market Share Insights

Key players in this market are implementing various strategies to increase profitability, including partnerships, mergers & acquisitions, geographical expansions, and strategic collaborations. For instance, in July 2021, Codexis, Inc. and Kalsec, Inc. announced the expansion of their research collaboration and enrolled in a special supply agreement for a new enzyme to manufacture Kalsec’s newest natural hop acid. Some prominent players in the global synthetic biology market include.

Bota Biosciences Inc.

Codexis, Inc.

Creative Biogene.

Creative Enzymes.

Enbiotix, Inc.

Illumina, Inc.

Merck Kgaa (Sigma-Aldrich Co. Llc)

New England Biolabs

Euro fins Scientific

Novozymes

Pareto Bio, Inc.

Scarab Genomics, Llc

Synthego

Synthetic Genomics Inc.

Thermo Fisher Scientific, Inc.

Order a free sample PDF of the Synthetic Biology Market Intelligence Study, published by Grand View Research.

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fermentertechnologies · 2 months

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What is a Bioreactor and how does it work?

What is a Lab-Scale Bioreactor?

A lab-scale bioreactor is a small-scale vessel used to grow microorganisms, cells, or tissues under controlled conditions. Unlike large industrial bioreactors, which are used for mass production, lab-scale bioreactors are designed for experimentation and process optimization. They provide researchers with the ability to test new processes, optimize conditions, and understand complex biological systems before scaling up to larger systems.

Applications of Lab-Scale Bioreactors

1. Microbial Fermentation:

Lab-scale bioreactors are extensively used to optimize conditions for microbial fermentation processes, which are fundamental for producing antibiotics, enzymes, and biofuels.

2. Cell Culture:

For pharmaceutical and therapeutic applications, lab-scale bioreactors enable researchers to grow mammalian cells, produce therapeutic proteins, and test cellular responses to new drugs.

3. Tissue Engineering:

Bioreactors provide a controlled environment for growing and engineering tissues and organs, which is crucial for regenerative medicine and research.

4. Biochemical Production:

Researchers use these reactors to optimize conditions for the production of various biochemicals, including vitamins, amino acids, and bio-based polymers.

Key Components of a Lab-Scale Bioreactor

Lab-scale bioreactors come in various designs, but they generally include the following key components:

1. Vessel:

The vessel is the container where the biological culture is maintained. It’s usually made from glass or stainless steel and can range in size from a few liters to several liters.

2. Agitation System:

This system ensures proper mixing of the culture medium and maintains uniform conditions throughout the vessel. Agitation is critical for oxygen transfer and nutrient distribution. It can be achieved using impellers, stirrers, or shaking platforms.

3. Aeration System:

To support microbial or cell growth, oxygen must be supplied to the culture. Aeration systems introduce air or oxygen into the vessel, often through spargers or diffusers.

4. Temperature Control:

Maintaining the optimal temperature is crucial for cell growth and metabolic activity. Lab-scale bioreactors are equipped with heating or cooling systems and temperature sensors to regulate this environment.

5. pH and Dissolved Oxygen Sensors:

Monitoring and adjusting pH and dissolved oxygen levels are essential for maintaining optimal growth conditions. Lab-scale bioreactors often include sensors to provide real-time data and automated control systems to adjust conditions as needed.

6. Sampling Ports:

These ports allow researchers to take samples from the bioreactor for analysis without disturbing the culture. Regular sampling helps monitor growth, nutrient consumption, and product formation.

Types of Lab-Scale Bioreactors

Lab-scale bioreactors can be classified based on their mode of operation:

1. Batch Bioreactors:

In batch bioreactors, all nutrients are added at the start, and the culture is allowed to grow until the nutrients are depleted or the desired product is formed. This type is often used for initial experiments.

2. Fed-Batch Bioreactors:

These reactors allow for the addition of nutrients during the cultivation process. Fed-batch systems are beneficial for controlling nutrient levels and extending the growth phase.

3. Continuous Bioreactors:

In continuous bioreactors, fresh nutrients are continuously added, and culture liquid is removed at a steady rate. This system is useful for studying steady-state conditions and long-term processes.

4. Perfusion Bioreactors:

Perfusion systems continuously feed fresh medium into the culture and remove spent medium, maintaining high cell densities and prolonged culture periods.

Advantages of Lab-Scale Bioreactors

Controlled Environment: Lab-scale bioreactors offer precise control over environmental conditions, enabling reproducible experiments and reliable results.

Process Optimization: Researchers can fine-tune parameters such as temperature, pH, and agitation to optimize growth and production processes before scaling up.

Cost-Effective: Smaller volumes and lower material costs make lab-scale bioreactors a cost-effective choice for initial research and development.

Flexibility: The ability to quickly modify conditions and test various scenarios provides researchers with valuable insights and accelerates innovation.

Conclusion

Lab-scale bioreactors are indispensable tools in the world of biotechnology. They bridge the gap between basic research and industrial-scale production, allowing scientists to explore, optimize, and innovate. Whether you’re a researcher in an academic setting or a developer in a biotech company, understanding and utilizing lab-scale bioreactors can significantly enhance your ability to develop new products and processes. As technology continues to advance, these systems will undoubtedly play an even greater role in shaping the future of biotechnology.

For more details, please contact us!

Website :- https://www.fermentertechnologies.com/

Contact No. :- +91–8896456000

Email :- [email protected]

#Lab-Scale Bioreactors #Lab-Scale Bioreactor #Lab-Scale Bioreactors Manufacturer in India #Lab-Scale Bioreactors Supplier in India #Bioreactor Manufacturer in India #fermenter technologies

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farelabsgurgaon · 2 months

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The Role Of Biofuels Testing In Powering A Sustainable Future

As the world grapples with the challenges of climate change and dwindling fossil fuel reserves, biofuels are emerging as a promising alternative energy source. Derived from renewable biomass sources like plant materials and organic waste, biofuels offer a cleaner and more sustainable solution for powering our transportation needs.

However, ensuring the viability and sustainability of biofuels requires rigorous biofuels testing. FareLabs, a leading provider of biofuels testing services across various sectors, is proud to offer comprehensive biofuels testing solutions to producers, researchers, and government agencies. With accreditation as per ISO/IEC 17025:2017 by NABL and its recognition by esteemed regulatory bodies like the Food Safety & Standards Authority of India (FSSAI), Agricultural & Processed Food Products Export Development Authority (APEDA), Export Inspection Council (EIC), Bureau of Indian Standards (BIS), and MOEF & CC attest to its credibility and adherence to stringent quality standards. FARE Labs employs advanced technologies to conduct thorough analyses, ensuring water meets the highest standards for safety and purity.

What is Biofuels Testing?

Biofuels Testing Labs in India encompasses a broad range of scientific analyses designed to evaluate the properties, performance, and environmental impact of biofuels. These tests can be categorized into three main areas:

Fuel Properties: Testing assesses the physical and chemical characteristics of biofuels such as cetane number (for diesel biofuels) or octane number (for gasoline biofuels) to ensure they meet industry standards and perform efficiently in engines.

Feedstock Analysis: Biofuel production begins with corn, soybean, or jatropha feedstocks. Testing analyzes the composition of these feedstocks to optimize conversion processes and ensure they meet sustainability criteria.

Emissions Testing: A crucial aspect of biofuels testing evaluates the emissions released during biofuel production and combustion. This information is vital for assessing the environmental footprint of biofuels compared to conventional fossil fuels.

Why is Biofuels Testing Important?

Biofuels testing plays a critical role in the development and implementation of sustainable biofuel technologies. Here are some key reasons why biofuels testing is essential:

Ensuring Biofuel Performance: Rigorous testing guarantees that biofuels meet the necessary performance standards for safe and efficient engine operation. This prevents potential engine damage and contributes to cleaner emissions.

Sustainability Assessment: Biofuels testing services help evaluate the environmental sustainability of biofuel production. Testing identifies potential negative impacts like land-use change or water pollution, allowing for the development of more eco-friendly practices.

Quality Control: Consistent quality is paramount in any fuel source. Biofuels testing establishes quality control measures throughout the production process, ensuring biofuels meet the required specifications.

Regulatory Compliance: Government regulations mandate specific biofuel standards to safeguard environmental quality. Biofuels testing helps producers demonstrate compliance with these regulations.

Benefits of Biofuels Testing for Different Stakeholders

Biofuels testing offers a multitude of advantages across the biofuel development and implementation chain:

Biofuel Producers: Testing optimizes production processes, ensures biofuel quality, and demonstrates compliance with regulations, facilitating market entry and commercialization.

Engine Manufacturers: Testing provides valuable data for designing engines compatible with biofuels, promoting the development of cleaner and more efficient biofuel-powered vehicles.

Government Agencies: Testing supports the development of effective biofuel policies by providing data on biofuel performance and environmental impact.

Consumers: Biofuels testing contributes to the availability of high-quality, environmentally friendly biofuels, empowering consumers to make sustainable choices for their transportation needs.

Conclusion

FARE Labs offers a comprehensive suite of biofuels testing services in India to support our clients at every stage of biofuel development and implementation. Our state-of-the-art biofuels testing labs employ cutting-edge technologies and highly skilled personnel to conduct reliable and accurate testing for a wide range of biofuels.

SOURCE- https://farelabs.com/the-role-of-biofuels-testing-in-powering-a-sustainable-future/

#BiofuelsTestingLab

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unitechusa · 9 months

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The Most Reliable Laboratory Supplies Company Ever!

An increase in biotechnology financing activities, together with the most recent advances in biological and chemical research, will provide enormous growth opportunities for the laboratory supply firm. The tools, apparatuses, and equipment used in diagnostic, research, and manufacturing applications are referred to as laboratory supplies.

The laboratory supplies company can be divided into two categories: disposables and equipment. Medical lab Equipment, instruments, utensils, and substances used in a laboratory setting to conduct experiments, tests, analyses, and scientific research.

These materials are specifically created and manufactured to fulfill the demands of scientists, researchers, and professionals working in laboratory supplies fields such as chemistry, biology, physics, and medicine, among others.

Biotechnology lab equipment research focuses on using biological approaches to solve issues and develop profitable goods, such as genetic engineering and cell culture. It includes genetic modification for improved traits, biopharmaceutical development, sustainable industrial production of biofuels and chemicals, agricultural advancements through crop enhancements, environmental solutions such as bioremediation, and the development of novel biological systems through synthetic biology.

Biotechnology Equipment This field contributes to the advancement of scientific knowledge and innovation in industries like healthcare, agriculture, energy, and the environment, with the goal of tackling global concerns and enhancing overall quality of life.

The expanding breadth of Medical laboratory supplies in pharmaceutical and biotechnology businesses, academic institutes, and diagnostic Laboratory Medical Supplies will provide huge potential prospects for the global market.

Equipment for Chromatography is a versatile analytical technique used in laboratories to separate, identify, and quantify individual components within complex mixtures of substances. It relies on the differential distribution of compounds between a stationary phase and a mobile phase, allowing for the separation of molecules based on their chemical properties, size, and affinity.

For Laboratory Equipment Supplies tasks requiring heating, cooling, agitation or mixing, and pumping, electrically powered equipment is regularly employed. Fluid and vacuum pumps, lasers, power supply, electrophoresis and electrochemical apparatus, x-ray equipment, stirrers, hot plates, heating mantles, microwave ovens, and ultrasonicators are examples of electrically driven Laboratory Chemical Supplies.

To obtain precise and detailed insights into the composition of substances, researchers and analysts use various chromatographic methods such as gas chromatography (GC), liquid chromatography (LC), and thin-layer chromatography (TLC), making it an essential tool for both qualitative and quantitative analysis in scientific research and quality control processes.

Water is commonly used as a coolant in laboratory condensers and other equipment. Although tap water is frequently used for these reasons, it should be avoided. In many areas, preserving water is crucial, making tap water unsuitable.

Furthermore, the likelihood of a flood is considerably increased. Refrigerated recirculators can be costly, but they are favored for cooling laboratory equipment in order to preserve water and reduce the impact of floods. To avoid freezing at the refrigeration coils, use a coolant mixture of water and ethylene glycol.

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advancebiofuel · 1 year

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Nature's Essence Discover the Top Essential Oil Plant Manufacturers

Introduction

As demand for essential oils continues to grow, the importance of reliable and top-notch essential oil plant manufacturers becomes paramount. Additionally, we will introduce Advance Biofuel, a leading company that has carved a niche for itself in the essential oil plant manufacturing sector.

The Rise of Essential Oils

Fast forward to the present, and the global essential oil market has witnessed tremendous growth due to the rising interest in natural remedies, wellness practices, and aromatherapy.

With increasing demand, the need for reputable and reliable essential oil plant manufacturers has become crucial to ensure the production of high-quality oils. These manufacturers employ advanced extraction techniques, ethical sourcing, and stringent quality controls to maintain the purity and efficacy of their products.

Top Essential Oil Plant Manufacturers

Aromatic Farms Ltd. Aromatic Farms is renowned for its sustainable and eco-friendly approach to essential oil production. They cultivate a wide range of aromatic plants on their lush estates, ensuring the finest raw materials for extraction. With state-of-the-art distillation facilities, Aromatic Farms consistently produces premium-grade essential oils that meet international standards. Their commitment to environmental stewardship and fair trade practices makes them a favorite among conscious consumers.

Essence Extractors Inc. Their team of experts meticulously selects the best plant sources and employs innovative extraction methods to obtain the purest oils.

Nature's Touch Extracts Nature's Touch Extracts takes pride in its close-knit relationships with farmers and growers around the world. They work hand in hand with local communities to ensure sustainable cultivation practices and fair wages. This ethical approach extends to their manufacturing process, where advanced technology is used to extract essential oils without compromising on the plant's natural essence.

PureEssence Laboratories With a commitment to organic and natural products, PureEssence Laboratories focuses on producing essential oils free from additives and chemicals. Their cutting-edge lab facilities prioritize quality control and meticulous testing to maintain the highest standards. As a result, their oils are widely preferred by health-conscious consumers and wellness practitioners.

Earth's Aroma Industries Earth's Aroma Industries stands out for its innovative and diversified product range. Apart from conventional essential oils, they offer rare and exotic varieties that have unique therapeutic properties.

Introducing Advance Biofuel

Amidst these leading essential oil plant manufacturers, Advance Biofuel has emerged as a driving force in the industry. Established with a vision to revolutionize sustainable energy solutions, Advance Biofuel ventured into the essential oil manufacturing sector, combining their expertise in green technology with botanical extraction.

Advance Biofuel has set itself apart by developing a groundbreaking process that uses renewable energy sources for essential oil extraction. Their patented technology harnesses solar, wind, and biomass energy to power the distillation process, significantly reducing the carbon footprint of essential oil production.

The company's commitment to environmental responsibility extends to their sourcing practices. They partner with local farmers and communities, promoting responsible farming techniques and ensuring fair compensation. Advance Biofuel's dedication to sustainability has earned them accolades and certifications from various environmental organizations.

Conclusion The top essential oil plant manufacturers mentioned in this article are at the forefront of this industry, emphasizing quality, sustainability, and ethical practices.

Among these reputable manufacturers stands Advance Biofuel, a company that has not only embraced green technology but has also integrated it into the world of essential oil production. With their innovative approach, Advance Biofuel sets an example for other companies in the industry, proving that nature's essence can be harnessed responsibly and sustainably.

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kdmglobal · 1 year

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KDM Global is a well-known producer, supplier, and exporter of lab testing equipment, air pollution instruments, dust monitoring equipment, and pollution monitoring equipment at the best prices in Delhi NCR, India.

The business has been able to establish a solid foundation in this cutthroat sector because to the unwavering determination and passion of our mentor Mr.Mayank. We have been motivated to work hard by his consistent inspiration and upbeat attitude.

In manufacturing companies across a wide range of industries, testing has always been a crucial process, with the final product's quality entirely reliant on the type of testing equipment employed. The output drawn from the total production is improved by the equipment's increased accuracy and precision.As a result, KDM Global is acting responsibly for industries who need air pollution monitoring systems, impact testing equipment, bomb calorimeters, humidity chambers, etc. to increase the availability of high-quality testing equipment. Being a producer and wholesaler, we have integrated ourselves into the industry and market that needs the most inventive testing equipment. Our product line for our clients includes customised machines, lab testing equipment, environment testing equipment, and electronic testing equipment.

Equipment for measuring and testing the environment

Our business has had tremendous success by producing and offering a wide range of top-notch environment testing equipments. We offer benzene, mixed, gaseous, fine particulate, high volume air, convenient sampler, and stack monitoring kit in this selection of air pollution monitoring equipment.These are made for a variety of uses, including balances, evaporators, biofuel analyzers, temperature chambers, particle counts, stability chambers, and more. Additionally, temperature and humidity levels can both be tested using environment testing equipment. Our products are renowned for their top performance and extreme durability. available for purchase with a variety of features, patterns, sizes, and forms.

Our Goals and Mission

We entered the market with the intention of developing into a trustworthy source with the mission of raising the standards of testing equipment being offered on the Indian market. To that aim, we are working diligently on R&D and bringing the most affordable items.

• Keep products readily available;

• Speak with as many people as possible

For more details contact us:

Website: https://kdmglobal.business.site

Email : [email protected]

Website : https://sites.google.com/view/kdmglobal/home

Contact :8218470498

Facebook : https://www.facebook.com/testingequipmentkdm

Twitter : https://twitter.com/global_kdm

LinkedIn : https://www.linkedin.com/company/91037160/admin/

YouTube : https://www.youtube.com/channel/UCXSi4eywyPih3FPziTIT5Jg

Pinterest : https://in.pinterest.com/kdmglobaltesting/

Instagram : https://www.instagram.com/kdmglobalsales/

Tumblr : https://www.tumblr.com/blog/kdmglobal

Flickr : https://www.flickr.com/people/197865063@N04/

Reddit : https://www.reddit.com/user/kdmglobaltesting

Quora : https://www.quora.com/profile/KDM-Global-1

#testingequipment #materialtesting #environment

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myfeeds · 2 years

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Artificial intelligence conjures proteins that speed up chemical reactions

“Living organisms are remarkable chemists. Rather than relying on toxic compounds or extreme heat, they use enzymes to break down or build up whatever they need under gentle conditions. New enzymes could put renewable chemicals and biofuels within reach,” said senior author David Baker, professor of biochemistry at the University of Washington School of Medicine and recipient of the 2021 Breakthrough Prize in Life Sciences. As reported Feb, 22 in the journal Nature, a team based at the Institute for Protein Design at UW Medicine devised machine-learning algorithms that can create light-emitting enzymes called luciferases. Laboratory testing confirmed that the new enzymes can recognize specific chemicals and emit light very efficiently. This project was led by two postdoctoral scholars in the Baker Lab, Andy Hsien-Wei Yeh and Christoffer Norn. The Nature paper is titled De novo design of luciferases using deep learning. To create new luciferase enzymes, the team first selected chemicals called luciferins that they wanted the proteins to act upon. They then used software to generate thousands of possible protein structures that might react with those chemicals. During laboratory testing, the researchers identified an efficient enzyme, dubbed LuxSit (Let there be light). The enzyme performed the desired chemical reaction. Refinement of the enzyme led to dramatic improvements in performance. An optimized enzyme, dubbed LuxSit-i, generated enough light to be visible to the naked eye. It was found to be brighter than the natural luciferase enzyme found in the glowing sea pansy Renilla reniformis. “We were able to design very efficient enzymes from scratch on the computer, as opposed to relying on enzymes found in nature. This breakthrough means that custom enzymes for almost any chemical reaction could, in principle, be designed,” said Yeh. New enzymes could benefit biotechnology, medicine, environmental remediation, and manufacturing. For example, in biotechnology, enzymes can improve biofuel production, food processing, and pharmaceutical manufacturing. In medicine, enzymes can serve as therapeutic and diagnostic tools. Enzyme design can improve the environment by breaking down pollutants or cleaning up contaminated sites. And enzymes may also aid in the production of new materials such as biodegradable plastics and adhesives. This research was led by UW School of Medicine scientists and included collaborators at the University of California, Los Angeles. This work was supported by the Howard Hughes Medical Institute, National Institutes of Health (K99EB031913), United World Antiviral Research Network, National Institute of Allergy and Infectious Disease (1 U01 AI151698-01), Audacious Project at the Institute for Protein Design, Open Philanthropy Project Improving Protein Design Fund, Novo Nordisk Foundation (NNF18OC0030446), National Science Foundation (CHE-1764328, OCI-1053575), and Eric and Wendy Schmidt by recommendation of the Schmidt Futures program. National Natural Science Foundation of China (22103060) provided partial computational resources.

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fanservices123 · 1 year

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#Biofuel Testing LabBioDiesel Testing Lab Calorific ValueFlash PointDSCTGAFTIR of Biofuels

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girlfriendsofthegalaxy · 2 years

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tuesday again 8/16/22

currently unemployed so i am real goddamn fuckin chatty in this one

listening CTRL^^^ by MONOWHALES bc jack read me for filth with this rec several weeks ago and it's been in heavy rotation since then, so into the tuesday playlist it goes.

youtube

reading Falling Sky by Rajan Khanna (published 2014, author says the concept began in 2008).

premise: this is an interesting little bridge between the steampunk and zombie trends. the comps on the back of the book (thriller/noir/hemingway/miyazaki) are not very accurate. it's set in california, a generation after fast and smart zombies that reproduce have made the ground is too dangerous, so most people roam about in airships and zeppelins (good on the author for distinguishing them, knowing his terminology, also giving some of them vertical takeoff and landing capability). posits a world where the airship was ubiquitous before the apocalypse, which is fascinating, bc the airship our hero owns is one stolen by his grandfather as shit went down. our hero is a jaded bodyguard is trying to keep a pack of scientists researching an infection detection method safe in a secret ground-based lab. wait up go back hold up a minute where do they get the hydrogen and helium? don't worry about the hydrogen, mr khanna says, let's talk about helium, which is marketed through a floating city with a secret ground-based mining facility (???). airships meet at covert docking points on tall buildings, there's a chicago outpost of sky vikings that's taken over the local floating sky city, you know, the usual. i can only imagine the airships look something like the aeroscraft??

worldbuilding stuff: props for the mention of salted pigeon meat, an established gunpowder manufacturing chain, general thoughtfulness about what salvage components are most valuable, what kinds of food keep and how to safely preserve them, boiled water (i don't think i've ever seen boiled water as a matter of everyday course in a postapoc novel), several different types of biofuels. i never found myself asking "well how DO they get [BASIC RESOURCE]"? this is mostly well-handled without a lot of infodumping, with little throwaways like "hey i tested your new biofuel blend, it was good in x ways and bad in y ways, do you have any more of z blend?"

character stuff: congrats to the protag for being sad about a dead dad instead of being sad about a dead wife. there is a sex scene that's pretty tasteful, mostly vague concepts, and did not make me cringe. the protagonist has a terrible crush on the female lead but is pretty respectful about it, is on good terms with his ex, and the other female merc they team up with is an extremely capable person even if she is mostly used as a battering ram. this was a welcome surprise! the most interesting character work that happens to our hero is a synagogue in the floating city, where our hero ends up after a particularly bad day and sort of makes a stab at reconnecting with his faith. i don't know that i've ever seen an atheist jewish protagonist in a postapoc novel before, or much discussion of religion aside from cults?

stylistic stuff: there is a very fine line between hemingway-style terseness and choppiness, and this tends to veer choppy (as i often do with my own writing). i didn't quite jive with the style, nor do i particularly care about our hero. he's fine. he's just kind of bland? the book is mostly about the protagonist telling you what he's doing, bc it's first person present tense. this doesn't bother me a ton, bc that seems to be the current trend in english fic in the handful of fandoms i pay attention to.

the backstory and infrastructure of the world is there but not necessarily the people that live there. good bones, not enough meat, the style and focus on and-this-is-what-happened-next was somewhat irritating. h owever this was a perfectly adequate first novel, and my hope is that the second and third novels improve. they are remarkably hard to track down, i found this one on a whim in a little free library. from reading a preview of the second book it already seems more noir-ish so i am cautiously optimistic.

watching i was adding stuff to letterboxd (really fucking hate that letterboxd has got me watching more movies. what the fuck are they doing with all my data. what are they using my movie watching habits to sell) anyway i was adding stuff to letterboxd and was reminded of the film Pitch Black (2000, dir. Twohy), which is an extremely competent little scifi/horror thing i enjoy a lot.

this zoom in to escaped convict riddick watching people frantically look for him after a spaceship crash is, as one letterboxd reviewer put it "like some sort of deranged bugs bunny", is the funniest zoom in the trilogy. this film works very well with its budgetary limitations and is mostly filmed in the desert under the blazing sunlight or in near-pitch darkness, freeing up a lot of money for creatures that have aged in an endearingly (imo) early 2000s way. like the mad max movies, it asks the question "what if an extremely unpleasant man is unchained and treated like a person? what happens to his personality and decisions after that?" this one's quite solid and i don't have much to say to it other than give it a little "pretty good movie!" trophy. it also sticks its ending, a thing i cannot say for the other two riddick movies. which i also rewatched.

beautiful fuckin aurorae look at that shit. The Chronicles of Riddick (2004, dir. Twohy) is not very good but we must give it points for sheer visual style. they truly do not make em like this any more, and they made the plot too big and galaxy-encompassing. this movie was at its was most successful when riddick is trying to find a specific person. it was also at its most successful when it's a movie about how riddick and also a planet are trying to kill you. i do not like the attempted sexual assault in this one. the ending made me go "ohhhhh" in sudden understanding but it did not pay off the "guy loses everything he cares about but gets enormous power/riches/etc he's been striving for" bc the movie establishes that what he wants is to be left alone with the two people he sort of cares about safe. the ending would have hurt more if the movie had spent like three more beats really hammering in that he just wants to be left alone.

i like the first half of Riddick (2013, dir. Twohy), when it's just a guy and his weird dog figuring out how to survive the planet. the last half is an early stab at what the john wick movies would become, combined with the last half of pitch black. there are some very fun, very tense shots in the last half, even if it completely forgets some stuff it set up in the first half of the movie.

i don't care about this one as much bc riddick experiences no interesting character changes. the most overarching thematic element, if we can very loosely call it that, is at the beginning, when he says "time to get back in touch with my animal side" and then...doesn't do that. he talks to his dog. he teaches it tricks. he shows himself to have a better understanding of the human psyche and how to really freak people the fuck out better than any of the posturing mercs after him.

i mostly dislike this one a great deal bc i do not like how the out lesbian in this one, with big guns and a sniper rifle longer than she is tall, is there for the men to constantly make passes at. there is an attempted sexual assault in this one too, and she..sleeps with riddick at the end??? i don't fully understand what was happening there. this riddick does not feel like the same riddick as the one from the previous movies. like the daniel craig bond movies, he is at his best when he reluctantly cares about someone and is reluctantly going "uggggHHHHHH FINE I GUESS I'LL BE A GOOD GUY BUT I'M GOING TO BE MAD THE WHOLE TIME AND EXTRA SCARY >:( " like yes yes big muscle man do flip and be very smart and punch hard and look nice. what does the big muscle man FEEL. that's when these movies get interesting, when they remind you riddick is a real actual guy and these aren't just stunt movies, and this last movie had too much bleh for me to enjoy the back half. so we progress in this trilogy from "really fucking fun and interesting, extremely tight and self-contained thesis" to "bizarre but going for something, thesis unknown" to "this is two different movies and not very much fun. cool dog tho". we must hand it to these movies as a whole for going "man vs nature on other planets lets us get REAL insane with it".

playing honestly probably a hiatus from Gaming (TM) for a while

making roundup of several small things.

a list of the westerns i would let other people watch, made for my siblings who will be visiting for christmas. they get to pick which ones but i do get to inflict three westerns upon them.

a rashomon-trope fallout fic for yeehawgust, where everyone has a different story about What Actually Happened: "There was a rumored pre-War banquet hall full of uranium glass place settings, ripe for selling to the Courier for her wedding. Now there’s a giant crater and four different stories about whose fault it is."

finally rigged up plant lights two and a half months after moving in. had to heavily prune and discard some plants, which makes me feel bad, and discovered i am still battling scale, which also makes me feel bad. however, now i know it's there and i can start dealing with it again. still need to rig up something better for my poor pencil plant, which also needs to be pruned and repotted bc it got Very leggy. do not worry about the snake plants they live in my office they didn't actually go anywhere

stopped at a yard sale, met a baby, pet a very friendly and well behaved chihuahua, got a 2-foot 10 through 60 parts to the inch architect’s scale and a pair of Wiss shears for a dollar. the shears are very dull, need a new nut, significant enamel wear on the handles which is annoying, but cannot beat the price for new kitchen shears. u kids know the drill into the vinegar bath it goes. will have to have a think about how to stop the handles from rusting again. maybe a dip in the can of white enamel paint i used for the kitchen table, maybe a funky new kind of spray paint is in my future.

#tuesday again #tuesday again no problem #Youtube

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electrocuting-chemicals · 3 years

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Hi!! Just found your blog. The chaotic energy is great. What's your favorite lab you've done to date?

thank you so much, we strive to exude the energy we posess inside us, so I'm glad that's coming across! And ur question is the same as number 12 on our challenge so we’ll answer them both!

remi:

my favourite lab would have to be the 6 hour one where I soldered together and tested my first ever microcontroller - it was a very good and fun introduction to the lab kit, and I got something very useful out of it that I use throughout my degree! I also really enjoyed last year a lab on modulation and demodulation of signals in communication, as it was one of the best labs I've done which put the theory I'd been learning into real context!

Violet:

My favorite lab so far has been my biochem research lab - I’d been studying a plasmid insert called pHC01 which, when inserted into yeast cells, can make ethylene. It had a lot of cool possible uses including making biofuels, but unluckily covid hit so I wasn’t able to finish the project :(

#hypothesis confirmed #pearlstudy #anon #studyblr #stemblr #studyspiration #remletstudychallenge

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johannstutt413 · 4 years

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(no one asked for this...but it needed to be done)

“Good morning, Miss Blue.” Ptilopsis observed her entry into her workspace. “How may I assist you today?”

“I’ve been thinking of ways I could make my research more available to the Medic staff, but I’m not really familiar with setting up databases or things like that. I was hoping you had some spare time to help me?”

She nodded. “Temporal resources allocated. Any formatting preferences?”

“Um...no?” Blue scratched behind her head. “I know the relevant filters and important variables, but making it accessible to others is rather difficult when no one understands my research or my thought process.”

“Hmm...Analysis complete. More data required. Workstation mobility status?”

She shrugged. “I type my reports on a laptop, but my lab is...difficult to move.”

“Activating portable mode.” Ptilopsis stood up, taking her laptop and approaching Blue. “Follow mode engaged.”

“Alright. Ptilopsis, can I ask you something?” Blue left the office with the owl-woman in tow.

She nodded. “Yes.”

“The way you communicate...” The Anura knew this might be a touchy subject. “Is it because of your Oripathy?”

“This method of communication is preferred to hostile takeover from internal systems’ errors.”

Blue blinked. “Voices?”

“Correct.” Ptilopsis nodded. “Additional queries?”

“What sort of treatments have they tried?”

She blinked. “Try refining your search terms.”

“Surely, you’ve tried to solve this chemically, yes?” No response. “Perhaps I can help, then. Depending on the exact location of the crystals, various neurological agents could diminish their impact on your brain.”

“...Neurological agents?”

Blue smiled. “When properly utilized and blended, even a toxin can become an antidote, no? If you can provide me with your treatment information and current medications, while you’re helping me design a toxin database, I could work on a recipe to counteract the voices.”

“Central nexus overheating.” Ptilopsis set a hand to her temple as the possibility came over her. “Processing...Request sent. If you’re willing to try, please do.”

“It’ll be my pleasure to help you.”

A few days of work saw substantial progress for both projects; Ptilopsis was able to directly convert Blue Poison’s ideas for the database into something tangible and user-friendly even as Blue took infrequent blood samples to dummy-test her concoctions’ effectiveness at reducing the particulates in Tilly’s system. It was impressive that she was as capable as she was, frankly, with all the Originum floating around in her blood…

Four days into their joint efforts, Blue greeted Tilly at the door with a treat. “Good morning, dear. Have you had breakfast yet?”

“Biofuel reserves nominal...chocolate supply dangerously low.” She eyed the cupcake on the plate with expectant eyes. “Is that for me?”

“Yes, but before you take a bite, I want to warn you: I put a dose of my most successful trial serum in the icing. I want this to be a reward for all the help you’ve given me, but if something happens, I have the antidote ready to go.”

The medic smiled. “No risk, no reward. Shall we get to work?”

“Let’s.” Ptilopsis took her usual position, digging into the cupcake with gusto as soon as she was seated; Blue, on the other hand, had rolled her chair right next to her patient’s in order to closely monitor her condition. “The effects may not be immediate, so if it’s alright, I’d like to keep you under observation for the next 24 hours.”

“Acceptable parameters,” she agreed.

The Anura watched her patient work with somewhat mixed emotions. She wondered if the chemicals were operating properly, if in treating her for this she’d accidentally reduce her faculties, if...if something went wrong, who all would blame her? Would Tilly still see her as a friend? Would those sulphur-colored pupils that reflected her soul back on her like mirrors continue to shine when they looked at her?

...Where was she, again? Right, observation. “How are you feeling?”

“Quite well, thank you.” Tilly smiled at her. “Your cupcake was delicious.”

“Thank you.” Blue blushed...and then both of them had the same realization.

Ptilopsis stood from her chair in an instant. “It’s working.”

“It is.” Both stood for a moment, stunned, before Blue grabbed her arms and started jumping. “It’s working!”

“After all this time, I can speak freely!” She jumped with her froggy friend a few times before wrapping her in an embrace. “Thank you, thank you, thank you.”

Blue Poison’s face lit up as she felt Ptilopsis’ cheek brushing against hers. “You’re welcome, Tilly dear.”

“...Blue?”

“Mmhmm?” Neither of them had let go; frankly, Blue didn’t have any reason to. “You can ask me anything.”

Tilly nodded. “I know...The others think your skin is toxic, yes?”

“Yes.” She sighed internally. After all the time they’d spent together-

“The idea that anyone could be scared of you is ridiculous.” Her voice was a low whisper now. “So compassionate, so considerate, so gentle...” Without warning, Ptilopsis’ hands slid to the small of Blue’s back as she looked her in the eye. “So sweet.”

Blue Poison watched her with hopeful eyes, her heart racing. “Tilly.”

“I wonder, though, which is sweeter? Your baking, or...” Without finishing the thought aloud, she went for the kiss.

Just as she’d expected - Blue was the much sweeter taste on her lips.

Another couple of days passed; the antidote’s key components were refined into their final form, a tasteless food additive which Tilly could add to her meals to maintain her system’s stockpile of the chemical, Blue’s database was connected to the Medics’ network of resources (managed by Ptilopsis herself, of course), and the two relocated to a larger office they could share.

The Doctor stopped by their office one day to congratulate Blue Poison on her work. “Good morning, Blue. Hey, do you have a minute?”

“Doctor! Um, yes, I’m free.” She sat up, her face somewhat red.

“I just wanted to congratulate you on developing that Originum decoagulant; we’ve been doing some more trials for it, and the results are simply spectacular.” He looked at the empty desk. “Is Ptilopsis here? I wanted to thank her, as well.”

Blue shook her head. “I’ll pass that along to her when I see her.”

“Alright, then. Well, have a good day.” He took his leave, wondering to himself where the data-mining Medic would be at this time of day.

“That was close.” The blushing Anura slid her chair back and joined Tilly under her desk. “We should be more careful in the office.”

Ptilopsis giggled. “You were so cute just now, though.”

“Alright, next time, you’re going to be the one sitting at the desk, then.”

“I don’t know...” She gave her a thoughtful appraisal. “Your tongue is more dangerous in that kind of scenario-”

Blue crawled out from under the desk and walked towards the door. “Alright, we’re doing this.”

“Where are you going?”

“Nowhere.” She locked the door and rolled the blackout curtain in front of the mini-window in it. “We have some tests to run, dear.”

#arknights #blue poison (arknights)#ptilopsis (arknights)#ladies and gentlemen #i bring you:#the ultimate counter to the under-the-table meme #i will take no criticism #thank you #arknights fic

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farelabsgurgaon · 8 months

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swissmissing · 6 years

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20 things that got better in 2018

Sources: VOX, Wired, A Wealth of Common Sense, Goodnet, Good News Network, Human Rights Watch, Medium

1) Extreme poverty is falling. 35.9 percent in 1990 to only 10 percent in 2015 ... it estimates that the 2018 rate will be about 8.6 percent.

2) Child mortality is falling. The global under-five mortality rate fell from 93 per 1,000 [1990] to 39 to 1,000 [2017], meaning it fell by over 58 percent. We don’t have data for 2018 yet, but given the change just between 2015 and 2017, it’s likely there was a further decline.

3) We’re getting better at preventing preventable diseases. A new technology that could be able to radically control or outright eliminate malaria — gene drive mosquitos — are almost ready and foundations like Gates and Open Philanthropy Project are devoting huge sums to fund its development and testing.

4) Clean energy is getting cheaper. Solar and wind are now cheaper per megawatt hour than gas or oil, though better batteries are needed if the two are to become primary sources of energy.

5) Nepal’s endangered tiger population has doubled. In 2009, there were only 120 wild Bengal tigers in Nepal, but that figure has almost doubled since then. The country’s government has pledged to double numbers by 2022, and is on track to meet that target.

6) We're interstellar once again. In December 2018, Voyager 2 became the second space craft to leave the heliosphere and it's still in good shape.

7) The Nobel prize for physics went to a woman for the first time in 55 years. Only three women have ever won the Nobel prize for physics. Donna Strickland from Canada’s University of Waterloo was awarded a share of the prize for her work on using powerful lasers to study tiny particles.

8) Hospitals have created their own drug company to fight back against high costs. A new company Civica Rx, was announced in January 2018 and a third of the country's [USA] hospitals have either committed to participate or expressed interest. The company CEO Martin Van Trieste is not taking a salary.

9) There are more scientists in politics [USA]. There’s one new senator, and eight new members of Congress with a STEM background, including computer programmers, engineers, and an oceanographer.

10) Fewer war deaths. The proportion of people killed annually in wars is less than a quarter of what it was in the 1980s, one-seventh of what it was in the early 1970s, one-eighteenth of what it was in the early 1950s, and 0.5% of what it was during World War II.

11) Fewer weapons of mass destruction. The world’s nuclear stockpiles have been reduced by 85% since the Cold War.

12) Better crop yields. Between 1961 and 2009 the amount of land used to grow food increased by 12%, but the amount of food that was grown increased by 300%.

13) Increased literacy. The global literacy rate is currently 83%. It’s estimated that by the end of the century this number will be close to 100%.

14) Access to clean water: Between 1980 and today, global access to safe water sources has increased from 58% to 91%.

15) Protected nature reserves. In 1962, there were 9,214 protected nature reserves worldwide. Today, there are over 200,000.

16) Plastic bag use slashed [AUS]. After two of Australia’s biggest supermarket chains announced that they would stop offering single-use plastic bags to their consumers, the initiative has heavily contributed to an 80% drop in plastic bag consumption across the nation.

17) Post-surgical spray gel to prevent cancer recurrence. A UCLA-led research team has developed a spray gel that is embedded with immune-boosting nanoparticles. The substance was successful half of the time in awakening lab animals’ immune systems to stop the cancer from recurring following tumor removal.

18) Norway bans palm oil biofuels that lead to deforestation. The majority of the Norwegian parliament agreed to ban their biofuel industry from buying palm oil and other dangerous biofuels that are linked to deforestation and harmful environmental practices.

19) Drastic decrease in child labor. Since 2000, the number of children in child labor globally fell by 94 million, a drop of more than one-third.

20) Suicides down over one-third. Global suicide rates have dropped by 38% since 1994,

#not sherlock #good things #2018 #good news

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