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Daqo New Energy Announces Long-Term High-Purity Polysilicon Supply Agreements with JA Solar



SHANGHAI, May 12, 2021 /PRNewswire/ — Daqo New Energy Corp. (NYSE: DQ) (“Daqo New Energy”, the “Company” or “we”), a leading manufacturer of high-purity polysilicon for the global solar PV industry, today announced that its subsidiary Xinjiang Daqo New Energy had signed long-term high-purity polysilicon supply agreements with a subsidiary of JA Solar (SZ:002459).

Under the supply agreement with JA Solar, Daqo New Energy will provide JA Solar with high-purity mono-grade polysilicon in a total amount of approximately 78,200 MT between July 2021 and December 2025. Actual volume and prices will be negotiated monthly by both parties according to market conditions. As part of the supply agreement, JA Solar will make an advance payment to Daqo New Energy.

Mr. Longgen Zhang, Chief Executive Officer of Daqo New Energy, commented, “We are very pleased to further strengthen our cooperation with JA Solar, a leading company of high-quality and high-efficiency solar PV products and solutions. With our Phase 4B project expected to come online in Q1 2022, we will enter another growth phase and be able to provide more ultra-high purity polysilicon to the market. We look forward to continuing to work together with our customers to provide more first-class products and solutions to the fast-growing global solar PV market.”

About JA Solar

JA Solar is a manufacturer of high-performance photovoltaic products. With 12 manufacturing bases and more than 20 branches around the world, the company’s business covers silicon wafers, cells, modules and photovoltaic power stations. JA Solar products are available in 135 countries and regions and are used extensively in ground-mounted power plants, commercial & industrial rooftop PV systems and residential rooftop PV systems. With its advantages of continuous technological innovation, sound financial performance, and well-established global sales and service networks, JA Solar has been well received and highly recognized by clients from home and abroad. The company has been listed on Fortune China 500 and Global Top 500 New Energy Enterprises for several consecutive years.

About Daqo New Energy Corp

Daqo New Energy Corp. (NYSE: DQ) (“Daqo” or the “Company”) is a leading manufacturer of high-purity polysilicon for the global solar PV industry. Founded in 2007, the Company is one of the world’s lowest cost producers of high-purity polysilicon. It has a total annual capacity of 70,000 metric tons of high-purity polysilicon, with another 35,000 metric tons polysilicon capacity under construction expected to reach full capacity by the end of first quarter of 2022.

For more information, please visit

Safe Harbor Statement

This announcement contains forward-looking statements. These statements are made under the “safe harbor” provisions of the U.S. Private Securities Litigation Reform Act of 1995. These forward-looking statements can be identified by terminology such as “will,” “expects,” “anticipates,” “future,” “intends,” “plans,” “believes,” “estimates” and similar statements. The Company may also make written or oral forward-looking statements in its reports filed or furnished to the U.S. Securities and Exchange Commission, in its annual reports to shareholders, in press releases and other written materials and in oral statements made by its officers, directors or employees to third parties. Statements that are not historical facts, including statements about the Company’s beliefs and expectations, are forward-looking statements. Forward-looking statements involve inherent risks and uncertainties. A number of factors could cause actual results to differ materially from those contained in any forward-looking statement, including but not limited to the following: the demand for photovoltaic products and the development of photovoltaic technologies; global supply and demand for polysilicon; alternative technologies in cell manufacturing; the Company’s ability to significantly expand its polysilicon production capacity and output; the reduction in or elimination of government subsidies and economic incentives for solar energy applications; the Company’s ability to lower its production costs; changes in the political and regulatory environment; and the duration of COVID-19 outbreaks in China and many other countries and the impact of the outbreaks and the quarantines and travel restrictions instituted by relevant governments on economic and market conditions, including potentially weaker global demand for solar PV installations that could adversely affect the Company’s business and financial performance. Further information regarding these and other risks is included in the reports or documents the Company has filed with, or furnished to, the U.S. Securities and Exchange Commission. All information provided in this press release is as of the date hereof, and the Company undertakes no duty to update such information or any forward-looking statement, except as required under applicable law.

For further information, please contact:

Daqo New Energy Corp.
Investor Relations Department
Phone: +86-187-1658-5553
Email: [email protected]


In China
Mr. Rene Vanguestaine
Phone: +86 178 1749 0483
E-mail: [email protected]

In the U.S.
Mr. Tip Fleming
Phone: +1-917-412-3333
Email: [email protected] 

For more information, please visit

SOURCE Daqo New Energy Corp.

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HASA Inc., Premier Provider of Sodium Hypochlorite Shock and Sanitizer, Announces Acquisition of Pool Chemistry Training Institute (PCTI)



SAUGUS, Calif., June 16, 2021 /PRNewswire/ — HASA Inc. (, the leading West Coast supplier of liquid sodium hypochlorite for water and swimming pool sanitization, is proud to announce that it has acquired all assets and intellectual property of Pool Chemistry Training Institute (PCTI) as part of an initiative to support the continued education of and support for its essential pool service professional community. 

Co-founded in 2018 by pool chemistry expert Dr. Bob Lowry, PCTI’s training program is the first of its kind to provide an in-depth pool water chemistry class specifically for residential pool service professionals.  PCTI’s signature 1-Day Residential Pool Chemistry Certification course—called Pool Chemistry Certified (or “PCC-R”)—is widely recognized as the gold-standard curriculum in the pool training space. While the PCC-R course is aimed primarily at pool service technicians, it also benefits retail stores—and even pool owners—and is the only pool chemistry certification course available for residential pool pros.

HASA will now selectively sponsor, improve, and support the 1-Day Residential Pool Chemistry Certification Class, which leverages Dr. Lowry’s 45 years of water chemistry knowledge. HASA will also expand availability of the program at upcoming tradeshows, distributor events and online to help enhance the expertise and credentials of backyard pool service pros.

“For the past five decades, HASA has been entrenched in providing comprehensive support for pool service pros focused primarily on backyard residential pools,” said Rick Sawin, Vice President of Pool, Distribution and Sales for HASA, Inc. “We have long been impressed with Bob Lowry’s tremendous contribution to the swimming pool field. He has made an indelible impact by delivering highly specialized pool maintenance training curriculum to the industry—and this new HASA-PCTI partnership offers a great way to educate and certify pool service professionals seeking advanced training and credentials.”

Dr. Lowry has a long and esteemed reputation within the pool care industry. Prior to co-founding PCTI, he served as a technology officer for DEL Ozone, an ozone generator manufacturer. He also has been a consultant to numerous corporations including DuPont, Olin, Nalco, Arch and FMC—and has advised industry brands such as Natural Chemistry, LaMotte, ITS, Pentair and Jacuzzi.  Dr. Lowry has written 21 pool and spa water chemistry books, published more than 175 technical articles, written 29 technical white papers, penned a monthly column for Pool & Spa News, and crafted three comprehensive IPSSA training manuals presenting 425 pages on water chemistry instruction. 

“With the increase in backyard pool use we’ve witnessed within the past year alone, the need for essential, well trained pool service pros is stronger than ever and expected to be unprecedented this season,” added Terry Arko, HASA’s Product Content and Training Manager. “Dr. Lowry is a true luminary within the swimming pool industry—and HASA is thrilled to partner with PCTI to promote this incredibly in-depth, yet practical, water chemistry class to aid pool pros looking to further build their knowledge base.”    

PCTI testing apps will be available this summer season through HASA’s new mobile app—available for download on the Apple and Google Play app stores under “HASA Rewards.”

For more information, please visit

About HASA

HASA, Inc. is a leading producer and supplier of high-quality water treatment products used to sanitize and maintain water systems, including swimming pools, water tanks and containment vessels for recreational, industrial and municipal end markets. Founded in 1964, the company operates out of facilities in California, Arizona, Washington, Nevada and Texas. HASA’s many dealers, distributors, service professionals and end-user customers have all played a vital role in the company’s success.


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Global Smart Cities/Connected Public Spaces Market Report 2021 – Smart City Technology Markets Continue to Evolve at a High Pace



DUBLIN, June 16, 2021 /PRNewswire/ — The “Smart Cities: Connected Public Spaces – 2nd Edition” report has been added to’s offering.

The comprehensive smart city technology report comprises in-depth studies of five key technology areas – smart street lighting, smart parking, smart waste collection, urban air quality monitoring and smart city surveillance.

This study investigates major application areas for connected public spaces including smart street lighting, smart parking, smart waste collection, air quality monitoring and smart city surveillance. By the end of 2020, the global installed base of individually controlled smart street lights amounted to 13.0 million units (excluding China).

Smart street lighting solutions enable remote monitoring, control and management of street lighting networks. By the end of 2020, the global installed base of individually controlled smart street lights amounted to 13.0 million units (excluding China). Growing at a CAGR of 23.4 percent, the number is expected to reach 37.4 million in 2025. Europe is the leading adopter, accounting for more than 40 percent of the installed base. North America was the second largest market while the Rest of World region currently constitutes the fastest growing market. At the end of 2020, the leading smart street lighting vendor was Telensa with an installed base of nearly 2.1 million lighting controls. Included in the top three are also Signify and Sensus, while Itron constitutes a global leader in the networking segment.

Smart parking solutions based on connected parking occupancy detection sensors offer the possibility to provide real-time visibility of parking availability anywhere in a city. The dominant sensor types for such applications are in-ground and surface-mount sensors, collectively referred to as ground parking sensors. In 2020, there were 957,000 smart ground parking sensors installed globally (excluding China). The number will grow to 2.5 million units by 2025. Europe accounted for around 55 percent of the installed sensors while the North American and Rest of the World regions represented around 188,000 and 241,000 devices respectively. At the end of 2020, the leading vendors in the market were Nedap, Smart Parking and Urbiotica.

The primary hardware needed for smart waste management applications is smart waste sensors that measure fill-levels in waste bins and containers throughout a city. These sensors may either be pre-integrated into bins and containers, for example as a smart bin offering or retrofitted on existing collection points. The installed base of smart waste sensors reached 657,000 units globally in 2020 (excluding China). The market is expected to grow at a CAGR of 29.8 percent to reach 2.4 million units in 2025. Europe constitutes the leading market, accounting for around 50 percent of the global installed base. At the end of 2020, the leading vendors of smart waste sensor technology were Compology, Bigbelly and Enevo.

Traditional air quality monitoring systems have been around for decades to enable regulatory monitoring operations and typically consist of highly advanced and expensive stations deployed only at one or a few locations in major cities. The last decade has however seen growing adoption of increasingly cheap and small non-regulatory and networked air quality monitoring devices that can serve as useful complements to traditional regulatory monitoring networks. The global installed base of such devices amounted to 73,000 units in 2020 and the figure is expected to grow at a CAGR of 34.0 percent in the next five years. The market is in a very nascent stage. Europe, North America and China lead the adoption.

Smart city surveillance refers to the use of networked security technology to improve safety levels in urban areas. The market is dominated by fixed network surveillance infrastructure, but applications such as body-worn cameras and gunshot detection sensors have also emerged as important complements for city surveillance operations. The smart city surveillance equipment market was in 2020 worth € 9.9 billion, with Asia-Pacific and in particular China accounting for the majority. The market will grow at a CAGR of 19.7 percent to reach € 24.2 billion by 2025. Leading video surveillance vendors include the Chinese vendors Hikvision and Dahua Technology as well as Swedish Axis Communications, while the leading providers of urban gunshot detection and BWCs are ShotSpotter and Axon respectively.

Highlights from this report:

  • Insights from 50 new executive interviews with market leading companies.
  • 360-degree overview of the smart cities ecosystem.
  • In-depth analysis of smart street lighting, parking, waste collection, air quality monitoring and city surveillance.
  • New detailed profiles of 91 market vendors.
  • Summary of industry trends in key vertical market segments.
  • Market forecasts by region and technology lasting until 2025.

This report answers the following questions:

  • Who are the leading companies in the smart street lighting market?
  • What is the outlook for smart street lighting vendors in the context of smart cities?
  • Which are the main types of parking space occupancy monitoring solutions?
  • Who are the leading smart parking sensor vendors?
  • What are the key technology characteristics of on-street and off-street parking?
  • Who are the leading providers of smart waste sensor technology?
  • How will the adoption of LPWA network technologies affect the smart waste sensor market?
  • What are some of the key considerations when deploying air quality monitors?
  • Which are the main providers of low-cost air quality monitors?
  • How much is the smart city surveillance equipment market worth?

For more information about this report visit

Media Contact:

Research and Markets
Laura Wood, Senior Manager
[email protected]   

For E.S.T Office Hours Call +1-917-300-0470
For U.S./CAN Toll Free Call +1-800-526-8630
For GMT Office Hours Call +353-1-416-8900

U.S. Fax: 646-607-1904
Fax (outside U.S.): +353-1-481-1716

SOURCE Research and Markets

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Endgültige Ergebnisse der Winterbohrungen in der Lagerstätte West Seel: Surge Copper durchteuft 432 Meter mit 0,61 % CuÄq und 506 Meter mit 0,43 % CuÄq



  • Bohrung S21-243 durchschnitt 432 Meter mit einem Gehalt von 0,61% Kupferäquivalent einschließlich 156 Meter mit einem Gehalt von 0,76% Kupferäquivalent
  • Bohrung S21-242 durchschnitt 259 Meter mit einem Gehalt von 0,60% Kupferäquivalent einschließlich 124 Meter mit einem Gehalt von 0,74% Kupferäquivalent, wobei das Loch in einer Mineralisierung endete
  • Bohrung S21-235 durchschnitt 506 Meter mit einem Kupferäquivalentgehalt von 0,43 %
  • Die Bohrungen an der Lagerstätte West Seel wurden mit zwei Kernbohrungen wieder aufgenommen, die sich auf weitere Erweiterungs- und Definitionsbohrungen konzentrieren

Alle Bohrergebnisse aus dem 20.028 Meter umfassenden Winterbohrprogramm des Unternehmens sind nun eingetroffen und wurden veröffentlicht. Abbildung 1 zeigt die Standorte der Bohrlöcher und die Querschnittsreferenzen. Das Unternehmen freut sich bekannt zu geben, dass das mindestens 5.000 Meter umfassende Sommerbohrprogramm bei Ootsa mit zwei Kernbohrgeräten begonnen hat, die sich auf die Lagerstätte West Seel konzentrieren und Step-out-Bohrungen in Gebieten durchgeführt werden, in denen die Lagerstätte weiterhin offen ist. In Erwartung der endgültigen Planung und der Ergebnisse im Laufe des Sommers wird davon ausgegangen, dass das Programm nach außen erweitert wird, um weitere ressourcennahe Explorationsziele zu testen.

Abbildung 1: Plankarte der Bohrlochstandorte für das Ootsa-Bohrprogramm 2020-2021.

Bohrungen S21-235 und 241 bis 244 – Lagerstätte West Seel

Die Bohrungen S21-235 und 241-244 wurden alle an den Rändern der Lagerstätte West Seel oder in dem Gebiet unmittelbar zwischen den Lagerstätten East und West Seel vorgenommen. Alle fünf Bohrlöcher durchteuften bedeutende Mineralisierungszonen, wie in der nachstehenden Tabelle zusammengefasst, und die Ausrichtung und die Gesamttiefe jedes Bohrlochs sind in Abbildung 1 zusammengefasst.

Bohrung S21-243 ist der nordöstlichste Schritt auf dem langen Abschnitt von West Seel und ist in Abbildung 2 dargestellt. Das Bohrloch durchschnitt 0,61 % Kupferäquivalent über 432 Meter aus 274 Metern Tiefe, einschließlich 0,76 % Kupferäquivalent über 156 Meter aus 468 Metern Tiefe. Dieser lange Abschnitt mit starker Mineralisierung erweitert weiterhin den hochgradigeren Kern der Lagerstätte West Seel nach Nordosten.

Die Bohrung S21-235 wurde an der Westseite von West Seel gebohrt und ist in Abbildung 3 zu sehen. Die Bohrung durchschnitt 0,43 % Kupferäquivalent über 506 Meter aus 380 Metern Tiefe, einschließlich 0,68 % Kupferäquivalent über 40 Meter aus 622 Metern Tiefe.

Die Bohrungen S21-241, 242 und 244 testeten die Ostseite von West Seel. Die Bohrungen S21-242 und 244 sind in Abbildung 4 dargestellt. Alle drei Bohrlöcher durchteuften oberflächennahe Mineralisierungszonen. Die Bohrung S21-241 durchschnitt 0,31 % Kupferäquivalent auf 122 Metern, beginnend in einer Tiefe von 94 Metern. Die Bohrung S21-242 durchteufte 0,24 % Kupferäquivalent auf 42 Metern, beginnend in einer Tiefe von 26 Metern, gefolgt von 0,60 % Kupferäquivalent auf 259 Metern, beginnend in einer Tiefe von 458 Metern. Dies beinhaltet einen hochgradigeren Abschnitt mit 0,74 % Kupferäquivalent auf 124 Metern, beginnend in einer Tiefe von 542 Metern. Die Bohrung S21-244 durchschnitt 0,21% Kupferäquivalent über 58 Meter aus 32 Metern Tiefe, gefolgt von 0,29 % Kupferäquivalent über 168 Meter aus 98 Metern Tiefe.

Zusammenfassung der Untersuchungsergebnisse für ausgewählte Bohrlöcher




bis (m)





Cu (%)

Au (g/t)

Mo (%)

Ag (g/t)











































































717 EOH









717 EOH







































































Die Breite bezieht sich auf Bohrlochabschnitte, die wahren Breiten wurden nicht ermittelt. EOH = Ende des Bohrlochs.


CuÄq (Kupferäquivalent) wurde verwendet, um den kombinierten Wert von Kupfer, Gold, Molybdän und

Silber als Prozentsatz von Kupfer auszudrücken und dient nur zur Veranschaulichung. Es wurden keine Wertberichtigungen

für Verluste bei der Bergung vorgenommen, die bei einem eventuellen Abbau auftreten könnten. Die Berechnungen verwenden Metallpreise von

3,00 USD/lb Kupfer, 1.800 USD/oz Gold, 10 USD/lb Molybdän und 22 USD/oz Silber, mit der Formel

CuÄq % = Cu % + (Au g/t x 0,875) + (Mo % x 3,33) + (Ag g/t x 0,0107).


Abbildung 2. West Seel-Längsschnitt B-B’ mit den Ergebnissen der Bohrungen S20-219, 220, 224, 226, und S21-240 und 243. Siehe Abbildung 1 für die Position des Abschnitts.

Abbildung 3. West Seel-Längsschnitt 7NE mit den Ergebnissen der Bohrungen S21-235 und das zuvor gemeldete S21-232. Siehe Abbildung 1 für die Position des Abschnitts.

Abbildung 4. West Seel Längsschnitt B-B’ mit den Ergebnissen der Bohrungen S21-242 und 244 und das zuvor gemeldete S21-230. Siehe Abbildung 1 für die Position des Abschnitts.

Bohrungen S21-236 bis 238 – Westseite der Lagerstätte East Seel
Die Bohrlöcher S21-236, 237 und 238 testeten eine Zone unmittelbar westlich der Lagerstätte East Seel und stießen auf ausgedehnte Alterations- und Cu-Mo-Anomalien, aber keine signifikanten Mineralisierungsabschnitte.

Neue Informationen zum Explorationsprogramm von Ootsa

Bei Ootsa wurde mit einem Bohrprogramm von mindestens 5.000 Metern begonnen, wobei derzeit zwei Kernbohrgeräte in der Lagerstätte West Seel Bohrungen durchführen. Die Bohrungen werden sich zunächst auf eine weitere Ressourcenerweiterung und -definition bei West Seel konzentrieren und könnten sich nach außen ausdehnen, um im Laufe des Sommers weitere Explorationsziele zu testen.

Eine geophysikalische ZTEM-Flugvermessung („Z-axis Tipper Electromagnetic”) hat am 10. Juni begonnen und wird derzeit über das gesamte Konzessionsgebiet Ootsa-Berg geflogen. Arbeiter-Teams werden zusammengestellt, um eine erste Bodenverfolgung bei priorisierten ZTEM-Anomalien durchzuführen und in Vorbereitung auf die Bohrtests Oberflächenarbeiten an bestehenden Explorationszielen auf den Liegenschaften durchzuführen.


Alle Bohrkerne werden protokolliert, fotografiert und mit einer Diamantsäge in zwei Hälften geschnitten. Die Hälfte des Kerns wird in Säcke verpackt und zur Analyse an Activation Laboratories Ltd. in Kamloops, British Columbia, geschickt (das nach ISO/IEC 17025 akkreditiert ist), während die andere Hälfte archiviert und vor Ort zu Verifikations- und Referenzzwecken gelagert wird. Gold wird mittels einer 30-g-Brandprobenmethode untersucht und 37 zusätzliche Elemente werden mittels Induced Coupled Plasma (ICP) unter Verwendung eines 4-Säuren-Aufschlusses analysiert. Doppelproben, Leerproben und zertifizierte Standards werden jeder Probencharge beigefügt und dann überprüft, um eine ordnungsgemäße Qualitätssicherung und Qualitätskontrolle zu gewährleisten.


Dr. Shane Ebert, P.Geo., ist die qualifizierte Person für die Projekte Ootsa und Berg gemäß National Instrument 43-101 und hat die technische Offenlegung in dieser Pressemitteilung genehmigt.

Informationen zu Surge Copper Corp.

Das Unternehmen besitzt eine 100-prozentige Beteiligung an der Ootsa-Liegenschaft, einem Explorationsprojekt im fortgeschrittenen Stadium, das die Porphyr-Lagerstätten East Seel, West Seel und Ox enthält und an den Tagebau der Kupfermine Huckleberry angrenzt, die im Besitz von Imperial Metals ist. Die Ootsa-Liegenschaft enthält grubenbegrenzte Ressourcen gemäß NI 43-101 für Kupfer, Gold, Molybdän und Silber in den Kategorien „gemessen” und „angezeigt”.

Das Unternehmen erwirbt außerdem eine 70 %ige Beteiligung an der Liegenschaft Berg von Centerra Gold. Berg ist ein großes Explorationsprojekt im fortgeschrittenen Stadium, das sich 28 km nordwestlich der Lagerstätte Ootsa befindet. Berg enthält grubenbegrenzte Ressourcen gemäß 43-101 für Kupfer, Molybdän und Silber in den Kategorien „gemessen” und „angezeigt”. Zusammengenommen verleihen die angrenzenden Liegenschaften Ootsa und Berg Surge eine dominante Landposition im Gebiet Ootsa-Huckleberry-Berg und die Kontrolle über vier fortgeschrittene Porphyrlagerstätten.

Im Namen des Verwaltungsrats

„Leif Nilsson”
Chief Executive Officer

Für weitere Informationen wenden Sie sich bitte an: 
Telefon: +1 604 416 2978 oder +1 604 558 5847 
[email protected]

Weder die TSX Venture Exchange noch ihr Regulierungsdienstleister (gemäß der Definition dieses Begriffs in den Richtlinien der TSX Venture Exchange) übernehmen die Verantwortung für die Angemessenheit oder Richtigkeit dieser Mitteilung .

Diese Pressemitteilung enthält zukunftsgerichtete Aussagen, die sich auf zukünftige Ereignisse beziehen. In einigen Fällen können Sie zukunftsgerichtete Aussagen an Begriffen wie „wird”, „kann”, „sollte”, „erwartet”, „plant” oder „antizipiert” oder der Negierung dieser Begriffe oder anderer vergleichbarer Begriffe erkennen. Alle hierin enthaltenen Aussagen, die keine historischen Tatsachen darstellen, sind zukunftsgerichtete Aussagen, einschließlich, aber nicht beschränkt auf die Pläne des Unternehmens hinsichtlich der Liegenschaft Berg und der Liegenschaft Ootsa. Diese Aussagen sind lediglich Vorhersagen und beinhalten bekannte und unbekannte Risiken, Ungewissheiten und andere Faktoren, die dazu führen können, dass die tatsächlichen Ergebnisse, Aktivitäten, Leistungen oder Erfolge des Unternehmens erheblich von zukünftigen Ergebnissen, Aktivitäten, Leistungen oder Erfolgen abweichen, die in diesen zukunftsgerichteten Aussagen ausgedrückt oder impliziert werden. Solche Ungewissheiten und Risiken können unter anderem darin bestehen, dass die tatsächlichen Ergebnisse der Explorationsaktivitäten des Unternehmens von den Erwartungen des Managements abweichen, dass es zu Verzögerungen bei der Erlangung von erforderlichen staatlichen oder anderen behördlichen Genehmigungen kommt oder dass diese nicht erteilt werden, dass es nicht möglich ist, eine angemessene Finanzierung für die Durchführung der geplanten Explorationsprogramme zu erhalten, dass es nicht möglich ist, Arbeitskräfte, Ausrüstung und Zubehör in ausreichender Menge und rechtzeitig zu beschaffen, dass es zu Ausfällen von Ausrüstung kommt, dass die Auswirkungen der aktuellen Coronavirus-Pandemie eintreten und dass schlechtes Wetter herrscht. Obwohl diese zukunftsgerichteten Aussagen und alle Annahmen, auf denen sie beruhen, in gutem Glauben getätigt werden und die aktuelle Einschätzung des Unternehmens hinsichtlich der Geschäftsentwicklung widerspiegeln, werden die tatsächlichen Ergebnisse fast immer, manchmal sogar wesentlich, von den hierin enthaltenen Schätzungen, Vorhersagen, Prognosen, Annahmen oder anderen Vorschlägen für die zukünftige Entwicklung abweichen. Das Unternehmen beabsichtigt nicht, zukunftsgerichtete Aussagen zu aktualisieren, um sie an die tatsächlichen Ergebnisse anzupassen, es sei denn, dies ist gesetzlich vorgeschrieben.

Foto – 

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Brooklyn To Deploy Old Navy Yard For New Offshore Wind Ventures



The old Brooklyn Navy Yard was the centerpiece of seagoing innovation from its startup in 1801 to its decommissioning in 1966, and it has not been asleep at the wheel since then. In the latest development, the emerging tech incubator Newlab has paired with the leading renewable energy developer Ørsted to launch a whole new raft of ventures from the Navy Yard, beginning with offshore wind power — just in time to take advantage of a huge new offshore wind opportunity announced by the Biden administration for the New York Bight. Wait, the New York what?

New York State Is Ready For Its Offshore Wind Closeup

Before we take a look at Newlab and Ørsted, let’s take a quick look at the New York Bight.

At first glance, New York State does not seem to be a particularly fruitful candidate for national offshore wind leadership. Aside from an inland foothold on the Great Lakes, New York would be almost entirely landlocked if it wasn’t for Long Island, which juts out like a giant splinter on the southernmost toe of the state.

The northern shore of Long Island sits opposite Connecticut and forms something called the Long Island Sound, which refers to a relatively deep, narrow stretch of coastal ocean between two land masses. In this instance, “sound” is also is shorthand for nope, not gonna let any wind turbines in here. The local fishing industry is among a number of factors working against the idea of adding wind turbines to the crowded waters of the Long Island Sound.

The situation is different on the southern shore of Long Island, which is a feature of the New York Bight. A bight tends to be more open and less deep than a sound, forming a sort of broad, curving elbow or corner in a coastline. Picture Long Island as the forearm, with the upper arm formed by the northern reaches of the somewhat notorious New Jersey shoreline.

Where Have You Gone, New Jersey?

The relatively shallow waters of the New York Bight combine with its proximity to the high-population New York – New Jersey metro to make it a prime location for offshore wind energy, and therein lies a tale.

New York Governor Andrew Cuomo has been quick to jump on the wind energy economy. Back in 2018 the curiously wind-friendly Trump administration even handed leadership of the nation’s the newly minted Offshore Wind Research and Development Consortium to the Empire State, which is curious considering that Trump’s history with wind turbines is less than friendly.

In New Jersey, it was a different story. Former New Jersey Governor Chris Christie swept into office in 2010 with a Koch-fueled energy agenda. The to-do list included slow-walking renewable energy standards written into state law,  and passing up an opportunity to host millions in Energy Department funding for an innovative new wind turbine.

Oh, There You Are!

Well, that was then. Even while Christie was still in office, the Trump administration was moving forward with plans to festoon the Jersey coast with offshore wind turbines. Christie left office in 2018, a new Governor took the reins, and now the Garden State is jockeying for its place in the wind power spotlight.

In the latest development on that score, last year current New Jersey Governor Phil Murphy announced plans to build a massive wind turbine monopile manufacturing facility at an existing New Jersey port on the Delaware River, giving it easy access to the booming market for offshore wind turbines all along the Atlantic Coast, beginning with Ørsted’s forthcoming 1,100 megawatt Ocean Wind offshore wind farm located down in the southernmost reaches of the state.

It looks like the era of slow-walking is over. Ground broke on the new monopile factory in April, bringing New Jersey’s so-named Wind Port to life. Monopiles are long, pole-type supports for offshore wind turbine towers, and they are just the beginning. If all goes according to plan, the idea is to add wind turbine blade, nacelle, and tower manufacturing to the Wind Port mix.

Ørsted & Newlab & More Offshore Wind

If you caught that thing about Ørsted and the Ocean Wind offshore wind farm, you may be wondering how they got dibs on the first order of monopiles to roll out of the New Jersey Wind Port. That’s an easy one. Ørsted is a lead investor in Wind Port, and that’s just part of its interest in New Jersey’s budding wind industry.

Ørsted is already working on winning the bid for Ocean Wind 2, which includes an investment of $11 million for a fleet of electric trucks at the Port of Newark. The company is also chipping in $2 million for green workforce training through the New Jersey WIND Institute, which is also an R&D center, and speaking of R&D, that finally brings us to Newlab.

Earlier this week, Newlab and Ørsted announced the launch of of Blue Energy Studio, described as a “a collaborative initiative designed to drive innovation towards a future powered by renewable energy.”

“The Blue Energy Studio will engage entrepreneurs, engineers, inventors, and corporate partners, beginning with Ørsted, to test and iterate innovative solutions to critical challenges across the renewable energy value chain,” the partners explain.

Newlab and Ørsted plan for Blue Energy Studio to cast a wide renewable energy net, but the initial focus will be squarely on offshore wind.

“During its initial phase, the Studio will focus on offshore wind innovation, and will recruit technology companies focused on streamlining the investigation and installation of new sites for offshore wind development; improving efficiency in site operations and maintenance; and optimizing power distribution to energy grids,” they explain, which sounds kind of what the WIND Institute is all about.

If there is any rivalry between New York and New Jersey, it looks like Ørsted is determined to bridge the troubled waters with a ring of offshore wind turbines featuring the latest cost-cutting, high efficiency technology, so stay tuned for more on that.

Offshore Wind Comes To The New York Bight

If the name Newlab rings a bell, that’s because CleanTechnica has become a frequent visitor of late. Recent coverage includes moveable mini urban farms, a trial of new e-bikes and scooters, and a new energy harvesting device for parking garages from the startup Roadpower (Ford is another high profile Newlab partner, btw).

Meanwhile, the opportunities for planting more monopiles off the shores of both New York and New Jersey have been sprouting like red Solo cups on the lawn after a house party.

Earlier this week, the US Interior Department blew up the Internet by proposing the first sale of offshore wind leases in the New York Bight. This is kind of a a dog-bites-man story, because offshore wind leases were a dime a dozen during Trump’s tenure (weird, right?). However, the proposed Bight sale rises to the man-bites-dog level because it is the first proposed offshore lease sale during the Biden-Harris administration, and it comes under the President’s environmental justice, inclusive, and worker-friendly policies.

“The New York Bight is a prime example of how regional cooperation, partnerships, and stakeholder feedback can come together to identify areas suitable for offshore wind development,” said Amanda Lefton, who directs the Interior Department’s Of. “Today’s announcement demonstrates that fighting climate change and creating union jobs can go hand in hand.”

The proposed sale consists of eight leases in the New York Bight, which could generate a combined total of more than 7 gigawatts in offshore wind energy.

That could be an underestimate. At the current rate of wind energy innovation, New York Bight developers could be looking at a whole new generation of high efficiency wind turbines and related equipment by the time they’re ready to get steel in the water, thanks in part to Ørsted and Newlab.

Follow me on Twitter @TinaMCasey.

Image: Monopiles and other offshore wind turbine foundation systems courtesy of US Department of Energy.

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