:quality(80)/p7i.vogel.de/wcms/3b/3d/3b3d30fd9ff491029b0e7126aac60583/0110589691.jpeg "Additional 40% lower R<sub>DS(on)</sub> and increase power density by 58x for telecom & computing hot-swap computing applications. (Source: Nexperia)")
:quality(80)/p7i.vogel.de/wcms/2b/8a/2b8a5a7864b23ec605541da91d94f9c2/0110493455.jpeg "With 30 W/m-K thermal conductivity – among the market’s highest thermal performance without sintering – Loctite Ablestik 6395T is the latest in the company’s portfolio of high thermal solutions and allows integration of back-side metalized or bare silicon (Si) die. (Source: Henkel AG & Co. KGaA)")
:quality(80)/p7i.vogel.de/wcms/63/ab/63abbc88e1c14a70134387b6bf98c938/0110375586.jpeg "Diodes Incorporated delivers semiconductor products to global specialists in the automotive, industrial, computing, consumer electronics, and communications markets. (Source: Sashkin - stock.adobe.com)")
:quality(80)/p7i.vogel.de/wcms/e0/85/e08581b216eee1b584bfde005c8ba476/0110197522.jpeg "Magnachip is a designer and manufacturer of analog and mixed-signal semiconductor platform solutions for communications, IoT, consumer, computing, industrial and automotive applications. (Source: Leonid - stock.adobe.com)")
:quality(80)/p7i.vogel.de/wcms/c5/58/c55865b979aa96012755266628b8ce0e/0109998334.jpeg "The global chip shortage emerged in 2020 and is an ongoing problem where the demand for integrated circuits such as computer chips is greater than supply. (Source: Quardia Inc. - stock.adobe.com)")
CHIP SHORTAGE NEWS :quality(80)/p7i.vogel.de/wcms/e7/d8/e7d8ac01a052fb472ba748072c634ec6/0109994525.jpeg "Conductive Materials in Power Electronics (Source: JohanSwanepoel - stock.adobe.com)")
:quality(80)/p7i.vogel.de/wcms/4b/3e/4b3ee3ae5c03c3131d96cf441e7b9f05/0110399223.jpeg "Most of the semiconductors in use today are made in Taiwan. This article explains why the country has a veritable microchip monopoly and what role one particular company plays in this. (Source: 祐一 若松 - stock.adobe.com)")
:quality(80)/p7i.vogel.de/wcms/f3/84/f384c48914b72b092caa94df8ff20a6c/0110340076.jpeg "The photovoltaic part of the Kleczew Solar & Wind power plant is being built with the participation of Electrum, Jinko Solar, Budmat and Tele-Fonika Kable. (Source: Huawei)")
:quality(80)/p7i.vogel.de/wcms/7c/4e/7c4e329a9fb824bd7771f126050eb261/0110522863.jpeg "With 6G set to be 100 times faster than 5G, new semiconductor materials are needed to substantially reduce the transmission loss associated with the increased communication speed. (Source: oselote - stock.adobe.com)")
:quality(80)/p7i.vogel.de/wcms/0d/79/0d79d7d4ed673431cca91d1eafb40454/0110419928.jpeg "Loop Energy is now seeking industry partners to develop a full-scale electrolyzer prototype for commercial validation. (Source: SmirkDingo - stock.adobe.com)")
:quality(80)/p7i.vogel.de/wcms/8f/80/8f80ffaba97f1ff96db24f3d5f2fb03f/0110161761.jpeg "Founded in 2013 as a spin out from the University of Plymouth (UK), Pulsiv has developed technology to improve the efficiency of power electronics used in mains powered and battery charging applications as well as enabling more energy to be extracted from solar panels. (Source: Sergey Nivens - stock.adobe.com)")
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:quality(80)/p7i.vogel.de/wcms/ec/ce/ecce7eaf706c4c3edea8473c2702ef68/0110038598.jpeg "Indeed, governments are already taking an active role in mandating the security of energy systems through legislative and compliance efforts, diversifying energy technologies, and working with businesses to optimize industry resilience. (Source: Maksim Shmeljov - stock.adobe.com)")
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HYDROGEN The potential of eFlow technology to increase hydrogen production in electrolyzers
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Loop Energy has completed third-party validation of the use of its patented eFlow technology in PEM electrolyzers. Testing was conducted by the German Fraunhofer Institute for Solar Energy Systems ISE, and has demonstrated a fuel cell architecture with trapezoid flow field design can enhance temperature uniformity. When incorporated into conventional PEM electrolysis cells, this bipolar plate architecture demonstrates it can increase hydrogen production.
Results show that eFlow architecture creates a more stable and uniform operating environment in the PEM water electrolysis test cells compared to conventional flow fields with parallel channels, resulting in greater hydrogen production and improved efficiency. Testing also shows the enhanced uniform operating environment should have a beneficial impact on durability.
“Results from the validation process show that the new flow field technology has the potential to surpass typical levels of hydrogen production that we see in the industry today and supports green hydrogen production to become increasingly economically viable,” said Fraunhofer ISE Head of Department Chemical Energy Storage, Dr. Tom Smolinka. “The difference we have seen from current electrolyzer performance with conventional parallel flow field is that the adapted design appears to create more uniform temperature distribution could make it an enabling technology for some of the advanced materials needed to really increase the economics of electrolyzers and green hydrogen.”
:quality(80)/p7i.vogel.de/wcms/f3/41/f3417dc0f6a935cfd890e3ed84d854bc/0105290931.jpeg "Hydrogen is expected to help us avoid 80 gigatons of CO<sub>2</sub> emissions between now and 2050. (Source: scharfsinn86 - stock.adobe.com)")
PCIM 2022 KEYNOTE
Hydrogen is the key to achieving net-zero
Encouraged by the results, Loop Energy and Fraunhofer ISE are inviting expressions of interest from potential industry partners. Interested parties will partner with the two companies in designing and manufacturing an electrolyzer prototype to verify eFlow’s benefits for producing hydrogen on a commercial scale. All expressions of interest can be directed to Loop Energy Chief Commercial Officer, George Rubin.
“The completion of third-party validation is an important milestone for Loop Energy as we explore how eFlow can transform the hydrogen production sector,” said Loop Energy President & CEO, Ben Nyland. “We’re extremely pleased to partner with Fraunhofer ISE and draw on their long-lasting experience in cell and stack design for PEM water electrolysis. The results have been encouraging, and we’re excited to begin the search for strategic partners to support us as we innovate electrolyzer technology.”
:quality(80)/p7i.vogel.de/wcms/b4/5c/b45c61167369491ba1e87980d9f6d722/0105251889.jpeg "The plant will initially run on a blend of 30 % green hydrogen and 70 % natural gas starting in 2025 and incrementally expand to 100 % green hydrogen by 2045. (Symbol image) (Source: ©magann - stock.adobe.com)")
RENEWABLE ENERGY
The world's largest industrial green hydrogen facility to be developed in Utah
Currently, Loop Energy’s proprietary eFlow technology is applied in its fuel cell products to offer unmatched levels of fuel efficiency. Its tapering channel design enables eFlow to provide improved uniform current density and increases gas velocity to deliver superior thermal and water management. With the new discovery that eFlow can benefit hydrogen production efficiency, it expands the patented technology’s potential use across the hydrogen energy vertical.
Global demand for hydrogen production is projected to grow by more than US$1 trillion by 20501. As a result, both new and existing hydrogen producers are searching for a competitive advantage to meet rising demand.
PCIM Europe 2023: Experience a world of power electronics
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:quality(80)/images.vogel.de/vogelonline/bdb/1948800/1948833/original.jpg "An extensive simulation platform is coupled with KISS setup enabling the processing of experimental data and its comparison with existing kinetic models. (alphaspirit - stock.adobe.com)")
:quality(80)/images.vogel.de/vogelonline/bdb/1949600/1949653/original.jpg "Lithium in its initial form as granulate as the basis for manufacturing innovative and efficient next-generation batteries. (Fraunhofer FEP)")