NX Filtration’s Post

Here are several factors to consider for eco-friendly operations: 1. Renewable Energy Sources: PT Duta Surya Sukses and PT PLN Batam Transition to renewable energy sources such as solar to reduce reliance on fossil fuels. Integrating green energy into the production process can significantly decrease the carbon footprint of the air separation plant. 2. Energy Efficiency Measures: Implement energy-efficient technologies and practices within the facility. This includes optimizing transportation routes, upgrading to energy-efficient machinery, and regularly conducting energy audits to identify areas for improvement. 3. Waste Reduction and Recycling: Establish a comprehensive waste management system to minimize waste generation. Prioritize recycling efforts for materials like steel, and metals to explore innovative ways to repurpose items. 4. Green Infrastructure: Design and construct the air separation plant with sustainable and environmentally friendly materials. Incorporate green infrastructure practices, such as using permeable surfaces, rainwater harvesting, and landscaping with native plants to enhance environmental sustainability. 5. Water Conservation: Adopt water-saving technologies and practices to minimize water usage in the air separation process. Implement water recycling systems where feasible and explore alternative water sources, such as rainwater harvesting. 6. Employee Education and Engagement: Foster a culture of environmental responsibility among employees. Provide training on eco-friendly practices and encourage staff to contribute ideas for further reducing the environmental impact of the air separation industry. for example to reduce usage plastic mineral drinking water changed with tumblers 7. Compliance with Environmental Regulations: Stay informed about and comply with local and national environmental regulations. Regularly update systems and processes to align with evolving standards, ensuring that the air separation plant operates within environmentally sustainable parameters. #marineindustry #DutaSuryaSukses #GasSupply #HolidayPreparation #liquidoxygen #liquidargon #liquidnitrogen #liquidco2 #batamliquid #liquidkepri #gasbatam #gaskepri #batam #kepulauanriau #airseparationplant #isotank

The upcoming International Conference on Chemicals Management provides a unique opportunity to address CoC in the building and construction sector. As negotiations continue to develop a new global framework for sustainable chemical and waste management, it is crucial that we integrate CoC management into this framework. Efforts and initiatives like the GEF-funded project on Global Best Practices on Emerging Chemical Policy Issues of Concern play a pivotal role in advancing this cause. Focusing on lead in paint, chemicals in products, and stakeholder engagement, these initiatives contribute to a safer and more sustainable building and construction sector. Addressing chemicals of concern in building and construction is a moral and environmental imperative. #BuildingAndConstruction #ChemicalsOfConcern

Nusantara's #zerowaste plan: Will actions match the ambition? Indonesia's new capital, #Nusantara, aims to be a "Smart and Sustainable Forest City" built on #circulareconomy principles. While this ambition could be a fresh start for Indonesia, there are also concerns over the effectiveness of the proposed smart #waste management system given the country’s limited infrastructure and the lack of transparency surrounding the #wastemanagement plan. More in the link below. #Consumption #Climate https://lnkd.in/gacsKp38

Shadeballs Innovation at DWP Botlek Evides Industriewater (EIW)'s largest demineralised water plant (DWP), Botlek, recently started using HDPE Shadeballs to increase DWP process efficiency. Shadeballs are small plastic balls that are part filled with water, and float on top of our water tanks and ponds to provide shade from the sun.   How are shadeballs being used? They are using them in the process on the flocculator and lamella separator. The lamella separator is used in the sludge line to separate produced sludge from water so that the water can be reused. Normally a lamella separator is equipped with lids that are made of steel. The disadvantage of these lids is that they are heavy and become very hot in the summer. For these reasons, it was decided that no lids would be used at DWP Botlek, but our continuous process monitoring quickly noticed the formation of algae.   Shadeballs increase plant efficiency We are always trying to reduce the use of unnecessary chemicals throughout our processes, so we actively seek alternative methods. If the sun is allowed to penetrate the water all day during the warmer months, algae will grow and that affects our process efficiency. By using this shadeball approach, we can block up to 90% of the suns energy making it harder for algae and bacteria to grow. Also, because the shadeballs are made of HDPE, they can last over 30 years before going to be receycled.   DWP Maasvlakte – Successful deployment At DWP Maasvlakte we have already successfully applied HDPE shadeballs to the sludge drying beds i.e. preventing algae growth. That is why more than 2,500 shadeballs have now been used in DWP Botlek's flocculator and lamella separator. By making this demineralised water production process more sustainable, EIW is able to reduce Botlek’s water and energy consumption, and reduce overall plant CO₂ emissions.   EIW - Continous Improvement We are commited to improving the efficiency of every plant we operate. We can do this because of our continuous improvement programme overseen by our innovation and technology group. This group actively seeks improvements which it shares and instigates across facilities. In this way we contribute to a more sustainable living environment and a stable long-term outlook for our customers and partners. To learn more about Evides Industriewater: https://lnkd.in/dNu6-BCu #designbuild #watermanagement #waterconservation #water #manufacturing #petrochemical #oilindustry #waterindustry #watertreatment #greenenergy #wastewatertreatmentplant NOF CATCH NEPIC EIC (Energy Industries Council) Industrial Decarbonisation Research and Innovation Centre (IDRIC) UK Carbon Capture and Storage Research Centre (UKCCSRC) Chemicals Northwest Net Zero North West Net Zero Teesside UKRI - Industrial Decarbonisation Challenge (IDC) Humber Zero NECCUS South Wales Industrial Cluster Evides Industriewater The Humber Industrial Cluster Plan HyNet

#BurnNotBandung West Java Governor Ridwan Kamil has just unveiled the chosen company for the construction and operation of the Legok Nangka Waste Processing and Final Processing Site (TPPAS) in Citaman Village, Nagreg District, Bandung Regency, Indonesia. In response, GAIA Asia Pacific, in collaboration with Aliansi Zero Waste Indonesia and WALHI-West Java, strongly voices our concerns and calls for a suspension of both the project and the practice of waste incineration. We emphasize the adverse environmental impact, citing pollution and environmental injustice as major concerns. We advocate for more cost-effective and straightforward alternatives such as composting and bio-conversion Read the full article for in-depth insights: https://lnkd.in/grarZBDH #GoForZeroWaste #BreakFreeFromPlastic #BurnNot #ZeroWasteIsEasierDoneTogether #ZeroWasteIsForEveryone"

✅ Hydrated Lime: An Effective Solution for Various Construction and Environmental Applications 🎉🎉 🔹In the construction and environmental sectors, the use of efficient and sustainable materials is always a top priority. Among these materials, hydrated lime, also known as slaked lime, has become a widely utilized and effective solution in many different applications. Let's explore the properties, applications, and benefits of hydrated lime in the following article. 1️⃣ What is Hydrated Lime? Hydrated lime is a form of lime created by adding water to quicklime. This process produces an active material with high water-absorbing capacity and strong alkalinity. The end product is a fine white powder that can dissolve in water, creating an alkaline solution with various applications. 2️⃣ Applications of Hydrated Lime ▶️🏦 Construction: - Waterproofing Agent: Hydrated lime is extensively used in the production of mortar and waterproof coatings. Its water-absorbing ability makes waterproofing layers stronger and more durable. - Alkaline Agent: In concrete, hydrated lime is often used as an alkaline agent to control pH and improve the flexibility of mortar. ▶️🌍 Environmental: - Wastewater Treatment: Hydrated lime is used for wastewater and solid waste treatment. It has the ability to alkalize water, helping to remove pollutants such as acids and heavy metals. - Odor Control: In wastewater and waste treatment, hydrated lime is also employed for odor control, minimizing undesirable odors' impact on the environment and human health. ▶️🎰 Benefits of Hydrated Lime - Sustainability: Using hydrated lime in construction and environmental applications can minimize the impact on the environment and natural resources as it is a recyclable material. - Efficiency: The water-absorbing and alkalizing properties of hydrated lime make it an efficient choice from both technical and economic standpoints. - Safety: When used correctly, hydrated lime is a safe and non-toxic substance. 👉Looking for quality lime products in Vietnam? Look no further than our lime manufacturing company! --------------- VISIT US Linkedin: https://lnkd.in/gHjMWS48 Fanpage: https://lnkd.in/gh_3-hJa Website: https://dlhlime.com Youtube: https://lnkd.in/gGb_D48c #HydratedLime #ConstructionMaterials #BuildingSolutions #EcoFriendly #EnvironmentalProtection #SustainableBuilding #Waterproofing #ConcreteAdditive #WastewaterTreatment #OdorControl #GreenConstruction #RecycledMaterials #Alkalinity #BuildingIndustry #InnovativeMaterials

Unleashing WTE to green power the economy - The Sultan Idris Shah (SIS) Waste-to-Energy (WTE) Green Energy Plant in Rawang, Selangor, is crucial for sustainability. - It addresses landfill capacity issues and #environmental risks. - Championed by KDEB Waste Management and YTL Power International Bhd, it's a RM4.5 billion project. - It covers 245 acres and will handle waste from various districts. - Concerns from local communities include traffic, property values, and odorous emissions. - Local lawmaker William Leong emphasizes transparency and community consultation. - Focus should be on waste management principles like source reduction, recycling, and composting. - The project has substantial benefits, including job opportunities and infrastructure development. - Modern WTE technology addresses #emissions and methane from waste. - WTE aligns with the circular economy by repurposing byproducts. - Malayan Cement Bhd plans to use fly ash from the project. - Emissions can be controlled with advanced technologies. - The project offers #cleanenergy generation, enhanced waste management, economic growth, and environmental safeguards. #netr2030 #nimp2030 Nirinder Johl Sunita Rajakumar Dr. Kalanithi Nesaretnam Johan Raslan

Thrilled to see how this unfolds! Earlier this year I visited #HPower, a Waste-to-Energy (WTE) facility in Oahu, Hawaii that turns post-recycled municipal waste into RE, contributing to around 10% of the island's power grid. An interesting fact that I learned was that the facility was able to generate a great amount of profit $$$ through the electricity sold and sales of recovered metals. An unintended advantage of the WTE facility is that it can actually mitigate floods! This could be especially beneficial for flood-prone areas in Malaysia. Here's how it works: When wastes are properly managed, this means > less garbage piles up in landfills. When landfills get too full > they can overflow and potentially clog the nearby drainage system > which ultimately exacerbates flooding. But by turning some of that waste into energy, we reduce the pressure on our landfills and (outdated) drainage system. Better waste management can help keep our communities safer from floods! Ultimately a win for the environment and community!

Shadeballs Innovation at DWP Botlek Evides Industriewater (EIW)'s largest demineralised water plant (DWP), Botlek, recently started using HDPE Shadeballs to increase DWP process efficiency. Shadeballs are small plastic balls that are partly filled with water and float on top of our water tanks and ponds to provide shade from the sun. How are shadeballs being used? They are using them in the process on the flocculator and lamella separator. The lamella separator is used in the sludge line to separate produced sludge from water so that the water can be reused. Normally, a lamella separator is equipped with lids that are made of steel. The disadvantage of these lids is that they are heavy and become very hot in the summer. For these reasons, it was decided that no lids would be used at DWP Botlek, but our continuous process monitoring quickly noticed the formation of algae. Shadeballs increase plant efficiency We are always trying to reduce the use of unnecessary chemicals throughout our processes, so we actively seek alternative methods. If the sun is allowed to penetrate the water all day during the warmer months, algae will grow, and that affects our process efficiency. By using this shadeball approach, we can block up to 90% of the sun's energy, making it harder for algae and bacteria to grow. Also, because the shadeballs are made of HDPE, they can last over 30 years before going to be recycled. DWP Maasvlakte – Successful deployment At DWP Maasvlakte, we have already successfully applied HDPE shadeballs to the sludge drying beds i.e., preventing algae growth. That is why more than 2,500 shadeballs have now been used in DWP Botlek's flocculator and lamella separator. By making this demineralised water production process more sustainable, EIW is able to reduce Botlek’s water and energy consumption and reduce overall plant CO₂ emissions. EIW - Continous Improvement We are committed to improving the efficiency of every plant we operate. We can do this because of our continuous improvement programme overseen by our innovation and technology group. This group actively seeks improvements, which it shares and instigates across facilities. In this way, we contribute to a more sustainable living environment and a stable long-term outlook for our customers and partners. To learn more about Evides Industriewater: https://lnkd.in/dNu6-BCu #designbuild #watermanagement #waterconservation #water #manufacturing #petrochemical #oilindustry #waterindustry #watertreatment #greenenergy #wastewatertreatmentplant NOF CATCH NEPIC EIC (Energy Industries Council) Industrial Decarbonisation Research and Innovation Centre (IDRIC) UK Carbon Capture and Storage Research Centre (UKCCSRC) Chemicals Northwest Net Zero North West Net Zero Teesside UKRI - Industrial Decarbonisation Challenge (IDC) Humber Zero NECCUS South Wales Industrial Cluster Evides Industriewater The Humber Industrial Cluster Plan HyNet