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Cellulosic Ethanol for Indonesian Farmers

Posted on by dishanth
Cellulosic Ethanol for Indonesian Farmers

Cellulosic Ethanol vs Bio-diesel

Like many other countries worldwide, Indonesia has ambitious goals for reducing reliance on fossil fuels. With a population just shy of 300 million people, the results of reducing petroleum consumption would be substantial.

Leaders within the country have expressed interest and intent to reduce reliance on fossil fuels; last year, the country’s president Joko Widodo announced that they are dedicating 700,000 hectares of land to cultivating renewable-based sugar ethanol.

However, small farmers have not seen the benefit of this transition toward bio-diesel production. Large palm oil firms dominate the industry, leaving small farmers without much hope in a transition that will benefit them as much as the environment.

According to Tenny Kristiana of the International Council on Clean Transportation, cellulosic ethanol could be the key ingredient to facilitate a boon in the lives of small farmers and Indonesia as a whole in the long run.

What could be done?

Cellulosic bio-ethanol is a bio-fuel that could be incredibly useful for Indonesian farmers due to its nature in the supply chain. The ethanol is created using traditionally considered waste products, like palm husks, trunks, and empty fruit bunches. These leftovers are either left to rot in the fields or sold overseas to countries like Japan, using the byproducts to fuel their own bio-ethanol industry.

Small farmers would benefit from selling these raw materials to bio-ethanol companies in Indonesia under long-term contracts guaranteeing the benefits for a long time. Expanding this domestic industry would also create jobs in transportation, manufacturing, and plantation work.

Indonesia specifically has large potential in developing its cellulosic ethanol industry, with estimates ranging up to 2 million kiloliters from palm residues alone. This could be the major push that Indonesia needs to support its domestic supply chain and create long-term stability in the job market that they need.

Read also about myECO, An Electric Saving Startup Based in Indonesia.

Being Done Elsewhere Too

This push towards sustainable development in cellulosic ethanol production is not without precedent. Brazil has one of the most successful bio-ethanol programs in the world, making up 50% of all fuel consumption in the gasoline market by April 2008.

This push would also reduce reliance on trade with foreign countries, as the fuel supply would be provided domestically, leaving Indonesia less vulnerable to changes outside its borders.

As the industry expands, they could also expand the inputs in ethanol production. Sugar cane bagasse, corn stalks, rice stems, and others could be used to create bioethanol.

While the long-term goal for many countries is to decarbonize and get off of ICEs entirely, in other countries, the costs outweigh the benefits. In the short to medium term, domestic bioethanol production could be necessary to help small farmers and the Indonesian society at large to buy into the green transition.

 

 

 

 

Source   Happy Eco News

Developing Alternatives to Plastic Payment Cards

Posted on by dishanth
Developing Alternatives to Plastic Payment Cards

Over six billion plastic payment cards are produced and shipped worldwide every year. These cards are quickly replacing cash payments because they are a more convenient and secure way of paying. These cards typically comprise several layers of PVC plastic, one of the most common forms of plastic. Each card will contain approximately 5 grams of plastic, weighing 15 000 tonnes. These cards are replaced on average every 3-4 years, and most are discarded into landfill.

Since 2018,Master card has been working to develop more sustainable card options for their cards and other card issuers. Some of these options include:

  • Recycled PVC plastic uses post-industrial waste to make the card. PVC recycling reduces the need for more oil extraction, which supports the creation of new PVC.
  • Polylactic Acid is a bio-sourced plastic produced from either corn or sugar starch. The cards can be industrially composted if they are collected and processed in the correct conditions.
  • Polyethylene Terraphlate contains no chlorine or styrene and is more widely recycled. PETG can be a step towards introducing full circularity.
  • Ocean-sourced cards are made from post-consumer plastic waste found in the ocean or from coastal areas.

Additionally, Mastercard has introduced its Sustainable Card Badge, part of its certification program to encourage the use of more sustainable materials in card manufacturing. The Badge is a card mark made available to qualified card manufacturers and issuers who reduce first-use PVC in plastic payment cards. Issuers will have access to an approved list of vendors and alternative sustainable materials found in the Mastercard Sustainable Materials Directory. This is the world’s first directory of sustainable card materials and information on where to source them. More than 60 financial institutions in more than a dozen countries worldwide have issued Mastercard cards made from approved recycled, recyclable and bio-sourced materials.

Mastercard is also exploring the end-of-life for payment card options, as most materials used in these cards cannot be composted or recycled efficiently. The contaminants, such as the chips and magnetic tape, still need to be addressed as they cannot be composted, separated, or removed in the recycling processes. The emergence of new chemical recycling techniques alongside the traditional mechanical processes makes this an emerging option for cards which will likely see further improvement over the coming years. Mastercard is invested in research regarding the chemical recycling of plastics to find ways they can contribute to a more circular economy.

Mastercard’s efforts will significantly reduce the need for plastic, especially as these cards continue to be manufactured each year. Although these cards are small, the impact can be huge, and it is important to reduce plastic use wherever we can.

 

 

 

 

Source Happy Eco News