ORIN Technologies, LLC’s Post

Oil palm trunks (OPT), often left to decompose and cause environmental issues, can be converted into biochar, a promising bioadsorbent. This study shows OPT’s lignocellulosic composition enhances biochar's adsorption efficiency, offering a sustainable solution for waste management and creating secondary income. https://buff.ly/3AaKGeE #Biochar #Pyrolysis #CarbonCapture

We continue to see a bevy of unique studies that evaluate the feasibility of waste valorization in various sectors and applications. Produced water seems like an ideal feedstock for this paradigm. Below is a two-part process (oxidation and biological) published by Elsevier where polyurethane waste is converted into biofertilizer components. Here are some of the key points: Jerri Pohl Ramón Antonio Sánchez Rosario Kevin Schug Brian Mueller New Mexico Produced Water Research Consortium Steve Coffee Ben Samuels Produced Water Society Infinity Water Solutions Michael Dyson Whitney Dobson Ashley Kegley-Whitehead Chris Caudill Jordan Kramer #water #treatment #waste #valorization #mining #value #extraction #energy #environment •Circular economy model for Polyurethane wastes conversion into valuable products. •Polyurethane depolymerization into soluble molecules by ozonolysis attack. •Polyurethane depolymerization to produces biofertilizer bacterial biomass. https://lnkd.in/gUF8eXRW

ORIN's Groundbreaking Proprietary Product - BAM https://lnkd.in/guJ2dNNr BAM is a highly effective contaminant sponge made of recycled natural resources. What are the benefits? - Rapid absorption of contaminants - Stops contaminant plume migration - A carbon-based product made from biomass materials - Pores provide extremely high surface area per gram of material creating a high - Cation Exchange Capacity (CEC) - Promotes microbial colonizations that biodegrade contaminants - BAM can be combined with chemical oxidants or reductants - Effective on a wide range of contaminants #PFAS #Pollution #Remediation #Water #Soil #Bioremediation #Engineering #Industrial

ORIN's Groundbreaking Proprietary Product - BAM https://lnkd.in/guJ2dNNr BAM is a highly effective contaminant sponge made of recycled natural resources. What are the benefits? - Rapid absorption of contaminants - Stops contaminant plume migration - A carbon-based product made from biomass materials - Pores provide extremely high surface area per gram of material creating a high - Cation Exchange Capacity (CEC) - Promotes microbial colonizations that biodegrade contaminants - BAM can be combined with chemical oxidants or reductants - Effective on a wide range of contaminants #PFAS #Pollution #Remediation #Water #Soil #Bioremediation #Engineering #Industrial

ORIN's Groundbreaking Proprietary Product - BAM https://lnkd.in/guJ2dNNr BAM is a highly effective contaminant sponge made of recycled natural resources. What are the benefits? - Rapid absorption of contaminants - Stops contaminant plume migration - A carbon-based product made from biomass materials - Pores provide extremely high surface area per gram of material creating a high - Cation Exchange Capacity (CEC) - Promotes microbial colonizations that biodegrade contaminants - BAM can be combined with chemical oxidants or reductants - Effective on a wide range of contaminants #PFAS #Pollution #Remediation #Water #Soil #Bioremediation #Engineering #Industrial

Biochar from pineapple crown biomass, activated through chemical treatment, efficiently removes dyes from wastewater, achieving 100% removal of methylene blue, rhodamine B, and malachite green. This eco-friendly adsorbent offers rapid adsorption kinetics, high capacity, and sustainability, making it ideal for water pollution control. https://buff.ly/3ZZDOKl #Biochar #Pyrolysis #CarbonCapture

The potential of Black Soldier Fly Larvae (BSFL) as a sustainable solution for bioconversion of aflatoxin contaminated substrates was investigated in this study. BSFL were fed with Peanut Press Cake (PPC) contaminated with aflatoxins over an eleven-day period. Results showed no adverse effects on larval survival and biomass, and no bioaccumulation of aflatoxins was observed. This study highlights the feasibility of using BSFL for managing contaminated substrates and their safety as food and feed sources. 

Biochar, produced from biomass via pyrolysis, effectively removes organic water pollutants, with its adsorption efficiency influenced by physical and chemical properties. Key factors include pyrolysis conditions and post-treatment methods. Sustainable and eco-friendly, biochar is crucial for addressing water pollution. Continued research is needed to tailor its applications. https://buff.ly/4gbjRXb #Biochar #Pyrolysis #Carbon #CarbonSequestation

A continuous carbonization furnace is a device used to carbonize biomass materials (such as bamboo, sawdust, rice husks, coconut shells, olive pits, etc.) into biochar under high temperature and oxygen-free conditions. Continuous carbonization furnaces are widely used in the production process of biochar. Biochar can be used to improve soil, increase soil fertility, reduce soil acidification, and enhance soil water retention.

This study converts Lemongrass and Tagetes minuta waste into bio-oil and biochar via slow pyrolysis at 350–500°C. The highest bio-oil yields were 37.3% for Lemongrass and 39% for Tagetes minuta. GC-MS analysis revealed a phenolic-rich composition, useful for industrial applications.