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warningsine · 2 months

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https://www.reuters.com/world/africa/nigerias-main-labour-unions-agree-new-minimum-wage-minister-says-2024-07-18/

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Nigeria's unions, government agree new wage deal, averting strike

By Felix Onuah

July 19, 20241:22 AM GMT+3Updated 19 hours ago

A member of the Nigeria Labour Congress dances in front of the domestic airport which has been shut down as Nigeria's main labour unions called for an indefinite strike from Monday after failing to agree to a new minimum wage with the government, in Lagos, Nigeria. June 3, 2024.REUTERS/Seun Sanni/File Photo Purchase Licensing Rights, opens new tab

ABUJA, July 18 (Reuters) - Nigeria's main labour unions agreed on a new minimum wage of 70,000 naira ($44) a month on Thursday after talks with the government, ending months of deadlock and the threat of strikes.

Africa's most populous nation is grappling with the worst cost of living crisis in a generation, stoking fears of Kenyan-style protests that have rocked that country for nearly a month.

Nigeria's two biggest union federations, the Nigerian Labour Congress (NLC) and the Trade Union Congress (TUC), have argued that soaring prices and a weakening currency caused by reforms instituted by President Bola Tinubu were hitting workers hard.

Soaring inflation has eroded incomes and hurt millions of Nigerians who are struggling to meet their basic needs.

The new wage announced by Minister of Information Mohammed Idris and union leaders, is more than double the 30,000 naira a month that was agreed in 2019.

"We are taking this new 70,000 naira minimum wage with mixed feelings because of the situation of the economy. We have to move ahead despite the situation otherwise the negotiation can linger," NLC President Joe Ajaero told reporters.

He said the next minimum wage would be reviewed in three years instead of the customary five years.

The unions suspended a strike in early June to give negotiations a chance but warned that failure to reach an agreement could prompt members to call for new action.

Idris said Tinubu would send the proposal, which includes a provision to review the wage every three years, to parliament immediately for passage into law. Tinubu has said he will not roll back unpopular reforms, including electricity and gasoline price hikes.

On Wednesday, Tinubu asked lawmakers to approve $4 billion in additional spending to plug shortfalls in this year's budget, with around half of it going to fund "further recurrent expenditure requirements."

The government plans to invest in infrastructure and renewable energy, such as compressed natural gas (CNG) plants and busses to help lower transportation costs, Idris said.

($1 = 1,580.0000 naira)

#nigeria #economy #minimum wage #news tag

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asisinternational · 3 months

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Green Initiatives and Sustainability in Chennai's International Schools

As global awareness about environmental sustainability continues to grow, educational institutions worldwide are increasingly adopting green initiatives to reduce their ecological footprint and instill eco-conscious values in students. Chennai, a bustling metropolis in India, is no exception. The city's international schools are pioneering various sustainability practices, setting a benchmark for educational institutions nationwide. This article explores the diverse green initiatives undertaken by these schools and their impact on the environment and student community.

Explore top international schools in Chennai offering world-class education with diverse curricula, modern facilities, and a global perspective. Find the perfect school for your child's future today.

1. Green Campus Design and Infrastructure

Many international schools in Chennai are investing in eco-friendly infrastructure. Green buildings designed with energy-efficient materials, natural lighting, and ventilation systems are becoming common. Schools like the American International School Chennai (AISC) have incorporated LEED-certified buildings, which ensure minimal environmental impact through sustainable construction practices.

2. Renewable Energy Sources

Harnessing renewable energy is a significant step toward sustainability. Several schools have installed solar panels to reduce their dependence on non-renewable energy sources. For instance, the Chennai International School (CIS) has implemented a comprehensive solar power system, meeting a substantial portion of its electricity needs through solar energy. This not only cuts down on energy costs but also educates students about the importance of renewable energy.

3. Waste Management Programs

Effective waste management is crucial for maintaining a clean and sustainable environment. International schools in Chennai are adopting robust waste segregation and recycling programs. Organic waste composting, e-waste recycling, and plastic-free campaigns are integral parts of their sustainability efforts. The British International School, Chennai, has introduced a zero-waste policy, encouraging students to participate in waste reduction and recycling activities actively.

4. Water Conservation Measures

Water conservation is a critical concern, especially in regions prone to water scarcity. Schools are implementing rainwater harvesting systems, greywater recycling, and low-flow water fixtures to conserve water. The German International School Chennai has set up an advanced rainwater harvesting system that supplies water for landscaping and other non-potable uses, significantly reducing the school's water consumption.

5. Eco-friendly Transportation

Promoting eco-friendly transportation options is another area where international schools in Chennai are making strides. Many schools have introduced bus services that run on compressed natural gas (CNG) and encourage carpooling among students and staff. Bicycle-friendly campuses and incentives for using public transport are also becoming more common, reducing the carbon footprint associated with daily commutes.

6. Environmental Education and Awareness

Beyond infrastructural changes, international schools in Chennai are integrating environmental education into their curricula. Students are encouraged to participate in eco-clubs, nature conservation projects, and sustainability workshops. The Canadian International School, Chennai, has a dedicated environmental science program that involves students in hands-on activities like tree planting, organic farming, and wildlife conservation, fostering a deep connection with nature.

7. Green Certifications and Awards

Many international schools in Chennai are seeking green certifications and awards to validate their sustainability efforts. Achievements such as the Green School Award and Eco-Schools certification recognize schools' commitment to environmental sustainability. These accolades not only enhance the school's reputation but also motivate other institutions to adopt similar practices.

Impact on Students and the Community

The green initiatives undertaken by Chennai's international schools have far-reaching impacts beyond the immediate environmental benefits. Students exposed to sustainable practices from a young age develop a strong environmental ethic, becoming responsible global citizens. These initiatives also create a ripple effect in the community, as students often carry the eco-friendly practices learned at school into their homes and neighborhoods.

Conclusion

Chennai's international schools are leading the way in promoting sustainability through innovative green initiatives. By investing in eco-friendly infrastructure, renewable energy, waste management, water conservation, and environmental education, these schools are not only reducing their ecological footprint but also shaping the next generation of environmentally conscious citizens. As more schools join this green revolution, the collective efforts will contribute significantly to a sustainable future for Chennai and beyond.

Explore best international schools in chennai known for their outstanding education, diverse curricula, modern facilities, and nurturing environment, providing a transformative learning experience for students.

#international school in chennai #best international school in chennai #top 10 international schools in chennai

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grunerblog · 3 months

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Are There Any Government Incentives or Subsidies Available for Investing in Bio CNG Gas Plants?

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iiidinncubatore · 8 months

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Embark on the lucrative venture of establishing a Bio CNG Plant Business with the added advantage of Government Certification. Diversify your portfolio into sustainable energy production, contributing to environmental preservation. Secure your investment with official recognition, ensuring compliance with regulatory standards. Join the green revolution, harnessing renewable resources for a profitable and eco-friendly enterprise.

Get more Infomation - https://courses.iid.org.in/course/bio-cng-g

#bio cng business #business guide #startup #entreprenuership

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industrialsolutioniid · 8 months

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How to Start Bio CNG Business with an Industry Overview

The Bio CNG industry revolves around generating renewable natural gas, and its significant impact on waste reduction cannot be understated. Comprising approximately 92-98% methane and only 2-8% carbon dioxide, Bio CNG is primarily derived from agricultural waste, kitchen waste, napier grass, and municipal solid waste. The strategic roadmap outlined in the Bio CNG business plan ensures efficient production, with benefits such as the utilization of renewable biomass resources and a reduced carbon footprint.

The Bio CNG manufacturing process involves multiple stages, including raw material drying, shredding, anaerobic digestion, purification, compression, and the utilization of by-products.

Additional details indicate that Bio CNG production in India is expected to increase from USD 1.47 billion in 2022 to USD 2.25 billion in 2029. Given India's heavy reliance on imports for 79% of its crude oil and about 50% of its natural gas needs, the government is actively promoting the inclusion of gas, particularly through ventures in the bio CNG production sector, in the country's energy portfolio. The goal is to elevate the current gas contribution of 6.5% to 15%.

IID offers crucial support to entrepreneurs in establishing their ventures in the industry, providing both handholding assistance and a comprehensive bio CNG plant project report. Additionally, guidance from industry experts is available to ensure the success of these endeavors.

Presented here is an in-depth Project Report focusing on Bio CNG (Compressed Natural Bio Gas), encompassing its processes, market positioning, demands, investment prospects, and financial projections. The document offers a thorough analysis of the industry, covering aspects such as plant capacity, land and building requirements, raw material specifications with a supplier list, plant and machinery details, flow sheet diagrams, total capital investment, and a meticulous calculation of the rate of return, break-even analysis, and profitability assessment.

In light of global efforts to adopt renewable energy across various sectors, there is a collective push towards green alternatives for conventional fuels. The imperative to reduce carbon footprint is paramount, necessitating innovative solutions before our planet faces severe environmental consequences. Governments worldwide are actively endorsing initiatives such as Electric Vehicles, Nuclear Power Plants, Solar Energy, among others, as part of the broader strategy to transition to sustainable energy sources. Within this context, Bio CNG emerges as a noteworthy green energy option.

https://www.iid.org.in/industrial-solution/mega-industry/bio-cng-business

#bio cng manufacturing plant #bio cng manufacturing process #bio cng production #bio cng busines

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iide-learningplatform · 8 months

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"Exciting developments in the bio-CNG industry are paving the way for a cleaner and more sustainable future. With advancements in technology and increasing demand for renewable energy, the opportunities in bio-CNG are limitless. By 2024, we can expect to see significant growth and investment in this sector, creating jobs and reducing carbon emissions. Let's capitalize on these opportunities and drive towards a greener tomorrow."

#BioCNG #RenewableEnergy #SustainableFuture #2024Opportunities

#biocngcourse #course #waste management #recycling #greenfuture #sustainableenergy

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grunerrenewable · 10 months

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How to Set Up a Bio-CNG Plant

Bio-CNG, or compressed natural gas produced from organic waste, is a renewable and sustainable energy source that can be used to power vehicles, generate electricity, and provide cooking fuel. Setting up a bio-CNG plant can be a complex process, but it is a worthwhile investment for those who are looking to reduce their environmental impact and contribute to a clean energy future.

Benefits of Setting Up a Bio-CNG Plant

There are a number of benefits to setting up a bio-CNG plant, including:

Reduced environmental impact: Bio-CNG is a clean-burning fuel that emits fewer pollutants than fossil fuels. Setting up a bio-CNG plant can help to improve air quality and reduce greenhouse gas emissions.

Increased energy security: Bio-CNG can be produced from locally available resources, such as agricultural waste, food waste, and municipal solid waste. This reduces reliance on imported fossil fuels.

Economic benefits: Bio-CNG plants can create jobs and boost local economies. They also provide farmers and other landowners with an additional source of income.

Sustainability: Bio-CNG is a sustainable fuel that can be produced indefinitely.

Steps Involved in setup a bio cng plant

The following are the steps involved in setting up a bio-CNG plant:

1. Choose a suitable location: The first step is to choose a suitable location for your bio-CNG plant. The location should be close to a source of organic feedstock, such as agricultural waste, food waste, or municipal solid waste. The location should also have adequate space for the plant and associated infrastructure, such as access roads, storage facilities, and utilities.

Bio CNG Plant Location

2. Obtain the necessary permits and licenses: Once you have chosen a location, you will need to obtain the necessary permits and licenses from the local authorities. The specific permits and licenses required will vary depending on your location.

Bio CNG Plant Permit

3. Design and engineer the plant: The next step is to design and engineer the bio-CNG plant. This is a complex process that should be carried out by experienced engineers. The plant must be designed to be safe, efficient, and environmentally friendly.

Bio CNG Plant Design

4. Procure the necessary equipment: Once the plant has been designed and engineered, you will need to procure the necessary equipment. This includes the digester, biogas purification system, compressor, storage tanks, and dispensing units.

Bio CNG Plant Equipment

5. Install the plant: The plant must be installed by experienced professionals. The installation process is complex and must be carried out carefully to ensure the safety and reliability of the plant.

Bio CNG Plant Installation

6. Commission the plant: Once the plant has been installed, it must be commissioned by a qualified engineer. The commissioning process ensures that the plant is operating safely and efficiently.

Bio CNG Plant Commissioning

7. Obtain bio-CNG feedstock: The final step is to obtain a supply of organic feedstock for your bio-CNG plant. This can be done by contracting with suppliers of agricultural waste, food waste, or municipal solid waste.

How Gruner Renewable Can Help You Set Up a Bio-CNG Plant

Gruner Renewable is a leading provider of bio-CNG technology and solutions. We can help you to set up a bio-CNG plant from start to finish. We offer a wide range of services, including:

Site selection and feasibility studies

Process design and engineering

Equipment procurement and supply

Installation and commissioning

Operation and maintenance

We also offer a variety of financing options to help you get your bio-CNG plant project off the ground.

Why Choose Gruner Renewable?

There are a number of reasons to choose Gruner Renewable as your partner in setting up a bio-CNG plant:

Experience and expertise: We have extensive experience in designing, engineering, and installing bio-CNG plants of all sizes.

Commitment to quality: We are committed to providing our customers with the highest quality products and services.

Comprehensive solutions: We offer a comprehensive range of services to meet all of your bio-CNG plant needs.

Competitive prices: We offer our services at competitive prices.

Conclusion

Setting up a bio-CNG plant is a complex process, but it is a worthwhile investment for those who are looking to reduce their environmental impact and contribute to a clean energy future. Gruner Renewable is a leading provider of bio-CNG technology and solutions, and we can help you to set

#bio cng gas plant

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1-2-3-4-4498-0 · 11 months

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The Bio-Economy: Profits and Potential in the Biomass Market

Biomass Market refers to organic matter in the form of plants and biological waste, which are used in the production of energy. Biomass has gained popularity due to its significant role as a key renewable energy. It is helpful in various applications such as photosynthesis, wood & wood processing wastes, agricultural crops, and waste materials, food, yard, and wood waste collection. Increase in use of biomass such as plant and manure materials to produce electricity and generate biomass fuels for transportation is expected to boost the industry growth during the forecast period. The use of renewable energy resources to generate clean energy is further encouraged by the growing energy demand, clean energy initiatives, and the provision of subsidies by governments.

COVID-19 scenario analysis

Over the past few months, the COVID-19 pandemic has caused an unprecedented global economic and social crisis. The pandemic has significantly affected all aspects of life, including the energy sector. A similar trend of falling demand and price reduction can be observed in the electricity sector. Europe has faced a record collapse in electricity prices. Renewable energy projects are decreasing, as China is a major manufacturer of photovoltaic solar modules and turbines. Furthermore, contractors who depend on international workers are affected, as travel restrictions or quarantine measures are imposed and lead to local labor shortages.

Market scenario analysis

The biomass market is expected to witness significant growth during the forecast period. Alarming rise in emission of greenhouse gases is the key factor driving the growth of the global biomass market. This is attributed to the fact that surge in carbon levels in the atmosphere due to burning of fossil fuels is forcing various manufactures to shift toward the use of bio-fuel. In addition, the global biomass market is expected to grow at a faster pace during the forecast period, due to the favorable government policies regarding renewable energy p[production . Moreover, the low cost of energy and active participation of government and major players to spread awareness and promote adoption of biomass power are expected to drive growth of the global market. However, lack of management of biomass and less awareness among emerging economies are expected to hinder the market growth.

Market drivers & restraints

Rise in demand for environment-friendly renewable sources of energy is one of the key drivers for the global biomass market. The use of renewable energy would help to reduce global warming and improve public health. Thus, biomass is largely being used in heavy-duty vehicles, as diesel and CNG are being replaced for achieving a greener means of transport. Increase in focus on research and development in order to enhance the production of renewable energy source by using combustion process has improved environmental benefits with additional support from government are some key factors driving the market growth. However, factors such as rise in feedstock costs and, inadequate biomass management, and lack of knowledge among emerging economies about utilization of biomass for energy production are expected to hamper market development. On the contrary, advancements in power generation technologies are expected to create revenue opportunities for players in the global biomass market.

Regional insights

Region wise, the global biomass market is analyzed across North America, Europe, Asia-Pacific, and LAMEA. North America dominates the biomass market, due to favorable government regulations for renewable energy source with less environmental impact, rise in investments, and availability of suitable infrastructure in the region. The Europe biomass power market is anticipated to account for second highest revenue share in the market, and is projected to witness moderately higher growth rate during the forecast period. Asia-Pacific is estimated to showcase significant growth, owing to the abundant availability of natural resources in the region.

Key benefits of the report

This study presents the analytical depiction of the global biomass industry along with the current trends and future estimations to determine the imminent investment pockets.

The report presents information related to key drivers, restraints, and opportunities along with detailed analysis of the global biomass market share.

The current market is quantitatively analyzed to highlight the global Biomass market growth scenario.

The report provides a detailed market analysis depending on competitive intensity and how the competition will take shape in coming years.

#Biomass #Market

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earaercircular · 11 months

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Artificial intelligence and robots that take advantage of waste

With almost half of the waste accumulated in landfills, Spain faces the crucial challenge of its management and optimization, in which innovation is key.

Spain generated approximately 22 million tons of waste in 2020, according to statistics from the Ministry for the Ecological Transition and the Demographic Challenge (Miteco)[1]. And about half ended up in a landfill[2]; a scenario that poses a significant risk to the environment and sustainability. In addition, there is a European commitment to reduce this amount to 10% of the total generated by 2030.

However, the waste management sector in Spain is already moving forward to contribute to the objectives of the circular economy, hand in hand with companies that are betting on technological and strategic innovation[3]. As stated by Marta Contreras Hernández, director of ESG assurance & circular economy at KPMG, significant investments have been made “that were able to increase the recycling rate both in selective collection systems and in the selection and treatment processes. Without forgetting public-private collaborations.”

To learn more about these innovations, just talk to some of the main players in the sector. Like Jordi Payet, general director of FCC Medio Ambiente[4], who highlights the company's progress in domains such as “the optimization of the use of plastics[5], the use of the energy contained in waste and the development of service vehicles with clean energy; with the commitment to invest 1% of our turnover in R&D, which last year amounted to 4.2 million euros.” Or Javier San Millán, general director of Valoriza (Sacyr)[6], whose main commitment consists of “the generation of pyrolytic oil, a fuel of renewable origin; in addition to the use of recycled waste for the asphalt, such as tires or alpechín, a 100% biological product.”

Another example worth highlighting is PreZero,[7] which in 2018 launched the world's first robot with artificial intelligence (AI) in a plant in Barcelona for the selection of municipal waste, highlights Mónica Ramos, its director of operations and engineering for Spain. . “Both technologies (AI and robotics) have also been applied since then in other fields, such as the selection of used medicines and hospital waste, but also in collection vehicles,” adds Ramos.

The squaring of this circle of excellence is closed by Carlos Albi, general director of corporate development, strategy and sustainability at Urbaser[8], who emphasises different areas of the company's circular economy strategy, “including compost and biostabilised material from wastewater to biogas production. Or the use of cutting-edge technologies in the SENSIoT-Platform solution, a particularly innovative project that uses the Internet of Things to reduce environmental impacts.”

Continental leaders

In Contreras' opinion, thanks to initiatives such as those mentioned above, “the large Spanish operators are not only at the same level as their European counterparts, but are also leading some trends in the sector. Especially with regard to technological advances, but also highlighting the use of information and data to improve the quality of service and optimize waste collection.” [9]

An example of this are some of the PreZero projects in our country, such as the fourth largest biogas treatment plant in Europe, in Valdemingómez (Madrid); the largest biomethane injection project in Spain, or one of the PET plastic treatment facilities with the largest installed capacity on the continent, which manages more than 45,000 tons of this material per year.

In fact, this trend is not only limited to the European level, says Jordi Payet, highlighting that “FCC Medio Ambiente has been a pioneer in the US in the implementation of ecological technologies in waste management. Such as the use of vehicles with CNG engines or optical and AI systems in sorting plants.” [10] A case similar to that of Urbaser, with a presence in 15 countries on four continents, and which just a few weeks ago received the 2023 National Innovation Award thanks, above all, to an average annual investment of more than 10 million euros in R&D.

Now, waste management companies have the opportunity to develop technologies[11] that allow efficiency in recycling, as well as a favourable regulatory framework and market. But they should not lose sight of challenges such as “European regulatory uncertainty, the need to certify and ensure traceability, the drive to reduce operating costs associated with recycling or the objective of minimizing energy valuation,” warns Pilar Daranas, senior sustainability and climate change manager at the consulting firm KPMG.

In this sense, and in accordance with the European Union's commitment to reduce food waste and increase recycling levels, it emphasizes that the responsibility for achieving them "is not exclusive to waste managers, but falls on the entire value chain of the product, hence the need to promote public-private collaboration.” Something in which the financial support of the Next Generation Funds[12] is fundamental, as Payet and Ramos agree.

Although Spanish companies are already taking action on the matter, as is the case of Valoriza's Cents4Pack project[13], which uses AI to recognize whether an individual is recycling correctly. Or the 10,000 tons of aluminum that are recovered each year in PreZero treatment plants in Spain, thanks to solutions based on circular processes for packaging in the food industry.

Source

Jaime Rodriguez Parrondo, Inteligencia artificial y robots que aprovechan los residuos, in: Erl País, 22-10-2023, https://elpais.com/extra/infraestructuras/2023-10-22/inteligencia-artificial-y-robots-que-aprovechan-los-residuos.html

[1] The tasks of the Ministerio para la Transición Ecológica y el Reto Demográfico (Ministry for the Ecological Transition and the Demographic Challenge) are: proposal and execution of the Government's policy on the fight against climate change, pollution prevention, protection of natural heritage, biodiversity, forests, the sea, water and energy for the transition to a productive and more ecological social; development of state legislation on waters and coasts, climate change, protection of biodiversity, environment, forests, meteorology and climatology; direct management of the public hydraulic domain of the inter-community basins, of the maritime-terrestrial public domain; preparation of state legislation on energy, the development of the national energy policy, together with measures aimed at ensuring energy supply; elaboration and development of the Government's strategy and policy against the demographic challenge, as well as the proposal and execution of the policy to combat depopulation. https://www.miteco.gob.es/es/ministerio/funciones-estructura.html

[2] Brussels warns that Spain is on the way to once again failing to meet European objectives for the reuse and recycling of urban waste.https://elpais.com/clima-y-medio-ambiente/2023-06-19/un-pais-adicto-al-vertedero-seis-graficos-para-comprender-el-suspenso-de-espana-en-reciclaje.html

[3] To the classic rule of reduce, reuse and recycle, others are added such as repairing, recovering or re-educating, keys to preventing resources from ending up in landfills. https://elpais.com/extra/medio-ambiente/2023-06-05/las-nuevas-erres-del-reciclaje.html

[4] FCC Medio Ambiente is one of the world's leading environmental services companies that has been operating since 1911. Today, it provides urban sanitation services throughout Spain and other countries in Europe and America, through: FCC Medio Ambiente (Spain) , FCC Ámbito, FCC Environment (UK), FCC Environment (CEE) and FCC Environmental Services (USA). The assets of the Environmental area of the FCC Group are owned by “FCC Servicios Medio Ambiente Holding, S. A.U.”, which in turn belongs entirely to “Fomento de Construcciones y Contratas, S. A.” https://www.fcc.es/presentacion-medio-ambiente

[5]Every year more than 400 million tons of this material are produced in the world. Half is intended for single use, less than 10% is recycled and much of the waste contaminates lakes, rivers and seas. It is urgent that governments, companies and consumers take measures to tackle this major threat to human health and biodiversity. https://elpais.com/extra/medio-ambiente/2023-06-05/que-hacemos-con-tanto-plastico.html

[6] Valoriza Agua is a water treatment company that belongs to the Sacyr Group. The main speciality of Valoriza is desalination and other advanced water treatment technologies. We have more than 1.9 million m3/day of installed or under construction desalination capacity, including a 200.000 m3/day EDR project, which is the world's largest using this technology. Valoriza has built many large size wastewater treatment plants as well, including facilities with tertiary processes and new technologies like MBR systems. We have also provided water solutions for industrial projects, such as ultra-pure water production (RO+EDI) for power plants, chemical dosing, EDR, electro chlorination, ultra/micro filtration and MBR both for process water and effluent treatment. Finally, wastewater reuse is another important activity with technologies including different treatments (UV disinfection, filtration, MF, UF, and desalination). https://energy-utilities.com/valorizasacyr-group-comp292455.html

[7] Read also: https://www.tumblr.com/earaercircular/674889822187536384/much-more-than-just-waste?source=share&ref=_tumblr

[8] Urbaser is a world leader in environmental solutions, a global company, based in Madrid, focused on leveraging the value of the world’s resources to build a more sustainable tomorrow, serving more than 70 million people in 15 countries through a huge network of more than 50,000 employees and 150 plants that work every day to achieve real circularity. https://www.urbaser.com/en/

[9] It happens beyond our sight. Every time we throw garbage into the yellow bin, an effective technological gear is put into motion. 'Big data', sensors and artificial intelligence are some of the systems that are transforming packaging recycling. Getting waste to have a second life requires the good conscience of a citizen and increasingly sophisticated technology. An example: when a container is full, a volume sensor tells the truck fleet that it is time to empty it. Another: those same trucks always travel the best route thanks to the calculation of artificial intelligence. The objective of these technologies is to achieve increasingly sustainable recycling. These are the most notable tools. https://elpais.com/publi-especial/ecoembes-espacio-eco/tecnologias-que-revolucionan-el-reciclaje/

[10] The Peruvian company that transforms company waste with artificial intelligence. In a virtuous circle of circular economy, Sinba has managed to generate millions in profits by recycling and reusing waste from hotels, restaurants and industries.. https://elpais.com/america-futura/2023-10-03/la-compania-peruana-que-transforma-los-residuos-de-las-empresas-con-inteligencia-artificial.html

[11] In the circular economy, almost everything is used. New technologies reinforce their role in the collection, management and processing of waste and materials in the move towards greater sustainability. https://elpais.com/extra/infraestructuras/2023-10-22/inteligencia-artificial-y-robots-que-aprovechan-los-residuos.html

[12] NextGenerationEU is the EU's €800 billion temporary recovery instrument to support the economic recovery from the coronavirus pandemic and build a greener, more digital and more resilient future. The centrepiece of NextGenerationEU is the Recovery and Resilience Facility - an instrument that offers grants and loans to support reforms and investments in the EU Member States for a total of €723.8 billion in current prices. https://commission.europa.eu/strategy-and-policy/eu-budget/eu-borrower-investor-relations/nextgenerationeu_en

[13] The "CENTS4PACK" project has been awarded to Candam Technologies and Valoriza Medioambiente within the framework of the LIFE 2022 European call for the environment "Circular Economy". It consists in the implementation of a "Reward as you throw" system in which the citizens are rewarded for recycling correctly. The project is focused on plastic packaging, bricks, cans and glass. With the project also the local economy is promoted, as it provides a platform for local businesses advertising. The innovation of the project consists in the use of a device designed by Candam, which is capable of distinguishing from the sound made when the waste falls, its typology among the classes mentioned above. In this way you can know if the user recycles correctly, preventing optical recognition systems, which are not simple and fast for daily use and also break down easily when they are located outdoors. https://www.sacyrservicios.com/en/-/proyecto-cents4pack

#circular economy #waste recycling #artificial intelligence company

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nghubs1 · 1 year

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Governor Soludo performs Kojo Motors' Yutong, OMAA vehicles assembly, CNG plant

Anambra State is fast becoming investors destination for different types of interests rushing to the state to capitalise on the pledged ease of doing business to set up businesses. This time around, one of such massive investment is being undertaken by John Ikenna Oguegbu, an indegene of the state and chairman, founder and CEO, Kojo Motors Limited. Barely 24 hours after the Anambra State…

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advancebiofuel · 1 year

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Meeting Energy Demands Bio CNG Plant Manufacturers and Market Trends

In the quest for sustainable and eco-friendly energy sources, the role of bio CNG (Compressed Natural Gas) plants and their manufacturers has gained significant prominence. As the world shifts towards more sustainable energy solutions, bio CNG plants have emerged as a promising technology that not only addresses energy demands but also contributes to reducing environmental impact. In this article, we will explore the crucial role of bio CNG plant manufacturer in meeting energy demands and delve into the prevailing market trends. We will also take a closer look at a prominent player in this field, Advance Biofuel, and how their contributions are shaping the industry.

Bio CNG Plants: A Sustainable Energy Solution

Bio CNG, also known as renewable natural gas, is produced from organic waste materials through a process called anaerobic digestion. This process involves the decomposition of organic matter by microorganisms in the absence of oxygen, resulting in the release of biogas. This biogas is then purified and compressed to create bio CNG, a clean and sustainable alternative to conventional fossil fuels. Bio CNG plants play a pivotal role in this process, as they are responsible for designing, constructing, and operating these facilities.

The Role of Bio CNG Plant Manufacturers

Bio CNG plant manufacturers are at the forefront of the renewable energy revolution. They design and engineer state-of-the-art facilities that convert organic waste, agricultural residues, and other biodegradable materials into valuable bio CNG. These manufacturers combine engineering expertise with environmental consciousness to ensure that the plants operate efficiently, produce high-quality bio CNG, and adhere to environmental regulations.

Manufacturers also play a critical role in the ongoing research and development of bio CNG technology. They continuously strive to improve the efficiency of the anaerobic digestion process, develop innovative purification methods, and enhance the overall lifecycle of the plants. This dedication to innovation enables bio CNG to be a competitive and viable energy solution in today's energy landscape.

Market Trends in Bio CNG Plant Manufacturing

The market for bio CNG plant manufacturing has been experiencing substantial growth in recent years. Governments around the world are recognizing the importance of transitioning to renewable energy sources and are offering incentives and subsidies to promote the adoption of bio CNG technology. This has led to increased investment in bio CNG plants and subsequently boosted the demand for reliable and experienced manufacturers.

Furthermore, industries such as transportation are increasingly turning to bio CNG as a greener alternative to traditional fuels. Bio CNG-powered vehicles have lower emissions of pollutants and greenhouse gases compared to their gasoline or diesel counterparts, making them a preferred choice for environmentally conscious fleets. This trend has led to a surge in demand for bio CNG, further driving the need for efficient plant manufacturers.

Spotlight: Advance Biofuel

One notable player in the bio CNG plant manufacturing industry is Advance Biofuel. With a commitment to sustainability and innovation, Advance Biofuel has established itself as a leading manufacturer in this field. The company specializes in designing and building cutting-edge bio CNG plants that enable the conversion of organic waste into clean energy.

Advance Biofuel's plants are known for their reliability, efficiency, and adherence to stringent environmental standards. The company's team of experts works closely with clients to tailor solutions that cater to specific waste streams and energy requirements. Through continuous research, Advance Biofuel aims to optimize bio CNG production processes, making renewable energy a viable option for a wider range of applications.

Conclusion: the role of bio CNG plant manufacturers is instrumental in meeting the growing energy demands while mitigating the environmental impact. These manufacturers contribute to sustainable energy production by designing and operating advanced facilities that convert organic waste into clean and renewable bio CNG. With a rapidly evolving market and increasing focus on green energy, manufacturers like Advance Biofuel are at the forefront of shaping the future of energy generation. As the world strives for a more sustainable future, the innovations and contributions of bio CNG plant manufacturers will continue to play a crucial role in driving the transition to renewable energy sources.

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electronalytics · 1 year

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Waste Derived Biogas Market Report Includes Business Strategies and Huge Demand by 2032

Waste Derived Biogas Market Overview:

Growing Environmental Concerns: The increasing focus on sustainability and environmental protection has boosted the demand for renewable energy sources such as waste-derived biogas. Biogas production from organic waste helps reduce greenhouse gas emissions and promotes a circular economy.

Government Support and Regulations: Many governments around the world have implemented favorable policies, regulations, and incentives to promote the use of waste-derived biogas. These measures encourage investment in biogas production infrastructure and create a supportive market environment.

Renewable Energy Targets: Many countries have set renewable energy targets, aiming to reduce dependence on fossil fuels and mitigate climate change. Waste-derived biogas plays a crucial role in achieving these targets as a renewable energy source with a low carbon footprint.

Waste Management Issues: The increasing amount of organic waste generated from various sources, including municipal waste, agricultural residues, and industrial waste, has become a significant concern. Biogas production from these waste streams provides an effective waste management solution by converting waste into valuable energy.

The global waste-derived biogas market size was valued at $52.9 billion in 2020, and is projected to reach $126.2 billion by 2030, growing at a CAGR of 8.5% from 2021 to 2030.

Key Factors Driving the Waste Derived Biogas Market:

Technological Advancements: Ongoing research and development efforts have led to technological advancements in biogas production processes, making them more efficient and cost-effective. Advancements include improved anaerobic digestion systems, better waste feedstock preprocessing methods, and enhanced gas purification techniques.

Economic Viability: The increasing cost competitiveness of waste-derived biogas compared to traditional fossil fuels has made it an economically viable option. As technology improves and economies of scale are achieved, the cost of biogas production continues to decline, attracting more investors and driving market growth.

Energy Security: Waste-derived biogas contributes to energy diversification and reduces dependence on fossil fuel imports. This aspect enhances energy security for countries, as biogas can be produced locally from domestic waste sources, ensuring a stable and sustainable energy supply.

Public Awareness and Consumer Demand: Increased awareness among the general public about climate change, pollution, and the benefits of renewable energy has driven consumer demand for sustainable alternatives. This demand has a significant impact on market growth, encouraging further investment and innovation in waste-derived biogas production.

Demand for Waste Derived Biogas:

Power Generation: The demand for waste-derived biogas as a source of electricity generation continues to rise. Biogas power plants can feed into the grid or provide localized power solutions, especially in areas with limited access to conventional electricity sources.

Transportation Fuel: There is a growing demand for biogas as a renewable fuel for transportation, particularly in the form of compressed natural gas (CNG) or biomethane. The use of biogas as a vehicle fuel helps reduce greenhouse gas emissions and improve air quality, driving its demand in the transportation sector.

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Global Waste Derived Biogas Market: By Company • Siemens • Clarke Energy • Sarawak Energy • Cargill Inc. • Biogas Technology Ltd. • Bedminster International • Environmental Products & Technology Corp. • AAT GmbH & Co. • Biotech Energy AG • Bekon Biogas Energy Inc. • Biogen Greenfinch • ADI Systems Inc Global Waste Derived Biogas Market: By Type • Sewage • Industrial Wastewater • Agricultural Waste • Landfill Gas • Other Global Waste Derived Biogas Market: By Application • Municipal Electricity Production • On-site Electricity Production • Transportation Fuel • Other Global Waste Derived Biogas Market: Regional Analysis All the regional segmentation has been studied based on recent and future trends, and the market is forecasted throughout the prediction period. The countries covered in the regional analysis of the Global Waste Derived Biogas market report are U.S., Canada, and Mexico in North America, Germany, France, U.K., Russia, Italy, Spain, Turkey, Netherlands, Switzerland, Belgium, and Rest of Europe in Europe, Singapore, Malaysia, Australia, Thailand, Indonesia, Philippines, China, Japan, India, South Korea, Rest of Asia-Pacific (APAC) in the Asia-Pacific (APAC), Saudi Arabia, U.A.E, South Africa, Egypt, Israel, Rest of Middle East and Africa (MEA) as a part of Middle East and Africa (MEA), and Argentina, Brazil, and Rest of South America as part of South America.

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iidincubator1 · 1 year

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How to start a bio CNG gas business

Introduction:

As the world moves towards sustainable energy sources, the demand for renewable alternatives to fossil fuels is on the rise. One such alternative gaining traction is bio-CNG (Compressed Natural Gas), which is produced from organic waste and offers a cleaner and greener solution for transportation and cooking fuel. If you're interested in venturing into the bio-CNG gas business, this comprehensive guide will provide you with valuable insights on how to get started.

Research and Market Analysis:

The first step in starting any business is conducting thorough research and analysis. Familiarize yourself with the bio-CNG industry, its current market trends, potential competitors, and target customers. Identify the regions or cities where the demand for clean energy is high, and assess the availability of organic waste sources required for bio-CNG production.

Business Plan Development:

A well-crafted business plan serves as a roadmap for your venture. Outline your business objectives, target market, pricing strategy, marketing and sales plans, operational requirements, and financial projections. Seek professional guidance if needed to ensure your business plan is comprehensive and feasible.

Legal and Regulatory Compliance:

Understand the legal and regulatory framework for bio-CNG gas production and distribution in your country or region. Obtain the necessary permits, licenses, and certifications required to operate a bio-CNG plant and comply with environmental and safety regulations.

Procurement of Feedstock:

Bio-CNG is produced from organic waste such as agricultural residue, food waste, sewage, and landfill waste. Establish partnerships or contracts with local waste management companies, farmers, and other potential suppliers to ensure a steady supply of feedstock for your bio-CNG plant.

Setting up a Bio-CNG Plant:

Invest in setting up a bio-CNG plant that meets the required production capacity. The plant should consist of waste collection and segregation units, anaerobic digesters for biogas production, gas purification systems, and compression facilities for producing bio-CNG. Hire experienced engineers and technicians to design, construct, and operate the plant effectively.

Production and Quality Control:

Efficient bio-CNG production requires careful monitoring and quality control. Ensure that the feedstock is properly processed and fed into the anaerobic digesters for biogas generation. Install systems for monitoring gas composition, pressure, and purification levels to produce high-quality bio-CNG that meets the required specifications and safety standards.

Distribution and Supply Chain:

Develop a distribution strategy to reach your target customers. Identify gas stations, vehicle fleets, and cooking gas suppliers that can serve as distribution partners. Set up a supply chain management system to handle logistics, transportation, and storage of bio-CNG. Install necessary equipment at distribution points for safe refuelling and delivery.

Marketing and Branding:

Create a strong brand identity for your bio-CNG gas business. Promote the environmental benefits and cost-effectiveness of bio-CNG as a clean fuel alternative. Utilize various marketing channels, such as online platforms, social media, industry events, and partnerships with sustainability organizations to raise awareness and attract customers.

Collaboration and Partnerships:

Forge strategic alliances and collaborations within the bio-CNG industry. Partner with research institutions, universities, and technology providers to stay updated with the latest advancements and improve your production processes. Explore collaborations with government agencies or organizations promoting renewable energy to access funding opportunities or incentive programs.

Ongoing Operations and Expansion:

Once your bio-CNG gas business is up and running, ensure smooth operations by regularly maintaining and upgrading your plant and equipment. Monitor market trends, customer feedback, and industry developments to adapt your business strategies accordingly. Consider expanding your operations by opening additional production facilities or diversifying into related sectors such as biogas-based power generation or organic fertilizers.

Conclusion:

Starting a bio-CNG gas business presents a lucrative opportunity to contribute to sustainable energy solutions while capitalizing on the increasing demand for renewable fuels. By following this comprehensive guide, conducting thorough research, complying with regulations, investing in quality products, and implementing effective marketing strategies, you can lay a firm foundation for a successful and environmentally conscious bio-CNG gas business. Embrace the future of clean energy and make a positive impact on the planet while building a profitable venture.

#Bio CNG gas #IID Startup #MSME Support

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grunerblog · 3 months

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Are There Any Government Incentives or Subsidies Available for Investing in Bio CNG Gas Plants?

Introduction

As the global shift towards renewable energy accelerates, bio CNG (Compressed Natural Gas) has emerged as a sustainable alternative to fossil fuels. Recognizing its environmental and economic benefits, governments worldwide are offering various incentives and subsidies to encourage the adoption of bio CNG technologies. Gruner Renewable, a leader in the sustainable energy sector, explains the types of government incentives available for investors looking to establish bio CNG gas plant.

Understanding Bio CNG Gas Plants

Bio CNG gas plant utilize organic waste materials such as agricultural residue, municipal solid waste, and sewage to produce biogas, which is then upgraded to bio CNG. This renewable energy source not only helps in reducing greenhouse gas emissions but also promotes waste management and energy security. Given its benefits, bio CNG projects are increasingly receiving governmental support through various incentive schemes.

Types of Government Incentives for Bio CNG Gas Plants

1. Capital Grants and Subsidies

Many countries provide capital grants and subsidies to lower the initial investment costs associated with setting up bio CNG gas plants. These financial incentives are designed to make projects more economically viable and attractive to investors. For instance, the U.S. Department of Agriculture offers programs like the Rural Energy for America Program (REAP) that provide financial assistance to agricultural producers and rural small businesses for renewable energy systems.

2. Tax Credits and Deductions

Tax incentives are common tools used by governments to encourage the development of bio CNG facilities. These may include investment tax credits, which allow plant owners to deduct a percentage of the investment costs from their tax liabilities, and accelerated depreciation, which permits faster write-off of the equipment costs, reducing taxable income.

3. Feed-in Tariffs

Some regions offer feed-in tariffs for bio CNG, where the government guarantees a fixed, premium price for the biogas generated. This not only ensures a stable revenue stream for the operators but also makes financing the plant easier as it lowers the financial risk for investors.

4. Green Certificates and Renewable Energy Credits

In certain jurisdictions, bio CNG gas plant can earn green certificates or renewable energy credits (RECs) for the clean energy they produce. These certificates can be sold on the renewable energy market, providing additional revenue streams to the plant operators.

5. Reduced Tariffs and Custom Duties

To encourage the import of advanced bio CNG technology, some governments reduce tariffs and custom duties on foreign machinery and equipment. This reduction in import costs makes it more affordable for investors to access state-of-the-art technology needed for efficient bio CNG production.

Case Studies: Government Support in Action

Germany’s Renewable Energy Act (EEG)

Germany offers a compelling example of how government incentives can drive the growth of bio CNG production. The EEG provides direct marketing options and feed-in tariffs for biogas, encouraging farmers and entrepreneurs to invest in bio CNG plants by ensuring profitable operational conditions.

India’s National Policy on Biofuels

India’s policy aims to increase the use of biofuels to cut down import dependency on crude oil. It offers several incentives for bio CNG projects, including capital subsidies and a favorable tax regime, to stimulate the domestic production of biofuels.

Conclusion

The range of government incentives and subsidies available for bio CNG gas plants underscores the global commitment to transitioning towards renewable energy sources. For investors and companies like Gruner Renewable, these incentives not only reduce the financial burden but also enhance the overall feasibility and attractiveness of investing in bio CNG technology. As the world continues to embrace cleaner energy solutions, bio CNG stands out as a promising option, supported by robust governmental frameworks designed to foster its growth.

Call to Action

Interested in exploring the opportunities in bio CNG gas plants and taking advantage of government incentives? Contact Gruner Renewable today to learn how we can assist you in developing a sustainable and financially viable bio CNG project. Visit our website for more information on our services and how we can help you capitalize on these lucrative incentives. Read more...

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iiidinncubatore · 9 months

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Revolutionizing Bio-CNG Plants for Sustainable Energy Solutions

In the ever-evolving landscape of sustainable energy, bio-CNG plants have emerged as a revolutionary solution, driving a paradigm shift towards greener and more efficient energy sources. At Institute For industrial Development IID, we stand at the forefront of this transformation, pioneering advancements that redefine the capabilities of Bio-CNG technology.

Harnessing the Power of Organic Waste

Unlocking Potential with Biomethane Production

Bio-CNG, derived from the anaerobic digestion of organic waste, stands as a beacon of sustainable energy. Our innovative approach maximizes the potential of this process, converting organic materials into high-quality biomethane, a potent alternative to traditional fossil fuels.

Optimizing Feedstock Selection

Our commitment to excellence extends to the meticulous selection of feedstock. By employing advanced analytics, we identify optimal organic materials for Bio-CNG production, ensuring both environmental impact reduction and optimal energy output.

Cutting-Edge Technology Integration

State-of-the-Art Digesters

At Institute For industrial Development IID, we invest in cutting-edge digesters that elevate the Bio-CNG production process. Our state-of-the-art digesters enhance efficiency, streamline operations, and significantly reduce carbon footprint.

Environmental Sustainability at Its Core

Carbon Neutral Operations

Our commitment to environmental stewardship goes beyond mere energy production. Institute for Industrial development IID operates on a carbon-neutral model, ensuring that our Bio-CNG plants not only provide clean energy but also contribute to the reduction of greenhouse gas emissions.

Impactful Corporate Social Responsibility

We understand the social responsibility that comes with innovative solutions. By aligning our operations with sustainable practices, we contribute to the global effort in mitigating climate change and fostering a greener future.

Advantages of Choosing the Institute for Industrial development IID

Unrivaled Efficiency and Output

Our Bio-CNG plants boast unparalleled efficiency, translating into higher energy output. By choosing Institute For industrial Development IID, clients secure not only a sustainable energy source but also a competitive edge in operational effectiveness.

Customizable Solutions

Recognizing the diverse energy needs of industries, the Institute for Industrial development IID offers customizable Bio-CNG solutions. Tailored to specific requirements, our systems ensure seamless integration into existing operations while maximizing energy benefits.

Conclusion

In conclusion, the Institute for Industrial development IID spearheads the Bio-CNG revolution, offering a compelling alternative to traditional energy sources. With a commitment to excellence, advanced technology, and environmental sustainability, our Bio-CNG plants pave the way for a cleaner and more energy-efficient future.

Choose the Institute for Industrial development IID for cutting-edge Bio-CNG solutions – leading the charge towards a sustainable energy landscape.

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#Bio-CNG solutions #business guide #Bio-CNG course #startup #Youtube

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