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Priyanka Choppa Jonas: Hollywood Sensation and Global Icon

Priyanka Choppa Jonas: Hollywood Sensation and Global Icon

Who is Priyanka Chopra Jonas?

Priyanka Chopra Jonas is a highly accomplished Indian actress, producer, singer, and philanthropist who has made her mark in both Bollywood and Hollywood. 

Here’s a summary of her achievements:

Acting Career:

  • Miss World 2000: Launched her career by winning the prestigious Miss World pageant in 2000.
  • Bollywood Stardom: Established herself as a leading actress in Bollywood with films like “Fashion,” “Bajirao Mastani,” and “The Sky Is Pink.”
  • Hollywood Breakthrough: Gained international recognition with starring roles in American shows like “Quantico” and movies like “The White Tiger.”
  • Awards and Accolades: Received numerous awards, including two National Film Awards and five Filmfare Awards.

Other Ventures:

  • Production: Founded her own production company, Purple Pebble Pictures, which backs films like “The Sky Is Pink” and “Firebrand.”
  • Singing: Released music singles and collaborated with artists like will.i.am and The Chainsmokers.
  • Philanthropy: Actively involved in social causes like education and women’s empowerment through her foundation, the Priyanka Chopra Foundation for Health and Education.

Personal Life:

  • Married to Nick Jonas: Married American singer Nick Jonas in 2018.
  • Mother: Welcomed a daughter, Malti Marie Chopra Jonas, through surrogacy in 2022.

Additional Facts:

  • Global Icon: Considered a global icon, bridging the gap between Indian and Western entertainment.
  • Businesswoman: Invests in various businesses, including a dating app and a restaurant.
  • Activist: Vocal advocate for various social and political issues.
Priyanka Choppa Jonas: Hollywood Sensation and Global Icon

Priyanka Chopra Jonas Hystory

Priyanka Chopra Jonas is an Indian actress, producer, singer, and philanthropist. She was born on July 18, 1982 in Jamshedpur, India. She is the daughter of Ashok and Madhu Chopra, both physicians in the Indian Army. Chopra has an elder brother, Siddharth.

Chopra’s parents were not initially supportive of her desire to pursue a career in acting. However, they eventually came around and helped her launch her career. Chopra made her acting debut in the 2000 Tamil film Thamizhan. She then went on to star in a number of successful Bollywood films, including Hero: Love Story of a Spy (2003), Mujhse Shaadi Karogi (2004), and Don (2006).

In 2008, Chopra made her Hollywood debut in the film Love Cannot Happen Twice. She has since starred in a number of other Hollywood films, including Baywatch (2017), A Kid Like Jake (2018), and Isn’t It Romantic (2019).

In addition to her acting career, Chopra is also a successful singer. She has released several albums and singles, including “In My City” (2012) and “Exotic” (2013).

Chopra is also a philanthropist. She is the founder of the Priyanka Chopra Foundation for Health and Education, which works to improve the lives of women and children in India.

Chopra is married to American singer Nick Jonas. The couple tied the knot in December 2018.

Here is a timeline of Priyanka Chopra Jonas’s career:

  • 2000: Wins the Miss World pageant.
  • 2002: Makes her acting debut in the Tamil film Thamizhan.
  • 2003: Stars in the Bollywood film Hero: Love Story of a Spy.
  • 2004: Stars in the Bollywood film Mujhse Shaadi Karogi.
  • 2006: Stars in the Bollywood film Don.
  • 2008: Makes her Hollywood debut in the film Love Cannot Happen Twice.
  • 2012: Releases her first album, In My City.
  • 2013: Releases the single “Exotic”.
  • 2015: Stars in the American television series Quantico.
  • 2017: Stars in the Hollywood film Baywatch.
  • 2018: Stars in the Hollywood film A Kid Like Jake.
  • 2019: Stars in the Hollywood film Isn’t It Romantic.
  • 2019: Marries American singer Nick Jonas.

Priyanka Chopra Jonas is a talented and accomplished actress, singer, and philanthropist. She has achieved great success in both Bollywood and Hollywood. She is an inspiration to many and a role model for young women around the world.

Priyanka Choppa Jonas: Hollywood Sensation and Global Icon

Priyanka Chopra Jonas: Profile Details

Personal Information:

  • Full Name: Priyanka Chopra Jonas (born Priyanka Chopra)
  • Date of Birth: July 18, 1982
  • Place of Birth: Jamshedpur, India (now Jharkhand)
  • Nationality: Indian
  • Spouse: Nick Jonas (married 2018)
  • Children: 1 daughter, Malti Marie Chopra Jonas (born 2022)

Career Highlights:

  • Miss World 2000: Winner of the prestigious Miss World pageant, launching her career in the spotlight.
  • Bollywood Actress: Established herself as a leading actress in Bollywood with films like “Fashion,” “Bajirao Mastani,” and “The Sky Is Pink.”
  • Hollywood Breakthrough: Gained international recognition with starring roles in American shows like “Quantico” and movies like “The White Tiger.”
  • Awards and Accolades: Received numerous awards, including two National Film Awards and five Filmfare Awards.
  • Singer and Producer: Released music singles and collaborated with artists like will.i.am and The Chainsmokers. Founded her own production company, Purple Pebble Pictures.
  • Philanthropist: Actively involved in social causes like education and women’s empowerment through her foundation, the Priyanka Chopra Foundation for Health and Education.

Other Ventures:

  • Investor: Invests in various businesses, including a dating app and a restaurant.
  • Activist: Vocal advocate for various social and political issues.

Social Media:

  • Instagram: @priyankachopra
  • Twitter: @priyankachopra

Additional Details:

  • Multi-lingual: Speaks Hindi, English, Marathi, Punjabi, and some Spanish.
  • UNICEF Goodwill Ambassador.
  • Global citizen, known for bridging the gap between Indian and Western entertainment.
Priyanka Choppa Jonas: Hollywood Sensation and Global Icon

Priyanka Chopra Jonas: Miss World 2000

Priyanka Chopra Jonas’s win as Miss World in 2000 marked a significant turning point in her life and career. Here are some key aspects of her journey to and after the crown:

Pre-Miss World:

  • Though initially hesitant, Chopra entered the Femina Miss India contest in 2000 at the age of 18, encouraged by her mother.
  • She won the title of Miss India World, granting her the opportunity to represent India at the Miss World pageant.

Miss World 2000:

  • On November 30, 2000, at the Millennium Dome in London, Chopra competed against contestants from 93 countries.
  • She impressed the judges with her intelligence, poise, and confidence, eventually being crowned Miss World 2000.
  • This victory not only brought her international fame but also opened doors to various opportunities in the entertainment industry.

Impact of Miss World:

  • Chopra’s win resonated deeply in India, solidifying her status as a national icon.
  • It inspired many young girls to pursue their dreams and challenge traditional expectations.
  • The platform also allowed Chopra to advocate for social causes like literacy and women’s empowerment.

Beyond Miss World:

  • Following her reign, Chopra transitioned into a successful acting career in Bollywood, starring in numerous hit films.
  • She later crossed over to Hollywood, appearing in movies and TV shows like “Quantico” and “The White Tiger.”
  • Today, Chopra Jonas remains a global icon, recognized for her talent, achievements, and philanthropic endeavors.

Additional points of interest:

  • Chopra Jonas is the fifth Indian woman to win the Miss World title.
  • Her win was met with immense celebration and pride in India.
  • She has used her platform to speak out on various social issues, including gender equality and climate change.
Priyanka Choppa Jonas: Hollywood Sensation and Global Icon

Priyanka Chopra Jonas: Bollywood Stardom

Priyanka Chopra Jonas’s journey to Bollywood stardom is a fascinating one, marked by her talent, hard work, and ability to break barriers. Here are some key aspects of her success:

Early Beginnings:

  • Debuted in Bollywood in 2002 with the Tamil film “Thamizhan” and later entered Hindi cinema with “The Hero: Love Story of a Spy” (2003).
  • Initially faced challenges due to skepticism about her unconventional beauty and lack of family connections in the industry.

Rise to Prominence:

  • Breakthrough came with successful films like “Andaaz” (2003), “Mujhse Shaadi Karogi” (2004), and “Don” (2006).
  • Gained recognition for her versatility, portraying diverse characters in films like “Fashion” (2008) and “Mary Kom” (2014), for which she received National Film Awards.
  • Established herself as one of the highest-paid and most bankable actresses in Bollywood.

Breaking Stereotypes:

  • Challenged traditional notions of beauty and femininity by playing strong, independent female characters.
  • Spoke openly about feminism and gender equality, becoming a role model for young women.
  • Embraced her ethnicity and advocated for diversity in Indian cinema, paving the way for other actors.

Genre-Bending Success:

  • Explored different genres, from romantic comedies and thrillers to historical dramas and action films.
  • Collaborated with renowned directors like Sanjay Leela Bhansali and Vishal Bhardwaj.
  • Became one of the first Bollywood actresses to be featured on the cover of international magazines like Vogue and Time.

Beyond Acting:

  • Established her own production company, Purple Pebble Pictures, producing acclaimed films like “The Sky is Pink” (2019).
  • Launched a music career, releasing singles and collaborating with international artists.
  • Actively involved in philanthropy, addressing issues like education and women’s empowerment through her foundation.

Legacy:

  • Priyanka Chopra Jonas is considered one of the most influential figures in Indian cinema and a global icon.
  • Her path-breaking career has inspired aspiring actors and challenged the status quo in Bollywood.
  • She continues to break barriers for Indian actors in Hollywood and advocate for inclusivity in the entertainment industry.

Additional points to consider:

  • Her marriage to Nick Jonas in 2018 further increased her global profile.
  • She has been vocal about her struggles and setbacks, making her journey relatable and inspiring.
  • She is a role model for young girls and women around the world, encouraging them to pursue their dreams and break stereotypes.
Priyanka Choppa Jonas: Hollywood Sensation and Global Icon

Priyanka Choppa Jonas: Hollywood Sensation and Global Icon

Priyanka Chopra Jonas’s impact extends far beyond Bollywood, and her Hollywood breakthrough deserves further exploration. Here’s a deeper dive into her journey westward and its impact:

Hollywood Calling:

While Chopra Jonas had already made waves in Bollywood, her ambition led her to Hollywood in 2015. She landed the lead role in the American television series “Quantico,” becoming the first South Asian actress to headline a major American network drama. This was a groundbreaking moment, shattering stereotypes and paving the way for greater representation.

Breaking Stereotypes on the Big Screen:

Chopra Jonas didn’t stop there. She went on to star in Hollywood films like “Baywatch” (2017), “A Kid Like Jake” (2018), and “Isn’t It Romantic” (2019). These roles showcased her comedic timing, dramatic range, and ability to seamlessly blend into Hollywood narratives without being typecast.

From Quantico to Global Recognition:

“Quantico” was a global success, further solidifying Chopra Jonas’s international presence. She became a household name, gracing red carpets worldwide and even co-hosting the prestigious Met Gala in 2019. Her undeniable charm and talent earned her legions of fans around the world.

Beyond Acting: A Multifaceted Icon:

Chopra Jonas didn’t limit herself to acting in Hollywood. She used her platform to advocate for diverse storytelling and empower other South Asian actors. She also established herself as a global fashion icon, collaborating with renowned designers and appearing on top fashion magazine covers.

Building Bridges, Inspiring Generations:

Chopra Jonas has become a bridge between the Indian and Western entertainment industries. She has actively championed diversity and inclusion, encouraging Hollywood to embrace more international narratives and actors. Her journey has inspired countless aspiring actors and women worldwide, proving that dreams have no borders.

Her Legacy: Beyond Hollywood Stardom:

Chopra Jonas’s Hollywood success is not just about individual achievements; it’s a cultural milestone. She has broken barriers, defied expectations, and opened doors for future generations. Her influence extends far beyond the big screen, making her a true global icon and an inspiration for all.

Additional Points to Consider:

  • Her marriage to Nick Jonas further solidified her global appeal.
  • She has used her platform to address important social issues like climate change and refugee rights.
  • She continues to break new ground, recently producing and starring in the Hollywood film “The White Tiger” (2021).
Priyanka Choppa Jonas: Hollywood Sensation and Global Icon

Priyanka Chopra Jonas: Social Media Engagement

Priyanka Chopra Jonas is a prominent figure on social media with a strong and active presence across various platforms. Here’s a look at her engagement:

Platforms and Reach:

  • Instagram: With over 80 million followers, her Instagram is the most popular platform, showcasing personal and professional updates, glimpses into her life, and collaborations with brands.
  • Twitter: Around 28 million followers, she shares news, opinions, and interacts with fans on Twitter.
  • Facebook: Over 40 million followers, she engages with fans and promotes her work on Facebook.

Engagement Strategies:

  • Authenticity and Humor: She shares personal moments and lighthearted content, connecting with followers on a relatable level.
  • Storytelling: Utilizes features like Instagram Stories and live videos for real-time engagement and behind-the-scenes glimpses.
  • Social Advocacy: Raises awareness for causes she cares about, encouraging followers to participate and donate.
  • Brand Collaborations: Partners with various brands, promoting products and engaging with their audiences.

Impact and Influence:

  • Ranked among the most influential celebrities in India and globally.
  • Her social media presence helps her connect with fans, promote her work, and advocate for important causes.
  • Sets an example for other celebrities in using social media responsibly and positively.

Additional Notes:

  • She has faced criticism for some of her social media posts, highlighting the challenges of navigating online spaces as a public figure.
  • Her engagement strategies evolve with the changing social media landscape, and she adapts to keep her audience connected.
  • She uses her platforms to empower others, especially young women, to use their voices and make a difference.

Priyanka Chopra Jonas utilizes social media effectively to connect with her audience, promote her work, and advocate for positive change.

Priyanka Choppa Jonas: Hollywood Sensation and Global Icon

Priyanka Chopra Jonas: Career Timeline

Early Life and Beginnings (2000-2002):

  • 2000: Wins Miss India World and Miss World titles.
  • 2002: Makes acting debut in Tamil film “Thamizhan”.

Bollywood Breakthrough (2003-2006):

  • 2003: Commercially successful films: “The Hero: Love Story of a Spy”, “Andaaz”.
  • 2004: “Mujhse Shaadi Karogi”.
  • Establishes herself as a leading Bollywood actress.

Critical Acclaim and Experimentation (2007-2011):

  • 2008: Acclaimed performance in “Fashion”, wins awards.
  • 2009: “Kaminey”, showcases versatility.

Continued Success and Hollywood Debut (2012-2016):

  • 2012: “Barfi!”
  • 2014: “Mary Kom”
  • 2015: “Bajirao Mastani”, makes Hollywood debut in “Baywatch” (2017).

Global Expansion and Television Success (2017-Present):

  • 2015-2018: Stars in American series “Quantico”, first South Asian actress to lead a network drama.
  • 2021: Hollywood films: “The White Tiger”, “The Matrix Resurrections”.
  • 2023: Starts production company, becomes UNICEF Goodwill Ambassador (2016).

Present Day (2024):

  • One of the most influential and successful actresses globally.
  • Recently starred in action series “Citadel”.

Additional Data:

  • Awards: National Film Award, Filmfare Awards, Padma Shri award (4th highest civilian honor in India).
  • Production company: Purple Pebble Pictures.
  • Social media: 80+ million followers on Instagram.
Priyanka Choppa Jonas: Hollywood Sensation and Global Icon

Priyanka Chopra Jonas: Movie List

Early Career (2002-2006):

  • Thamizhan (2002) – Tamil debut
  • The Hero: Love Story of a Spy (2003)
  • Andaaz (2003)
  • Mujhse Shaadi Karogi (2004)

Critical Acclaim and Experimentation (2007-2011):

  • Fashion (2008) – Award-winning performance
  • Dostana (2008)
  • Kaminey (2009)
  • 7 Khoon Maaf (2011) – Best Actress (Critics) award

Continued Success and Hollywood Debut (2012-2016):

  • Agneepath (2012)
  • Barfi! (2012)
  • Krrish 3 (2013)
  • Mary Kom (2014)
  • Dil Dhadakne Do (2015)
  • Bajirao Mastani (2015)
  • Baywatch (2017) – Hollywood debut

Global Expansion and Recent Projects (2017-Present):

  • The White Tiger (2021) – Netflix, critical acclaim
  • The Matrix Resurrections (2021)
  • Love Again (2023)
  • Citadel (2023) – Amazon Prime Video series

Additional Data:

  • Number of films: 40+ (including major roles)
  • Genres: Action, comedy, drama, romance, thriller, historical
  • Languages: Hindi, Tamil, English
Priyanka Choppa Jonas: Hollywood Sensation and Global Icon

Priyanka Chopra Jonas: Production Journey

Purple Pebble Pictures: A Platform for Diverse Stories

Priyanka Chopra Jonas’s production journey began in 2015 with the launch of Purple Pebble Pictures (PPP). Driven by the desire to empower new talent and tell diverse stories, PPP has carved a niche in the Indian film industry.

Vision and Focus:

  • Nurturing New Talent: PPP prioritizes providing opportunities for fresh faces, both in front of and behind the camera. This has helped launch the careers of actors, writers, and directors.
  • Diverse Storytelling: The company’s slate boasts films across genres, from lighthearted comedies to thought-provoking dramas, exploring themes relevant to contemporary society.
  • Regional Focus: PPP actively supports regional cinema, producing films in various Indian languages, showcasing the richness and diversity of Indian storytelling.

Notable Productions:

  • Ventilator (2016): Marathi-language drama, critically acclaimed for its nuanced portrayal of a family facing a medical crisis.
  • The Sky Is Pink (2019): Hindi biographical drama based on Aisha Chaudhary’s life, praised for its sensitive portrayal of disability and family dynamics.
  • Firebrand (2023): Marathi-language biopic on revolutionary Sanyukta Timore, currently in post-production.

Beyond Bollywood:

  • Bajirao Mastani (2015): While not produced under PPP, Chopra Jonas co-produced this historical epic, demonstrating her ambition and business acumen.
  • Kayakalp (2023): International production debut, co-producing this Canadian film, showcasing her global aspirations.

Impact and Recognition:

  • PPP’s productions have garnered critical acclaim and audience appreciation, establishing the company as a force in Indian cinema.
  • Chopra Jonas’s role as a producer has been recognized with awards and nominations.
  • Her commitment to nurturing talent and telling impactful stories continues to inspire aspiring filmmakers and audiences.

Looking Ahead:

With her dedication to innovation and storytelling, Priyanka Chopra Jonas is poised to further elevate Indian and global cinema through Purple Pebble Pictures. Her future endeavors as a producer are highly anticipated, promising to bring fresh perspectives and captivating narratives to the big screen.

Priyanka Choppa Jonas: Hollywood Sensation and Global Icon

Priyanka Chopra Jonas: Awards and Achievements

Priyanka Chopra Jonas is a highly decorated actress with numerous accolades to her name. Here’s a breakdown of some of her most notable achievements:

Major Awards:

  • National Film Awards:
    • Best Supporting Actress – “Fashion” (2008)
    • Best Actress – “Mary Kom” (2014)
  • Filmfare Awards:
    • Best Supporting Actress – “Fashion” (2008)
    • Best Actress – “Bajirao Mastani” (2016)
    • Best Actress (Critics) – “Mary Kom” (2014)
    • Best Female Debut – “The White Tiger” (2022)
  • International Awards:
    • People’s Choice Award for Favorite Actress In A New TV Series – “Quantico” (2016)
    • Padma Shri – India’s fourth highest civilian award (2016)
    • Danny Kaye Humanitarian Award at the UNICEF Snowflake Ball (2020)

Additional Recognitions:

  • Miss World 2000
  • Forbes India’s Most Powerful Women list (2017, 2018, 2019)
  • Time Magazine’s 100 Most Influential People list (2017)
  • UNICEF Goodwill Ambassador (2016)
  • BBC’s 100 Women list (2020)

Note: This is not an exhaustive list, and Priyanka Chopra Jonas has received numerous other awards and nominations throughout her career. You can find a more comprehensive list on her Wikipedia page or other online sources.

Beyond Awards:

  • Established her own production company, Purple Pebble Pictures.
  • Launched her own clothing line and fragrance brand.
  • Actively involved in philanthropy and social causes.

Priyanka Chopra Jonas’s impressive list of awards and achievements reflects her talent, dedication, and impact on the entertainment industry and beyond.

Priyanka Choppa Jonas: Hollywood Sensation and Global Icon

Priyanka Chopra Jonas: A Passionate Advocate for Change

Priyanka Chopra Jonas is not only a celebrated actress but also a dedicated philanthropist who uses her platform to champion various causes. Here’s an overview of her philanthropic endeavors:

Focus Areas:

  • Children’s Rights and Education:

    • Serves as a UNICEF Goodwill Ambassador since 2016, advocating for education and child protection globally.
    • Founded The Priyanka Chopra Foundation for Health and Education in 2009, providing medical care and education opportunities to underprivileged children in India.
    • Championed the Girl Up campaign, empowering girls to pursue education and leadership roles.
  • Gender Equality and Empowerment:

    • Vocal advocate for women’s rights and gender equality, speaking at various forums and campaigns.
    • Supported organizations like UN Women and the Malala Fund.
    • Launched the #ChallengingTheStatusQuo campaign to raise awareness about gender-based violence.
  • Health and Well-being:

    • Raised funds and awareness for various health issues like asthma and cancer.
    • Supported organizations like the American Cancer Society and the Asthma and Allergy Foundation of America.
    • Used her platform to promote mental health awareness and combat stigma.
  • Environmental Sustainability:

    • Actively involved in promoting environmental awareness and advocating for sustainable practices.
    • Supported organizations like The Nature Conservancy and Project GreenHands.
    • Used her platform to encourage eco-conscious living and responsible resource utilization.

Key Initiatives:

  • UNICEF Goodwill Ambassador: As a global ambassador, Chopra Jonas has visited conflict zones and refugee camps, met with world leaders, and raised millions of dollars for UNICEF programs.
  • The Priyanka Chopra Foundation: The foundation has established mobile medical units, provided scholarships, and supported healthcare initiatives in India, impacting thousands of lives.
  • #ChallengingTheStatusQuo Campaign: This campaign aimed to raise awareness about gender-based violence and empower women to speak up.

Impact and Recognition:

  • Chopra Jonas’s philanthropic work has been recognized by various organizations, including the Danny Kaye Humanitarian Award and the TIME 100 list of Most Influential People.
  • Her dedication inspires others to contribute to positive change and advocate for causes close to their hearts.

Note: This is not an exhaustive list of Priyanka Chopra Jonas’s philanthropic contributions. She continues to be actively involved in various causes and uses her platform to make a difference in the world.

https://www.exaputra.com/2024/02/priyanka-choppa-jonas-hollywood.html

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Universal HealthCare? Don’t Hold Your Breath

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As the United States continues its slide into corporatocracy and oligarchy, the concept of universal healthcare becomes ever more unlikely.

As the midterms approach, we need to brace ourselves for the onslaught of messaging from the GOP to the effect that Trump is the only force separating America from communism.  This, believe it or not, is a concept warmly embraced by tens of millions of hateful idiots.

The rest of the developed world deems healthcare to be a human right, like potable water.  We counter: Bull****.  Corporate profitability is the supreme right here.  

Universal HealthCare? Don’t Hold Your Breath

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Do Liberals Hate America?

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Yes, the MAGA crowd has a huge appetite for the type of rhetoric we see at left, but their numbers are slowing shrinking.

That said, it’s still amazing that the U.S. is home to tens of millions of idiots who believe that liberals hate our country and are trying to destroy it.

Do Liberals Hate America?

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Renewable Energy

PowerCurve Recovers India AEP, Silent Edge Cuts Noise

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Weather Guard Lightning Tech

PowerCurve Recovers India AEP, Silent Edge Cuts Noise

Nicholas Gaudern, CTO at PowerCurve, joins to discuss India AEP gains, DragonScale VGs, and Silent Edge noise reduction.

Sign up now for Uptime Tech News, our weekly newsletter on all things wind technology. This episode is sponsored by Weather Guard Lightning Tech. Learn more about Weather Guard’s StrikeTape Wind Turbine LPS retrofit. Follow the show on YouTubeLinkedin and visit Weather Guard on the web. And subscribe to Rosemary’s “Engineering with Rosie” YouTube channel here. Have a question we can answer on the show? Email us!

Welcome to Uptime Spotlight, shining light on wind energy’s brightest innovators. This is the progress powering tomorrow

Allen Hall: Nicholas, welcome back to the podcast.

Nicholas Gaudern: Thanks, Allen. Great to be back.

Allen Hall: So there’s a lot going on at Power Curve, and I saw some news online about Power Curve in India.

Nicholas Gaudern: Yes.

Allen Hall: Which is a new development.

Nicholas Gaudern: Yeah, so we’ve been working in India for, for some years now, and we have, uh, more than 100 turbines out there with our equipment on, primarily vortex generators so far.

And what we’re seeing in India is some of the highest AEP gains we’ve ever recorded with our vortex generators And I think a lot of this is being driven by the fact that in certain parts of India, there’s some very unique, uh, environmental conditions, climatic conditions, and there’s parts of the year, like the dry season up in [00:01:00] the north of India, where you’re getting this very sticky dirt accumulating on the blades.

And it’s really quite dramatic when you see the photographs, but that means that the blades are actually starting to, to stall, have flow separation on them.

Allen Hall: I’ve seen pictures of that. Yeah. I was really shocked at the time, uh, ’cause I didn’t know it was just kind of a black, gooey- Yeah … kind of tar-like substance- Yeah, yeah

on the blades, and, uh, it, it was only on there a limited time. As soon as the monsoons come through and the rains hit, it would wash, eventually wash it off. Yes. But while it’s there, you could see the airflow over the blade surfaces. You, you could definitely see separation happening really early on those blades.

Dramatic.

Nicholas Gaudern: Yeah, absolutely, and I think the, um… Like you say, it’s not all year. No. But it doesn’t have to be all year to have a huge impact on, on how many, you know, megawatt hours you’re getting out the other end. So there’s a few months of the year where this problem is particularly severe, maybe sort of December through to February, something like that.

And what we’re finding is that when you see, uh, the power curves for these [00:02:00] turbines, some of them aren’t even hitting rated power. They’re not able to hit rated power because there’s so much flow separation on the blades.

Allen Hall: Wow.

Nicholas Gaudern: And that, I mean, just imagine that. You’ve got a two megawatt turbine, for example.

Maybe it doesn’t cast- get past 1.5 megawatts for this, uh, time of the year. I mean, that’s crazy.

Allen Hall: Does the turbine try to adjust itself when that happens? Because the pictures I s- have seen indicates, like, the turbine is pitching the blades to, ’cause it knows- It can- …

Nicholas Gaudern: what the wind

Allen Hall: speed is- I mean, yeah … and it knows what it should be putting out, and it’s not putting that out.

Nicholas Gaudern: It’s very turbine specific, kind of controller logic specific, but what we see is even the turbines that try to do something, they’re very limited in how much pitch authority they have from the controller. They might be able to just do a little bit, a degree. Okay. Two degrees. You know, very, very small pitch adjustments.

And when you have this kind of dirt on the leading edges, a degree of pitch ain’t gonna save you really. Um- N-

Allen Hall: no. And I think that’s what we’re seeing. And it’s not gonna get that power back. No, no.

Nicholas Gaudern: No.

Allen Hall: But does it add extra load onto the blade structurally over [00:03:00] time when you do that?

Nicholas Gaudern: In terms of the pitching, or-

Allen Hall: Yeah, in terms of the pitching, where you’re trying to be more aggressive on the angle of attack to get the power out of the turbine.

Potentially. And the winds are still pretty strong, you just, the blades are inefficient.

Nicholas Gaudern: I think it’s one of those things where there’s, there’s so many interconnected items with the dirt and the controller and the structure. It’s actually pretty difficult, I think, to say with confidence how much life impact you would have from that.

But what I would say is the more that you might end up trying to pitch, if that’s what’s going on on some machines, that obviously puts wear on the pitch bearings themselves. But yeah, I think at the moment we’re kind of at the beginning of really trying to understand how some of these turbines do deal with this phenomenon.

But what we’re trying to do is get to a point where the turbine doesn’t really have to deal with it. Because if you fix the problem at the source, which is stop the flow separating, then the controller doesn’t really have to, to worry. It doesn’t have to try to, to fix it itself.

Allen Hall: Yeah. That makes a lot more sense.

Just the number of images I’ve seen over the last couple years from India-

Nicholas Gaudern: [00:04:00] Yep …

Allen Hall: you realize how difficult it is to operate a wind turbine there.

Nicholas Gaudern: So even when we, um, have this issue for a few months that we’re resolving with the VGs, we can still be seeing over the whole year more than 5% increases in annual energy production.

Because those months are really important. Um ‘

Allen Hall: Cause that’s when they need the

Nicholas Gaudern: power. Yeah, yeah, yeah. Exactly. For sure. And this is primarily coming from the vortex generators towards the tips of the blades. So that’s where you’re having this, uh, heavy contamination issue, and that’s where all the power would be produced.

So kind of the outer third of a blade is 50, maybe 60% of the power production of a turbine, maybe closer to 50. So that means that if you have a problem out there, it’s, it’s a big problem in terms of your annual energy production. So-

Allen Hall: Right …

Nicholas Gaudern: the VGs are, what they’re doing is they are, they’re injecting energy back into the flow.

Allen Hall: Redirecting the flow, in a

Nicholas Gaudern: sense. So, so basically you have all this contamination on the leading edge. It’s generating more turbulence. The flow isn’t able to retain, uh, remain attached [00:05:00] across the entire chord length. So the VGs are putting energy back into the flow and allowing it to remain attached all the way to, uh, to the trailing edge.

Allen Hall: So even with the blades are dirty-

Nicholas Gaudern: Yes …

Allen Hall: you get that power out- Exactly … put, that you really desire or-

Nicholas Gaudern: Yeah …

Allen Hall: are paying for. Yeah. You, you paid a lot of money for that turbine- Yeah, exactly … you need to get the power out of it.

Nicholas Gaudern: Yeah.

Allen Hall: And-

Nicholas Gaudern: So of course, you know, that suggests that if you had a, a super clean blade, you went and pressure washed it, uh, you would get, uh, an increase in power as well, and that’s true.

You, you- That’s true … you will do. But that’s a one-time thing. Um, so- And

Allen Hall: it’s expensive to do- Yeah … and time-consuming.

Nicholas Gaudern: Exactly. Maybe a few days later, the dirt’s back. So- Sure … you know, it’s not really a sustainable thing for you to be going out washing these blades the whole time. And washing the blades may not be great for the surface of the blade either.

So, you know, a VG is just sat there the whole time. It doesn’t matter if it’s dirt, bugs, erosion, frost, it’ll recover those losses that, that you’re seeing.

Allen Hall: Do the VG installations in a situation like that, [00:06:00] the actual location differ because of the contaminants that are present and the kind of, uh, leading edge effects that you’re seeing?

Do you design it for that environment? Or- Yeah … is every- Oh, you do. So- Yeah, we

Nicholas Gaudern: do. I mean, typ- typically our, our VG arrays are turbine model specific. But in India, we’re finding we’re actually having to be more site specific as well. Oh,

Allen Hall: wow.

Nicholas Gaudern: Because some of this contamination is so severe, we’ve seen that we need to design the VG layout a little bit differently to make sure that we’re giving enough, uh, energy recovery potential when you have these really severe, uh, situations.

Allen Hall: Are you using the AeroVista tool to do that? How do you, how do you quantify the contamination that’s happened on the leading edge at a particular moment or roughly on scale a- and then try to model that? That just seems like a difficult computation.

Nicholas Gaudern: It is. And, um, you know, we’re, we’re getting better all the time.

AeroVista is definitely part of that. So AeroVista’s primary function really is to look at, um- [00:07:00] AEP losses due to structural damages, things like erosion. But actually, erosion behaves very similar to dirt when it comes to, like- It, right … aerodynamic behavior. Yeah. So we can actually use kind of the AeroVista engine to help us understand what is the loss from different levels of contamination.

So we can add contamination levels into AeroVista, as well as, uh, erosion. And we can start to look at, well, what happens if the blade looks like this? What if it looks like this? And then this gets combined with our computational fluid dynamics, our CFD models that we’re running, three-dimensional, two-dimensional.

We sometimes do some aeroelastic modeling as well. So we basically have a big toolbox, and like with any engineering problem, it’s about picking the best tool for the job. So we just go in, and we have all these great tools, and we, we put them together in a workflow that allows us to design the, the best solution for each site that we look at.

Allen Hall: And it’s not India-specific in terms of leading-edge contamination. No. I’ve seen pictures from the US, Brazil, um, [00:08:00] Australia, a number of places where there’s just bugs. Yeah. Right? Those, especially in places where there’s large bugs- Yes. … you kind of get this splatter effect going on. Yeah. And you can have a really contaminated blade surface.

In the US, in the middle of the US, you’ll have grasshopper season, and-

Nicholas Gaudern: Yeah, absolutely …

Allen Hall: tho- those grasshoppers are big, and they splatter. And they leave a disaster. We’ve seen

Nicholas Gaudern: that in, uh, in the Midwest, for sure. Oh, yeah. Some really, really severe contamination from bugs.

Allen Hall: And you, you don’t think about, as an engineer or a site supervisor, that- All right.

This sort of, uh, grasshopper season that happens is affecting my AEP, but 100% it is. And that stuff is gooey, so if you ever drive through the Midwest in the summertime- … you run through, uh, any kind of insect swarm and try to get it off your vehicle. Yeah. It takes some scrubbing.

Nicholas Gaudern: Yeah. It re- it really does.

And imagine when you’ve gotta go up there for, like, 100-meter diameter rotor.

Allen Hall: Right. ‘

Nicholas Gaudern: Cause that’s quite a challenge. So I think, yeah, they have all these challenges, uh, in terms of environmental conditions, and a lot of people consider aerodynamic [00:09:00] behavior blades quite binary. Either the blade is clean or the blade is dir- Or it’s dirty

or it’s dirty. Right. But it’s this entire spectrum. It’s everything in between, and I think that is kind of a little bit of a different way of thinking about the problem. And then it makes the argument around why to put VGs there kind of, uh, easy to, to answer, because the blade is never really truly clean.

Allen Hall: No. I… Unless it’s right after a rainstorm- Yeah … I rarely see clean blades. Okay, so the … If VGs are going on, are you using the DragonScale VGs to solve some of the India problems, some of the contamination problems?

Nicholas Gaudern: So DragonScale’s not in India yet. That’s something that we’re looking at. So we, um, we got all the tooling finished for DragonScale some months ago now, and we’re shipping DragonScale kits.

Uh- Oh, wow. Okay … not, not to India yet, but they are out in, in the field, and we’re gonna be having some more out just in the next couple of weeks, actually, which is quite exciting. We’re doing our first project, um, in Canada.

Allen Hall: Oh.

Nicholas Gaudern: So we’re starting to kinda come across the, the pond with the VGs now, [00:10:00] with the DragonScale VGs.

Allen Hall: So the DragonScales, uh, uh, uh, thank you for bringing a, a sample here today, but the, the DragonScales are really interesting in terms of just the way the airfoil shapes are and how they’re s- kinda stacked and layered- Yeah … and there’s different depths to them, heights to them, to get the flow back where you want it to.

Yeah. And it, I guess it depends on where you are on the blade. If you’re near the root, they’re gonna look something like this. Exactly. Yep. If you’re getting near the tip, they’re

Nicholas Gaudern: much

Allen Hall: smaller- Yeah, we have some smaller ones. Yep … scale, scale of this. So- This then, the Dragon Scales do require a little bit of computational knowledge of what’s going on- Yep

with the blade. And as you say, they- You just can’t willy-nilly stick

Nicholas Gaudern: them on … they’re, they’re quite different. You know, they’re quite different from a standard triangle of VG.

Allen Hall: Right.

Nicholas Gaudern: And, you know, there’s lots of ways that you can create a vortex aerodynamically. And triangles- Sure … create a vortex, sure, but they, they really create one through a process of separation.

Yeah. You have a flow hitting this, this plate that’s angled to the flow. It’s rolling over the top, and it’s tripping into a, into a vortex. But that’s quite a draggy way [00:11:00] of- It is … creating a vortex. Yes. Um, so VGs work. We’ve seen that. You know, we have more than 2,000 turbines now with VGs, so we, we know they work.

Yeah. But Dragon Scale, the whole idea is not that we … This is still a VG. It’s still creating a vortex. Sure. But it’s doing it in a much more efficient manner, so we get the same lift recovery benefits, lift boosting benefits, but at a much lower drag. So we have a better drag ratio. ‘Cause it’s the drag, right?

Allen Hall: It’s the drag. The little triangular-

Nicholas Gaudern: Yeah …

Allen Hall: vortex generators are draggy.

Nicholas Gaudern: So anything you stick on a blade, it, it has a drag. It has a parasitic drag component. Um, they have a huge benefit that outweighs that. That’s why we put them on.

Allen Hall: Yeah.

Nicholas Gaudern: But of course, you can always do better. And I think here we really try to take inspiration from, from lots of the aerodynamic developments we’ve seen over the past decades in aviation and motorsport and, and these other disciplines.

Allen Hall: Right. I always say these look like a Formula One

Nicholas Gaudern: add-on. Yeah, yeah. Exactly. A bigger blade. Or maybe some front slats of a aircraft or some, uh, gas turbine cascading elements- Oh, sure.

Allen Hall: Yeah …

Nicholas Gaudern: these

Allen Hall: kind of things. Yeah.

Nicholas Gaudern: Yeah.

Allen Hall: Gas turbine people would easily recognize this. Yeah, [00:12:00] I

Nicholas Gaudern: think so.

Allen Hall: Uh, so the, the Dragon Scales then in terms of, uh, the location of them on the blade, would it differ than the triangular VGs in terms of generic location?

A, a

Nicholas Gaudern: little bit, but broadly it’s the same because- Okay … you know, ultimately the fundamental physics of what we’re trying to do hasn’t changed.

Allen Hall: Sure.

Nicholas Gaudern: Um, so we’re kind of, we’re addressing the same areas of the blade. But the Dragon Scale gives us a bit more flexibility. We can have these three fin versions that create a very powerful vortex, so we find those down in the root, ’cause that’s where we just want as much lift as possible.

Right.

Allen Hall: Yeah. Right.

Nicholas Gaudern: Uh, but out at the tip we actually have a two fin variant. Oh. Because there we’re, we’re more focused on L over D. We wanna maximize our lift-to-drag ratio.

Allen Hall: Sure.

Nicholas Gaudern: Because that’s where the drag really hurts you, out towards the tip.

Allen Hall: So are they in a strip form then? Yes. Very similar to the triangular VGs?

Nicholas Gaudern: Yeah, exactly. So the, the smaller ones on the strip, just because they’re only, like, five millimeters high.

Allen Hall: Yeah. They wanna

Nicholas Gaudern: see more- So otherwise it’s, it’s kind of watchmaking if they’re individual- … little pieces, uh, going down on the blade. O-

Allen Hall: okay. Yeah. Well, that’s fascinating. All right. Uh, I wanna talk about [00:13:00] Silent Edge before I, I lose you today.

The Silent Edge product has been out in the field- Mm-hmm … and there has been some noise testing done, which I always think is very interesting because I’ve- Yeah … I’ve watched videos from, mostly from DTU, explaining how they do this, where they got the microphones around. And like- Yes … wow, that’s a really complicated test to go pull off.

But you just got through a series of these-

Nicholas Gaudern: We did …

Allen Hall: noise tests with Silent Edge. And you have the results back.

Nicholas Gaudern: We do, yeah. I mean, it was a really exciting, um, test program, and we were partnered together with, uh, Statkraft, who very kindly lent us a few of their wind turbines up in Sweden. Uh, and we are working with the Danish Technical University, DTU Wind, to help with the measurements and actually figure out what’s going out on the turbine.

So this was a project that we were, um, able to secure some funding from, from the Danish, uh, EUDP. So that’s the Energi [00:14:00] Teknologisk Udviklings- og Demonstrationsprogram.

Allen Hall: Right.

Nicholas Gaudern: Yeah. Nothing to do with the EU. It’s a very, it’s a Danish thing. Danish, yeah. But there is EU in the name. Right. Um, so they supported this project with Statkraft and DTU, and what we found is that when we put a Silent Edge on a, uh, it was like a two, two and a half megawatt machine, it had no serrations before.

Okay.

Allen Hall: So we measured- So just a out of the factory blade.

Nicholas Gaudern: Yeah, exactly, and it was in good condition. It had had a recent repair campaign, so the blade was in, in good shape. And then what we did, uh, or what DTU did, is they went out and they measured the noise of this turbine according to the IEC standard.

So there’s an IEC standard on how you should measure noise and what microphones to use and how to post-process it, and then we installed the Silent Edge serrations. And firstly, before we’d even done any measurements, we had people out at site, and they, they live out there. They’re the technicians. They see these- Okay

turbines every day, and they went, “What, what have you, what have you done to, to this turbine?” Because it sounded so different. It sounded much [00:15:00]quieter. The, the quality of the sound was very different, and they just, they just stepped out the car and went, “Wow.” “This is, this is really impressive.” Um-

Allen Hall: So what, give me a description of what the sound is.

I know generally, when you come with a standard blade, it has that kind of shoop, shoop-

Nicholas Gaudern: Yeah, exactly … shoop. It basically just really brings down that perceived loudness of the sound, so it’s just a m- it’s a much quieter sound, and we’re also taking out quite a lot of low frequency component.

Allen Hall: Okay.

Nicholas Gaudern: That’s what- These serrations are really targeting the lower frequencies, so kind of around the kilohertz and, and under.

Allen Hall: Mm.

Nicholas Gaudern: That’s where these things are really starting to bring down the, um, the decibels.

Allen Hall: This- So, okay. So Silent Edge is, uh, sort of a unique design, or is a unique design i- in terms of the- What you see on the typical trailing edge, which are a bunch of triangles or dino tails, right? Yes, dino tails. Yes,

Nicholas Gaudern: yeah.

Allen Hall: Dino tails is, was the generic term for years, and they looked like dino tails, so, so it’s a good description- Yeah … of them. But these more, look more like a cathedral in

Nicholas Gaudern: a sense. Yeah, these, these are quite different though. So we have kind of this iron-shaped, uh, tooth fundamentally, [00:16:00] but we have three different tooth sizes, uh, and they’re asymmetric.

Allen Hall: Mm.

Nicholas Gaudern: And I would love to come here and tell you that we know exactly how this works. Um, but I can’t unfortunately, and, and that’s just how it is sometimes with engineering. We cannot simulate this in the detail required to really understand exactly why each geometric feature does what it does. And if someone claims they can do that, then, then I may be a bit suspicious.

Or, or I’d really like to talk to them, one of the two. Um, but that means that to develop this kind of product successfully, you have to go to the wind tunnel. Okay. Because the simulation is so demanding. So we go to the wind tunnel. We spent a lot of time in the Paul Ricard wind tunnel at DTU, so we can measure aerodynamics and acoustics at the same time And we went with lots of components and 3D prints, and we iterated through design paths, and we came up with this, I think it’s a really wonderful shape we’ve ended up with.

And it was proven out in the field because the final result was we reduced the overall sound [00:17:00] pressure level of the turbine by five decibels. And that is- Whoa … that is huge.

Allen Hall: That’s a lot.

Nicholas Gaudern: So in terms of, like, perceived, uh, loudness of the sound, that’s like a 30% reduction. So this is why the, the technicians who st- stepped out the car heard such a difference, because it’s a massive reduction in, in what the turbine produces.

So

Allen Hall: you’re lowering the decibels coming off the, the trailing edge. Yeah. But also moving around the frequencies so it’s a little less-

Nicholas Gaudern: Yeah, so a lot of that- … uh- That… So the- …

Allen Hall: noticeable

Nicholas Gaudern: also … the five decibels, that’s, that’s this OASP, or we call it overall sound pressure level. This is an integration of all of the reductions we see across the frequency spectrum.

Oh,

Allen Hall: okay.

Nicholas Gaudern: All right. So we’re getting more reduction at lower frequencies. Right. Good. There’s also some high frequencies. But the lower frequencies matter more. So what we do when we’re doing acoustic measurement is we A-weight, we, we weight the, the noise because it relates to how the human ear perceives sound.

Allen Hall: Sure.

Nicholas Gaudern: So it matters more to you, the one [00:18:00] kilohertz frequency than the 20 kilz- kilohertz frequency.

Allen Hall: Yeah. Can’t hear

Nicholas Gaudern: 20 kilohertz. E- exactly. So that’s right at the upper end. So we weight the results, and this is part of the ICE standard, to understand how the human ear perceives the sound.

Allen Hall: Oh, wow. Okay.

Nicholas Gaudern: Um, and this is where we get our, our five decibels

Allen Hall: from.

So this, this was really an iterative process then- Yeah … in the DT laboratory. Yeah. Ooh, wow. I didn’t realize that. Mm-mm. I, I figured you had gotten relatively close by computational methods and then- We- … honed it a little bit …

Nicholas Gaudern: we, we come sort of computate… We do a lot of computation around the angle of the serrations, because the angle of the serration is really critical for, uh, lift generation and loads.

Allen Hall: So when you’re speaking of angle, you’re talking about- E-

Nicholas Gaudern: exactly … this angle back here at the- You can see that angle there. Okay.

Allen Hall: Yeah,

Nicholas Gaudern: yeah. Because you don’t want to put a serration on a turbine and add 20% to the lift of the blade. Right. No. Because-

Allen Hall: That’s not- …

Nicholas Gaudern: lift means loads. Yeah.

Allen Hall: You know? Right. You’re adding load.

Nicholas Gaudern: So you have to be very careful about how you design these products to make sure that you’re not gonna add extra load to the turbine. And, and on the flip side, you also don’t wanna reduce lift significantly, which then [00:19:00] there’ll be less power produced. So it’s a bit of a balancing act, and this is where the computation comes in.

We do a lot of CFD on these to make sure that we’re, we’re handling the loads correctly.

Allen Hall: And how important is the material choice- Yeah … in terms of the noise quieting? Is there a little bit to it about, well, one, durability. Yeah. You, you want to put them on once and leave them forever, so there’s a lot of interactions between the air and these parts that are gonna flex and bend, and you got- I think there’s, you know-

20 years of

Nicholas Gaudern: doing

Allen Hall: that …

Nicholas Gaudern: the, you’ve, you’ve s- you’ve hit the, hit the nail on the head there. The durability is critical. Yeah. It doesn’t matter if you put these products on the blade, and they perform beautifully for six months and then fall off or, or snap or whatever.

Allen Hall: Right.

Nicholas Gaudern: So no, we, we make these products out of the same material as our VGs, and this is a material, uh, it’s an ASA, uh, plastic.

And we’ve had these out in the, in the field for a long time now, so we know- It’s- … this, this is great.

Allen Hall: It’s ex- it’s kind of a flexible material.

Nicholas Gaudern: Yeah, there’s

Allen Hall: a little b- It’s stiff but flexible.

Nicholas Gaudern: Yeah, exactly. There’s a bit of give in there- Yeah … uh, which is important, but it’s very impact-resistant. Uh, it doesn’t really suffer much in terms of [00:20:00] UV aging, which is obviously critical- Oh, wow.

Yeah … when you’re, when you’re- Very critical, yes … out in the field. Yes. So yeah, we’re, um, we’re really happy with the material choice because we know from all our other campaigns with VGs that they last. It doesn’t matter whether it’s sun, rain, ice, snow. These products can survive out in the field for 20 years.

Allen Hall: That’s one of the things I’ve noticed, uh, looking at a lot o- of blade photos with OEM trailing edge serrations. That the little triangles on the back edges break off.

Nicholas Gaudern: Yeah. And I think- There’s

Allen Hall: a lot of them. I was shocked on

Nicholas Gaudern: some sites. One thing you have to be very careful as well is, is lifting and handling as well.

Oh. So, you know, sometimes if these products are installed in the factory, then how do you safely transport that blade and lift that blade?

Allen Hall: You really can’t.

Nicholas Gaudern: So in some ways it’d be better if you put them on at site, but obviously I, I know that’s not always possible. No. So we’re typically acting, um, as, you know, a retrofit.

Mm-hmm. So in that sense we, we minimize a lot of that risk of the, the transport and handling that the OEMs may have to deal with.

Allen Hall: So [00:21:00] what’s next for Power Curve? What’s h- happening this summer?

Nicholas Gaudern: So we’re gonna be really pushing to get Silent Edge and Dragon Scale out in the field more. Yeah. Um, Dragon Scale is, is really exciting, and we’re gonna get our, our first, uh, turbines in different countries equipped with these products.

And Silent Edge, uh, we’re currently putting some of the finishing touches on the, um, the tooling, the injection molding tooling. So the part we have in front of us, this is actually one that we had in the wind tunnel. So this one here is a 3D print. A very nice 3D print. Oh, yeah, it’s- Uh, it’s had vapor smoothing on it, so the surface- It is really smooth

is, is super nice. And you can put these out in the field. So the, the trial with Statkraft was actually with 3D-printed components. If you wanna do a trial for a few months, it’s very possible to do it with 3D prints. Oh. And I, I think they’d actually last way, way longer than that, but, you know, the test was designed to put them on, measure them, take them off again.

Yeah. And that’s what we did.

Allen Hall: Offshore.

Nicholas Gaudern: Mm.

Allen Hall: Uh, uh, w- we’ve had some people write into the podcast talking about offshore wind turbines. And in the States, offshore wind turbines are [00:22:00] usually 10, 15, 20 miles from the shore, but that’s not always the case. Over in Japan and some other areas, the turbines are pretty close to shore.

Nicholas Gaudern: Yeah, def- They’re

Allen Hall: almost-

Nicholas Gaudern: They’re definitely near-shore …

Allen Hall: they’re almost- Yeah. Yeah, yeah … onshore turbines, but because they’re offshore, they get really big, right? So y- you can build a really big offshore turbine. And some of the comments we have received is, “Hey, these turbines are noisy.”

Nicholas Gaudern: Yeah. And, you know, the, the water surface can do some weird things-

Allen Hall: Well, that’s what I wanted to know

acoustically. Okay. Yeah. That’s what I wanted to know- Yeah. Yeah … because if you have trees and hills that kind of block the noise- Yeah … that’s easy. But if you have a turbine and you live on the, essentially the beach- Yep … or real close to the shore- Yeah … that turbine is right there. In some cases in Japan, it’s not very far.

Yeah. You can see it.

Nicholas Gaudern: Particularly on a still day, you know, when you have a very flat water surface, that can mean that sound is able to propagate a little bit further than maybe it otherwise would.

Allen Hall: So is there a, a real need then to pay attention to the acoustics and noise- Yeah … coming off of offshore wind turbines?

Nicholas Gaudern: [00:23:00] I think, uh, c- certainly the near-shore, the things you’re describing now. Yeah. Offshore’s an interesting question because I think often, if I think about the UK and, and Denmark, they are quite offshore, and I think in that, in that sense, the noise is much less of a, a concern. And I think it may be more driven by regulatory r- requirements- Mm-hmm

than actual, you know, neighbor complaints perhaps. So noise is interesting because people put serrations on for different reasons. Yeah. Some put them on because there’s a regulation. Yeah. Uh, some put them on because they want to be shown to being a good neighbor, you know, doing the best they can to reduce noise- We should

Allen Hall: try to-

Nicholas Gaudern: which we should absolutely be doing …

Allen Hall: do that every time we can.

Nicholas Gaudern: And some are doing it because they have curtailment on their turbines.

Allen Hall: Yes.

Nicholas Gaudern: So in order to meet a regulation perhaps, they have to basically turn down the turbine, and it means that it spins slower. And if it spins slower, the noise is lower, sure.

But the power output is also lower. And what we found is that on some turbines that are in noise modes, they’re losing 3, 4, 5% AEP- Ooh. Ouch … [00:24:00]every year because they’re having to turn down the turbine to meet a regulation or to, to satisfy, you know, uh, neighbor relationships. But just imagine what that means for finances if you put a serration on.

You can turn the turbine up again, which you’re now addressing the noise at the source, so you don’t actually have to stop it spinning slower. You’re actually killing the noise where it’s being generated.

Allen Hall: So there’s a big financial incentive- Yes … to look at trailing edge and try to quiet them as much as you can, particularly onshore.

I think that case has- Yeah … been well made over time. I’m always shocked that a lot of operators that, uh, even in the US Midwest, and we s- we drive around quite a bit in the Midwest, there’s a lot of turbines that are near homes.

Nicholas Gaudern: Yeah,

Allen Hall: absolutely. Y- you know, there’s one or two or three homes. This isn’t like there’s a suburb right there, but there are homes out there, and, and they would like to have enjoyment of their property.

Yeah, of course. And if you can knock down the noise a little bit, it would make it

Nicholas Gaudern: a much more pleasant place. Well, if you take, you know, if you take 30-plus percent off the perceived loudness, that’s, you know-

Allen Hall: Oh, that’s very noticeable … that’s gonna, that’s gonna make a difference. Yeah, you’ll get a thank you letter- Yeah

for [00:25:00] sure. So that’s exciting. The- Yeah … all this is exciting. It- It’s

Nicholas Gaudern: gonna be, it’s gonna be a really great summer, I think, to get more of these components out in the field.

Allen Hall: So if, uh, an operator or an asset manager wants to get ahold of Power Curve, understand what Silent Edge is, and how to get it installed or put some dragon scales on this season, how do they do that?

Nicholas Gaudern: So you can check out our website, uh, powercurve.dk. That has all of our contact details on. Uh, you can find me on LinkedIn, uh, as well. I’m often around these, uh- … events that we find- Yeah … uh, in different countries. So no, look, look us up, reach out by email, phone, whatever, and we’d be very happy to talk to you.

Allen Hall: Or reach out to the India office.

Nicholas Gaudern: Yes, that’s something that we’re hoping to have up and running, uh- So

Allen Hall: if you’re

Nicholas Gaudern: in India- …

Allen Hall: later this year. Yeah. Reach out. Yeah, that, that’s gonna be an exciting advancement. Yeah. Great. For

Nicholas Gaudern: sure.

Allen Hall: Nicholas, it’s great to have you on the podcast again.

Nicholas Gaudern: Nice talking to you, [00:26:00] Allen.

PowerCurve Recovers India AEP, Silent Edge Cuts Noise

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