FROM WASTE PLASTICS TO BUILDING BLOCKS

 FROM WASTE PLASTICS TO BUILDING BLOCKS

Turning waste plastics into building materials is not a new idea at all. But once in a while, something old becomes new again—simply because someone finally does it right. That someone, in this case, is Nzambi Matee, a materials engineer from Nairobi, Kenya, who founded Gjenge Makers.

Her small startup has done something that should make the rest of us—especially our local engineers—pause and reflect. She is converting waste plastic into durable, interlocking building blocks that are reportedly five times stronger than concrete, cheaper to produce, and far more environmentally friendly. And this is not theoretical; her workshop now produces thousands of bricks a day.

Now, let me be honest: I have no reason to doubt her claim. But I do have reason to wonder—why not here?

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Two problems, one solution

Every day, we drown in plastic waste—bottles, sachets, wrappers—clogging canals, poisoning rivers, and filling our landfills. At the same time, millions of Filipino families still live in makeshift houses or informal settlements, waiting for an affordable home that never seems to come.

So, here we are, staring at a solution that hits both targets with one shot: waste management and social housing. We have all the ingredients—tons of plastic waste, a desperate need for homes, and thousands of engineering graduates. What we seem to lack is willpower and support systems.

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The Kenyan example

At Gjenge Makers, plastic waste is collected, sorted, washed, shredded, mixed with sand, melted, and then compressed into molds. The result? Bricks that are light, colorful, strong, and water-resistant.

The company employs local youth and women to collect and process the plastics, helping clean up the city while providing jobs. It’s a textbook case of what we now call the circular economy—turning waste into wealth, pollution into livelihood, and trash into shelter.

Imagine this working in our barangays: plastic waste from homes and markets turned into bricks, tiles, or even road pavers. Local people are employed to collect and process plastics. Barangay halls, health centers, and low-cost homes built from what used to be garbage.

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Why not in the Philippines?

We already have the brains, the problem, and the materials. What’s missing is the bridge between innovation and implementation.

Perhaps our government could help build that bridge:

• The Department of Science and Technology (DOST) could take the lead in developing the technology locally.
  
  

• The Department of Environment and Natural Resources (DENR) could provide the regulatory and sustainability framework.
  
  

• The Department of Trade and Industry (DTI) could connect innovators with manufacturers and buyers.
  
  

• The National Housing Authority (NHA) could become a major customer, using these eco-bricks for social housing.
  
  

• The Department of the Interior and Local Government (DILG) could encourage LGUs to establish micro-factories for plastic-to-brick conversion.
  
  

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Financing and incentives

This is where creative public-private partnerships come in. What if every LGU set up its own “Waste-to-Brick” hub, perhaps with help from the Development Bank of the Philippines (DBP) or Land Bank for soft loans?

What if the government offered carbon credits or tax incentives to companies using recycled materials in their construction projects?

And what if state universities and colleges (SUCs) served as innovation hubs—testing and improving these technologies, then turning them over to local entrepreneurs?

The return on investment here is not just financial. It’s social, environmental, and generational.

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Feasibility in our context

Plastic-based bricks are already being tested in several countries. According to the United Nations Environment Programme (UNEP), plastic bricks can cut construction costs by up to 40% and last for decades without structural decay. (UNEP, 2024).

Here in the Philippines, startups like GreenAntz Builders have been doing something similar—mixing shredded plastics into eco-concrete blocks since 2013. But their model still needs scaling up and stronger government backing. If Kenya can industrialize this approach, surely we can too.

The technology is neither complex nor proprietary. What we need is a nationwide program that brings local engineers, scientists, waste collectors, and housing cooperatives into one ecosystem.

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The bigger picture

This is not just about making cheap bricks—it’s about rethinking the life cycle of materials. Each discarded plastic bottle could become part of someone’s home. Each sack of waste could become a livelihood opportunity.

This model could also be expanded to other waste-to-value systems: turning food waste into fertilizer, glass waste into tiles, or rubber waste into playground flooring.

It’s time we stop waiting for foreign startups to solve our problems. We can replicate and even improve on these technologies here—Filipino-style, barangay-based, and sustainability-focused.

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In the end

From waste plastics to building blocks—it’s not just a catchy slogan. It’s a vision of what innovation looks like when guided by compassion and common sense.

If Kenya can do it, why can’t we? The Philippines produces more than 2 million tons of plastic waste each year, according to World Bank 2022. Even if only 10% of that becomes construction material, we could house tens of thousands of families—while cleaning our environment at the same time.

So yes, let’s ask the hard questions:
Why aren’t we doing this already? Who’s waiting for whom? And how much longer must our plastic waste pile up before we finally turn it into homes for our people?

Because sometimes, the solutions to our biggest problems are literally lying at our feet—waiting to be picked up, melted down, and molded into something stronger.

Ramon Ike V. Seneres, www.facebook.com/ike.seneres

iseneres@yahoo.com, senseneres.blogspot.com 09088877282/04-06-2026

NATIVE CHICKENS, ANYONE?

 NATIVE CHICKENS, ANYONE?

When was the last time you heard of a Filipino company—or a scientist—developing a local breed of any animal for purely local needs? I bet it doesn’t come up often. So when I read that Kustods Chicken Breeding Farm in South Cotabato claims to have developed their own “line” of native chickens, I stopped and paid attention. In fact, I believe what they have done isn’t just a “line” but arguably their own breed. And if that’s true, they deserve more than a mere pat on the back—they deserve recognition.

Why this matters

Our so-called “native” chickens in the Philippines are indeed longstanding local stocks—but not truly endemic breeds in the sense of distinct, formally developed genetic lines. As far as records show, none were developed fully by Filipino firms or institutions for commercial breeding in recent decades. A somewhat similar effort: former Agriculture Secretary and former North Cotabato governor Manny Piñol developed a line dubbed “Manok PNoy”, combining imported genetics with local blood, as early as 2013. 

So yes, Kustods’s claim is worth flagging: local innovation, local adaptation, local relevance. We should ask: Is this just marketing talk, or is it genuine breed development? If genuine, what are the implications?

What’s at stake

• Import dependence: We still import many commercial chicken breeds and pay for licensing or importation. Why? If we have locally developed, adapted native breeds, we save money, build local capacity.
  
  

• Food security & sovereignty: A breed developed locally, tailored to local climates, diseases, feed resources, smallholder setups, contributes directly to resilient food systems.
  
  

• Farmer livelihoods: Native chickens are valued for taste, cultural preference, free‐range adaptability. If a local breed can combine those advantages plus improved growth or productivity, farmers win.
  
  

What Kustods claims

According to available information:

• Their native chicken line can be harvested in just 7–8 weeks for meat production.
  
  

• Selective breeding gives choice in color and sex of chicks.
  
  

• Adapted for Philippine climate and smallholder conditions.
  
  

• Ideal for restaurants, meat vendors seeking the “native taste” but faster turnover.
  
  

If these claims hold up under independent verification, that is a step change. Traditional native chickens grow slowly (sometimes 3–4 months) and smaller in size. An accelerated native breed means faster turnover for farmers.

Questions I ask

• What exactly is the genetic basis? Has Kustods published data on growth rate, feed conversion ratio (FCR), mortality, disease resistance compared to commercial broilers or existing native stocks?
  
  

• Are these “native” chickens truly native (local gene pool) or hybrids of imported breeds plus local? Because that affects conservation of native genetics.
  
  

• Will this breed be made affordable for grassroots farmers and cooperatives, not just large operators or urban restaurants?
  
  

• How will the government support this? Should the Department of Agriculture (DA) or the Department of Science and Technology (DOST) step in to certify, propagate, and scale up such breeds?
  
  

• Will the feed formulations remain imported, or can this breed eventually thrive on locally‐sourced feeds (rice bran, copra meal, native forage) thus reducing cost?
  
  

Broader context: native chicken industry

Some data: According to DOST-PCAARRD, native chickens constitute about 46% of the chicken population in the country (~76 million heads) but face major challenges such as unstable supply of slaughter‐ready birds and high mortality (~40%). Native chicken are preferred for their distinct taste and lower fat content.

Also: the Agricultural Training Institute (ATI) has recently been training local specialists in native chicken production in Eastern Visayas. This suggests the government recognizes the value of native chicken, but the innovation gap remains.

Suggestions & pathways

• Government support: DA + DOST to provide certification, R&D support, seed stock distribution of new local breeds like Kustods’s.
  
  

• Farmer access: Ensure chicks are affordable, and that small farms/co-ops can access them. Offer financing/subsidies.
  
  

• Locally adapted feed: Develop feed formulations based on cheap local inputs (rice bran, copra meal, insects) such that the breed thrives without expensive imported feeds.
  
  

• Scaling & branding: Brand native chicken meat from these local breeds—“Philippine Upgraded Native Chicken”—and market to consumers who already prefer native taste, raising premium and farmer income.
  
  

• Research & data transparency: Publish performance metrics so farmers know what they’re getting (growth, FCR, resistance). Also ensure genetic diversity and not undue narrowing of the gene pool.

Yes, native chickens—anyone? Absolutely. If Kustods’s innovation is real, it’s exactly what we need: a Filipino-developed breed that combines the taste and value of native chicken with better production metrics for farmers.

We are not just talking about chickens. We’re talking about innovation, localized food systems, rural livelihoods, and sustainable agriculture. Let’s hope this is not an isolated story, but the beginning of a new wave of Filipino animal‐breeding initiatives—whether in poultry, goats, ducks or whatever.

And to the farmers, scientists, and entrepreneurs: here’s your challenge: How do we make this breed the norm, not the exception?How do we ensure it reaches every barangay? How do we make the Philippines not just a consumer or importer of animals and breeds, but a developer and exporter of its own agricultural genetics?

Native chickens? Yes—if done smart, they might just change the game.

Ramon Ike V. Seneres, www.facebook.com/ike.seneres

iseneres@yahoo.com, senseneres.blogspot.com 09088877282/04-05-2026

WHAT ARE VANADIUM REDOX FLOW BATTERIES?

 WHAT ARE VANADIUM REDOX FLOW BATTERIES?

Let’s get straight to it. If we are serious about transitioning to clean energy, and if we genuinely want reliable, long-duration storage (not just short bursts), then this question needs to be asked: Why isn’t the Vanadium Redox Flow Battery (VRFB) everywhere in the Philippines?

Because on paper, the benefits are clear. Because in practice, countless countries are already deploying them. And yet here at home, in the Philippines, we remain largely on the sidelines, waiting.

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What is a VRFB?

A vanadium redox flow battery stores energy in liquid electrolytes containing vanadium ions, housed in large storage tanks. Two separate tanks (anolyte and catholyte) pump electrolyte through a stack of cells where redox reactions occur—charge/discharge. 

Key characteristics:

• Energy storage (kWh) can scale by increasing tank volume; power (kW) by adding more cell stacks.
  
  

• Lifespan measured in decades: 20+ years, thousands upon thousands of cycles.
  
  

• Safety advantage: non-flammable aqueous electrolyte; minimal risk of thermal runaway.
  
  

In short: this is a battery built for stationary, grid-scale use—especially where renewable energy intermittency demands long-duration backup, not just quick bursts.

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Why should we care in the Philippines?

Because our energy future won’t be built on coal alone. Because we will need storage that can absorb solar from midday and deliver into the evening, or hold wind energy for when the breeze dies. And because our archipelago geography means many remote grids and islands where reliability is critical.

Here are issues for our context:

• Which government agency is responsible? Should the Department of Science and Technology (DOST) take the lead? Or the Department of Energy (DOE)? Or should it be a collaboration among them, perhaps with the Department of Trade and Industry (DTI) and the Department of Foreign Affairs (DFA) exploring overseas partnerships?
  
  

• Are we content to remain importers of the technology, or can we aim to locally assemble or even develop VRFBs (assuming we could import raw materials)?
  
  

• Do we have local vanadium resources? Unlikely large-scale, but could there be potential for strategic raw material sourcing or recycling?
  
  

• Should DTI or DFA already be contacting major VRFB manufacturers abroad (for technology transfer, investment, clusters)?
  
  

• How does this align with our energy transition goals and the mandate for universal access and resilience in a country prone to typhoons and grid disruption?
  
  

In fact, the DOST is already doing something: The Technological Institute of the Philippines (TIP), under DOST funding, is working on a battery energy storage system with its Advanced Batteries Center. That’s promising—but the question remains: will flow-batteries (VRFBs) be part of that pipeline, or will we default to lithium-ion because everyone else uses that?

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Why isn’t VRFB everywhere yet?

Let’s be realistic. For all the promise, there are clear hurdles:

1. High upfront cost
   Vanadium electrolyte, large tanks, pumps and stacks: they cost more initially than many lithium-ion systems.
   
   

2. Supply chain & material risk
   Vanadium is produced largely as a by-product of steel manufacturing in a few countries (notably China). That means supply volatility and geopolitical risk.
   
   

3. Market inertia
   Lithium-ion batteries have scale, manufacturing lines, investment, precedent. VRFBs are less familiar to investors and utilities in many markets.
   
   

4. Technical limitations
   Energy density is low compared to lithium-ion (~20–30 Wh/kg) making them unsuitable for mobile applications (EVs) or where space is tight. Also: to maintain electrolytes and manage temperature ranges requires care.
   
   

5. Policy & incentive lag
   In many jurisdictions, incentives favor short-duration storage or lithium-ion systems. Long-duration technologies like VRFBs are just now getting policy attention.
   
   

It adds up to: the technology is excellent for certain use-cases (grid, renewables, long-duration) but doesn’t yet fit the mass-market narrative. Until it does, uptake remains moderate.

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What can the Philippines do now?

Here are suggestions:

• Create a national roadmap that explicitly recognizes long-duration storage technologies (like VRFBs) in our renewable energy targets.
  
  

• Assign coordinating responsibility: DOST (R&D), DOE (policy & infrastructure), DTI (industry and manufacturing) should collaborate. A “VRFB Consortium” could be formed to link universities, industry, and government agencies.
  
  

• Catalyze pilot projects: Deploy one or two multi-MW VRFB installations in island-grids (e.g., Visayas or Mindanao micro-grids) to demonstrate benefits and build familiarity.
  
  

• Encourage local manufacture/assembly: Even if we import core stacks, assembling local electrolyte tanks, piping, monitoring, maintenance might build a domestic industry.
  
  

• Explore raw material strategy: While large-scale vanadium mining may not be realistic for now, recycling vanadium from used steel or co-products could be explored; monitor global supply chains.
  
  

• Update procurement frameworks: Shift public tendering for storage systems away from “all energy storage is lithium-ion” to “suitable storage for duration, grid need, cost-life cycle”.
  
  

• Promote public-private partnerships: Local businesses can sponsor pilot VRFBs as part of CSR/energy resilience programs—especially industrial estates, eco-zones, resort islands.
  
  

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So: what are vanadium redox flow batteries? They’re a genuine contender for the next phase of energy storage—especially when we stop thinking “battery = short-term” and start thinking “storage = resilience, multi-hour, decade-long service”. The technology is proven, safe, scalable, and long-lived.

But the question remains: why isn’t it everywhere yet? Because cost, supply chain, market familiarity and policy lag all stand in the way.

For the Philippines, this is both a challenge and an opportunity. We can either remain on the sidelines and import energy-storage solutions (again), or we can step up, set a national strategy, pilot the technology, and build local capacity. The alternative is that while others modernize their grids, we get stuck with yesterday’s lithium-ion solutions when we’ll need tomorrow’s long-duration capabilities.

If our energy future is to be resilient, decarbonized, and responsive—not only for Metro Manila but for every island and barangay—then VRFBs deserve a seat at the table. And we should ask ourselves: when will the Philippines stop watching and start implementing?

Ramon Ike V. Seneres, www.facebook.com/ike.seneres

iseneres@yahoo.com, senseneres.blogspot.com 09088877282/04-04-2026