Quotes & Sayings


We, and creation itself, actualize the possibilities of the God who sustains the world, towards becoming in the world in a fuller, more deeper way. - R.E. Slater

There is urgency in coming to see the world as a web of interrelated processes of which we are integral parts, so that all of our choices and actions have [consequential effects upon] the world around us. - Process Metaphysician Alfred North Whitehead

Kurt Gödel's Incompleteness Theorem says (i) all closed systems are unprovable within themselves and, that (ii) all open systems are rightly understood as incomplete. - R.E. Slater

The most true thing about you is what God has said to you in Christ, "You are My Beloved." - Tripp Fuller

The God among us is the God who refuses to be God without us, so great is God's Love. - Tripp Fuller

According to some Christian outlooks we were made for another world. Perhaps, rather, we were made for this world to recreate, reclaim, redeem, and renew unto God's future aspiration by the power of His Spirit. - R.E. Slater

Our eschatological ethos is to love. To stand with those who are oppressed. To stand against those who are oppressing. It is that simple. Love is our only calling and Christian Hope. - R.E. Slater

Secularization theory has been massively falsified. We don't live in an age of secularity. We live in an age of explosive, pervasive religiosity... an age of religious pluralism. - Peter L. Berger

Exploring the edge of life and faith in a post-everything world. - Todd Littleton

I don't need another reason to believe, your love is all around for me to see. – Anon

Thou art our need; and in giving us more of thyself thou givest us all. - Khalil Gibran, Prayer XXIII

Be careful what you pretend to be. You become what you pretend to be. - Kurt Vonnegut

Religious beliefs, far from being primary, are often shaped and adjusted by our social goals. - Jim Forest

We become who we are by what we believe and can justify. - R.E. Slater

People, even more than things, need to be restored, renewed, revived, reclaimed, and redeemed; never throw out anyone. – Anon

Certainly, God's love has made fools of us all. - R.E. Slater

An apocalyptic Christian faith doesn't wait for Jesus to come, but for Jesus to become in our midst. - R.E. Slater

Christian belief in God begins with the cross and resurrection of Jesus, not with rational apologetics. - Eberhard Jüngel, Jürgen Moltmann

Our knowledge of God is through the 'I-Thou' encounter, not in finding God at the end of a syllogism or argument. There is a grave danger in any Christian treatment of God as an object. The God of Jesus Christ and Scripture is irreducibly subject and never made as an object, a force, a power, or a principle that can be manipulated. - Emil Brunner

“Ehyeh Asher Ehyeh” means "I will be that who I have yet to become." - God (Ex 3.14) or, conversely, “I AM who I AM Becoming.”

Our job is to love others without stopping to inquire whether or not they are worthy. - Thomas Merton

The church is God's world-changing social experiment of bringing unlikes and differents to the Eucharist/Communion table to share life with one another as a new kind of family. When this happens, we show to the world what love, justice, peace, reconciliation, and life together is designed by God to be. The church is God's show-and-tell for the world to see how God wants us to live as a blended, global, polypluralistic family united with one will, by one Lord, and baptized by one Spirit. – Anon

The cross that is planted at the heart of the history of the world cannot be uprooted. - Jacques Ellul

The Unity in whose loving presence the universe unfolds is inside each person as a call to welcome the stranger, protect animals and the earth, respect the dignity of each person, think new thoughts, and help bring about ecological civilizations. - John Cobb & Farhan A. Shah

If you board the wrong train it is of no use running along the corridors of the train in the other direction. - Dietrich Bonhoeffer

God's justice is restorative rather than punitive; His discipline is merciful rather than punishing; His power is made perfect in weakness; and His grace is sufficient for all. – Anon

Our little [biblical] systems have their day; they have their day and cease to be. They are but broken lights of Thee, and Thou, O God art more than they. - Alfred Lord Tennyson

We can’t control God; God is uncontrollable. God can’t control us; God’s love is uncontrolling! - Thomas Jay Oord

Life in perspective but always in process... as we are relational beings in process to one another, so life events are in process in relation to each event... as God is to Self, is to world, is to us... like Father, like sons and daughters, like events... life in process yet always in perspective. - R.E. Slater

To promote societal transition to sustainable ways of living and a global society founded on a shared ethical framework which includes respect and care for the community of life, ecological integrity, universal human rights, respect for diversity, economic justice, democracy, and a culture of peace. - The Earth Charter Mission Statement

Christian humanism is the belief that human freedom, individual conscience, and unencumbered rational inquiry are compatible with the practice of Christianity or even intrinsic in its doctrine. It represents a philosophical union of Christian faith and classical humanist principles. - Scott Postma

It is never wise to have a self-appointed religious institution determine a nation's moral code. The opportunities for moral compromise and failure are high; the moral codes and creeds assuredly racist, discriminatory, or subjectively and religiously defined; and the pronouncement of inhumanitarian political objectives quite predictable. - R.E. Slater

God's love must both center and define the Christian faith and all religious or human faiths seeking human and ecological balance in worlds of subtraction, harm, tragedy, and evil. - R.E. Slater

In Whitehead’s process ontology, we can think of the experiential ground of reality as an eternal pulse whereby what is objectively public in one moment becomes subjectively prehended in the next, and whereby the subject that emerges from its feelings then perishes into public expression as an object (or “superject”) aiming for novelty. There is a rhythm of Being between object and subject, not an ontological division. This rhythm powers the creative growth of the universe from one occasion of experience to the next. This is the Whiteheadian mantra: “The many become one and are increased by one.” - Matthew Segall

Without Love there is no Truth. And True Truth is always Loving. There is no dichotomy between these terms but only seamless integration. This is the premier centering focus of a Processual Theology of Love. - R.E. Slater

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Note: Generally I do not respond to commentary. I may read the comments but wish to reserve my time to write (or write from the comments I read). Instead, I'd like to see our community help one another and in the helping encourage and exhort each of us towards Christian love in Christ Jesus our Lord and Savior. - re slater

Wednesday, August 10, 2022

Sustainable Energy Using Hydrogen


Blending public and private capital can make hydrogen projects bankable
and commercially viable. | Superestrella, Shutterstock


Green Hydrogen:
A key investment for the energy transition

June 23, 2022


Produced by using renewably generated electricity that splits water molecules into hydrogen and oxygen, green hydrogen holds significant promise to help meet global energy demand while contributing to climate action goals.

green hydrogen


The demand for hydrogen reached an estimated 87 million metric tons (MT) in 2020, and is expected to grow to 500–680 million MT by 2050. From 2020 to 2021, the hydrogen production market was valued at $130 billion and is estimated to grow up to 9.2% per year through 2030. But there’s a catch: over 95% of current hydrogen production is fossil-fuel based, very little of it is “green”. Today, 6% of global natural gas and 2% of global coal go into hydrogen production.

Nevertheless, green hydrogen production technologies are seeing a renewed wave of interest. This is because the possible uses for hydrogen are expanding across multiple sectors including power generation, manufacturing processes in industries such as steelmaking and cement production, fuel cells for electric vehicles, heavy transport such as shipping, green ammonia production for fertilizers, cleaning products, refrigeration, and electricity grid stabilization.

BloombergNEF


Moreover, falling renewable energy prices—coupled with the dwindling cost of electrolyzers and increased efficiency due to technology improvements—have increased the commercial viability of green hydrogen production. The figure below shows the forecast of the global range of levelized cost of hydrogen production for large projects through 2050.

BloombergNEF


According to Bloomberg New Energy Finance, if these costs continue to fall, green hydrogen could be produced for $0.70 – $1.60 per kg in most parts of the world by 2050, a price competitive with natural gas. NEL, the world’s largest producer and manufacturer of electrolyzers, believes that green hydrogen production cost parity (or even superiority) with fossil fuels could be achieved as early as 2025.

How do we structure a bankable green hydrogen project?

Given this significant growth in demand, the scale of input energy required (22,000 TWh of green electricity to produce 500 million tons of green hydrogen per year), and the parallels of the hydrogen value chain to that of the fossil fuel value chain (with upstream, midstream, and downstream elements), the green hydrogen industry should attract investments.

Yet, to date, only a few green hydrogen projects have been successfully brought to market. According to PricewaterhouseCoopers (PWC), most green hydrogen projects under construction and in operation are at the pre-commercial phase with limited electrolyzer capacity—typically less than 50 MW. While some proposed plants are of 100 MW capacity or more, they remain small compared to fossil fuel alternatives. In addition, green hydrogen projects present other peculiarities and risks that challenge traditional project finance: nescience of the technology; segmentation of energy input; production and transformation; storage; and transportation to end-users.


One way to position these projects for success is to locate renewable energy production and hydrogen production facilities together so they can be better integrated. This was the approach in Puertollano, Spain, home to both a 100 MW solar farm and Europe’s largest green hydrogen facility for industrial use.

Governments also need to create policy and regulatory frameworks that incentivize investments. Building capacity and providing technical assistance for governments, especially in emerging markets and developing economies, is key to developing these regulations and ensuring their enforcement and compliance. Further, there is need for a globally agreed definition of green hydrogen and methods to guarantee and certify the origin of the fuel. Also critical, especially in light of the Just Transition agenda, is the need to help workers develop the skills they need for this emerging industry.

How is the World Bank Group helping?

The World Bank Group is working with developing countries to accelerate green hydrogen projects from pilot stage to industrial scale.  To achieve this, we provide technical assistance to foster enabling policy, regulatory, and fiscal frameworks; build innovative financing that catalyzes concessional and climate finance resources; integrate risk mitigation and credit enhancement instruments to mobilize private capital; and transfer knowledge to develop local green jobs to support a just transition.

One example of our work is the World’s Bank program in the Latin America and Caribbean region, which has the cleanest energy mix globally and abundant, low-cost renewable energy potential. In countries such as Chile, Colombia, Costa Rica, Panama, and Brazil, the World Bank Group is taking multiple actions to establish green hydrogen as a fuel and to promote the use of green hydrogen as energy storage.  Specifically, we are working to design green hydrogen financing facilities, develop mechanisms to certify green hydrogen along the value chain, and establish carbon pricing through the Partnership for Market Readiness. Our program in the region is fully aligned with the countries’ visions to leverage green hydrogen as means to decarbonize their economies and facilitate a just energy transition. Ultimately, making these changes would increase competitiveness, open new markets, create local green jobs, and attract even more private sector investment—contributing to green, resilient, and inclusive growth.

Moving forward

The few pioneering projects that have reached successful commercial and financial close and have transitioned to operation have tested the financing parameters and established bankable project structures and documentation packages that can be referenced by commercial-scale projects under preparation across the globe. The GIF is uniquely positioned to provide technical assistance and transaction advisory services to support governments in EMDEs as they look to develop green hydrogen projects as part of their energy transition objectives.


Related Posts


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At MITEI’s 2022 Spring Symposium, the “Options for producing low-carbon hydrogen at scale” panel laid out existing and planned efforts to produce hydrogen at scale to help achieve a decarbonized energy system. | Credits:Photo: Kelley Travers

Making hydrogen power a reality

by Calvin Hennick | MIT Energy Initiative
June 27, 2022

Hydrogen fuel has long been seen as a potentially key component of a carbon-neutral future. At the 2022 MIT Energy Initiative Spring Symposium, industry experts describe efforts to produce it at scale.

For decades, government and industry have looked to hydrogen as a potentially game-changing tool in the quest for clean energy. As far back as the early days of the Clinton administration, energy sector observers and public policy experts have extolled the virtues of hydrogen — to the point that some people have joked that hydrogen is the energy of the future, “and always will be.”

Even as wind and solar power have become commonplace in recent years, hydrogen has been held back by high costs and other challenges. But the fuel may finally be poised to have its moment. At the MIT Energy Initiative Spring Symposium — entitled “Hydrogen’s role in a decarbonized energy system” — experts discussed hydrogen production routes, hydrogen consumption markets, the path to a robust hydrogen infrastructure, and policy changes needed to achieve a “hydrogen future.”

During one panel, “Options for producing low-carbon hydrogen at scale,” four experts laid out existing and planned efforts to leverage hydrogen for decarbonization.

“The race is on”

Huyen N. Dinh, a senior scientist and group manager at the National Renewable Energy Laboratory (NREL), is the director of HydroGEN, a consortium of several U.S. Department of Energy (DOE) national laboratories that accelerates research and development of innovative and advanced water splitting materials and technologies for clean, sustainable, and low-cost hydrogen production.

For the past 14 years, Dinh has worked on fuel cells and hydrogen production for NREL. “We think that the 2020s is the decade of hydrogen,” she said. Dinh believes that the energy carrier is poised to come into its own over the next few years, pointing to several domestic and international activities surrounding the fuel and citing a Hydrogen Council report that projected the future impacts of hydrogen — including 30 million jobs and $2.5 trillion in global revenue by 2050.

“Now is the time for hydrogen, and the global race is on,” she said.

Dinh also explained the parameters of the Hydrogen Shot — the first of the DOE’s “Energy Earthshots” aimed at accelerating breakthroughs for affordable and reliable clean energy solutions. Hydrogen fuel currently costs around $5 per kilogram to produce, and the Hydrogen Shot’s stated goal is to bring that down by 80 percent to $1 per kilogram within a decade.

The Hydrogen Shot will be facilitated by $9.5 billion in funding for at least four clean hydrogen hubs located in different parts of the United States, as well as extensive research and development, manufacturing, and recycling from last year’s bipartisan infrastructure law. Still, Dinh noted that it took more than 40 years for solar and wind power to become cost competitive, and now industry, government, national lab, and academic leaders are hoping to achieve similar reductions in hydrogen fuel costs over a much shorter time frame. In the near term, she said, stakeholders will need to improve the efficiency, durability, and affordability of hydrogen production through electrolysis (using electricity to split water) using today’s renewable and nuclear power sources. Over the long term, the focus may shift to splitting water more directly through heat or solar energy, she said.

“The time frame is short, the competition is intense, and a coordinated effort is critical for domestic competitiveness,” Dinh said.

Hydrogen across continents

Wambui Mutoru, principal engineer for international commercial development, exploration, and production international at the Norwegian global energy company Equinor, said that hydrogen is an important component in the company’s ambitions to be carbon-neutral by 2050. The company, in collaboration with partners, has several hydrogen projects in the works, and Mutoru laid out the company’s Hydrogen to Humber project in Northern England. Currently, the Humber region emits more carbon dioxide than any other industrial cluster in the United Kingdom — 50 percent more, in fact, than the next-largest carbon emitter.

“The ambition here is for us to deploy the world’s first at-scale hydrogen value chain to decarbonize the Humber industrial cluster,” Mutoru said.

The project consists of three components: a clean hydrogen production facility, an onshore hydrogen and carbon dioxide transmission network, and offshore carbon dioxide transportation and storage operations. Mutoru highlighted the importance of carbon capture and storage in hydrogen production. Equinor, she said, has captured and sequestered carbon offshore for more than 25 years, storing more than 25 million tons of carbon dioxide during that time.

Mutoru also touched on Equinor’s efforts to build a decarbonized energy hub in the Appalachian region of the United States, covering territory in Ohio, West Virginia, and Pennsylvania. By 2040, she said, the company's ambition is to produce about 1.5 million tons of clean hydrogen per year in the region — roughly equivalent to 6.8 gigawatts of electricity — while also storing 30 million tons of carbon dioxide.

Mutoru acknowledged that the biggest challenge facing potential hydrogen producers is the current lack of viable business models. “Resolving that challenge requires cross-industry collaboration, and supportive policy frameworks so that the market for hydrogen can be built and sustained over the long term,” she said.

Confronting barriers

Gretchen Baier, executive external strategy and communications leader for Dow, noted that the company already produces hydrogen in multiple ways. For one, Dow operates the world’s largest ethane cracker, in Texas. An ethane cracker heats ethane to break apart molecular bonds to form ethylene, with hydrogen one of the byproducts of the process. Also, Baier showed a slide of the 1891 patent for the electrolysis of brine water, which also produces hydrogen. The company still engages in this practice, but Dow does not have an effective way of utilizing the resulting hydrogen for their own fuel.

“Just take a moment to think about that,” Baier said. “We’ve been talking about hydrogen production and the cost of it, and this is basically free hydrogen. And it’s still too much of a barrier to somewhat recycle that and use it for ourselves. The environment is clearly changing, and we do have plans for that, but I think that kind of sets some of the challenges that face industry here.”

However, Baier said, hydrogen is expected to play a significant role in Dow’s future as the company attempts to decarbonize by 2050. The company, she said, plans to optimize hydrogen allocation and production, retrofit turbines for hydrogen fueling, and purchase clean hydrogen. By 2040, Dow expects more than 60 percent of its sites to be hydrogen-ready.

Baier noted that hydrogen fuel is not a “panacea,” but rather one among many potential contributors as industry attempts to reduce or eliminate carbon emissions in the coming decades. “Hydrogen has an important role, but it’s not the only answer,” she said.

“This is real”

Colleen Wright is vice president of corporate strategy for Constellation, which recently separated from Exelon Corporation. (Exelon now owns the former company’s regulated utilities, such as Commonwealth Edison and Baltimore Gas and Electric, while Constellation owns the competitive generation and supply portions of the business.) Wright stressed the advantages of nuclear power in hydrogen production, which she said include superior economics, low barriers to implementation, and scalability.

“A quarter of emissions in the world are currently from hard-to-decarbonize sectors — the industrial sector, steel making, heavy-duty transportation, aviation,” she said. “These are really challenging decarbonization sectors, and as we continue to expand and electrify, we’re going to need more supply. We’re also going to need to produce clean hydrogen using emissions-free power.”

“The scale of nuclear power plants is uniquely suited to be able to scale hydrogen production,” Wright added. She mentioned Constellation’s Nine Mile Point site in the State of New York, which received a DOE grant for a pilot program that will see a proton exchange membrane electrolyzer installed at the site.

“We’re very excited to see hydrogen go from a [research and development] conversation to a commercial conversation,” she said. “We’ve been calling it a little bit of a ‘middle-school dance.’ Everybody is standing around the circle, waiting to see who’s willing to put something at stake. But this is real. We’re not dancing around the edges. There are a lot of people who are big players, who are willing to put skin in the game today.”


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SUSTAINABLE ENERGY [PROJECTS]

The race to make green hydrogen competitive is on. And
Europe is building industrial-scale electrolyzers to help

June 24, 2022

  • Hydrogen has a diverse range of applications and can be deployed in a wide range of industries.
  • Siemens Energy and Air Liquide have announced plans to focus on the production of “industrial scale renewable hydrogen electrolyzers in Europe.”
  • A growing number of multinational firms are attempting to lay down a marker in the green hydrogen sector.


Siemens Energy and Air Liquide have announced plans to set up a joint venture focused on the production of “industrial scale renewable hydrogen electrolyzers in Europe.”

The move, announced on Thursday, represents the latest attempt to find a way to drive “renewable” or “green” hydrogen production costs down and make the sector competitive.

The establishment of the joint venture — Siemens Energy will have a 74.9% stake, while Air Liquide will hold 25.1% — is subject to approval from authorities.

If all goes to plan, its headquarters will be in Berlin, with a facility producing electrolysis modules, or stacks, also based there.

Plans for electrolyzer production in the German capital had been previously announced. Manufacturing is set to begin in 2023, with a yearly production capacity of 3 gigawatts reached in 2025.

The European Union’s executive arm, the European Commission, has previously said it wants 40 GW of renewable hydrogen electrolyzers to be installed in the EU in 2030.

In Feb. 2021, Siemens Energy and Air Liquide announced plans related to the development of “a large scale electrolyzer partnership.”

Siemens Energy shares, year-to-date


Described by the International Energy Agency as a “versatile energy carrier,” hydrogen has a diverse range of applications and can be deployed in a wide range of industries.

It can be produced in a number of ways. One method includes using electrolysis, with an electric current splitting water into oxygen and hydrogen.

If the electricity used in this process comes from a renewable source such as wind or solar then some call it “green” or “renewable” hydrogen. Today, the vast majority of hydrogen generation is based on fossil fuels.

In Oct. 2021, Siemens Energy CEO Christian Bruch spoke of the challenges facing the green hydrogen sector. On Thursday, he stressed the importance of scale and collaboration going forward.

“To make green hydrogen competitive, we need serially produced, low-cost, scalable electrolyzers,” Bruch said in a statement. “We also need strong partnerships,” Bruch added.

Air Liquide CEO François Jackow described the creation of the joint venture as “major step towards the emergence of a leading European renewable and low-carbon hydrogen ecosystem.”

Siemens Energy and Air Liquide’s plan for a joint venture represents the latest attempt by multinational firms to lay down a marker in the green hydrogen sector.

Just last week, oil and gas supermajor BP said it had agreed to take a 40.5% equity stake in the Asian Renewable Energy Hub, a vast project planned for Australia.

In a statement, BP said it would become the operator of the development, adding that it had “the potential to be one of the largest renewables and green hydrogen hubs in the world.”

In Dec. 2021, Iberdrola and H2 Green Steel said they would partner and develop a 2.3 billion euro (around $2.42 billion) project centered around a green hydrogen facility with an electrolysis capacity of 1 gigawatt.


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