KRDC provides comprehensive research and development support for industries through six core divisions focused on advanced processing, analytical validation, and continuous innovation.
The core of our innovation hub focuses on developing bespoke industrial solutions. We bridge the gap between theoretical science and industrial application through rigorous experimental research.
Dielectric Testing: Precision analysis of material response to Microwave and RF energy.
Plasma Engineering: Research into cold plasma surface modification and activation.
Process Optimization: Refining thermal profiles to maximize quality and yield.
We develop the technical roadmap for your product's thermal journey.
Simulate industrial-scale processing conditions using our versatile range of pilot equipment to mitigate risk and validate results before full-scale implementation.
Researching material behavior in Vibratory and Static Fluid Bed Dryers (FBD) for uniform moisture removal in granular products.
Advanced trials using Microwave, Infrared (IR), and Hybrid systems to optimize volumetric and surface heating profiles.
Testing with Spray Dryers, Tunnel Dryers, and Belt Dryers to establish residence times and continuous throughput parameters.
Our state-of-the-art analytical laboratory provides deep insights into the physical, chemical, and microbiological changes in materials during processing.
Proximate Analysis: Moisture content, density, viscosity, and pH profiling.
Chemical Analysis: HPLC, protein, fat, and carbohydrate evaluation.
Preservation Studies: DPPH Antioxidant activity and nutrient retention analysis.
KRDC Research features a modern lab for precise waste, emission, and material analysis. It supports pilot testing, process validation, and development of incineration and pollution control solutions, delivering accurate, compliant, and data-driven results.
Detailed study of material morphology and functional properties using advanced characterization instruments to understand structural impact of thermal treatment.
BET surface area and porosity analysis for catalyst and biochar research.
Contact angle and adhesion studies for surface treatment and coatings.
Cation Exchange Capacity (CEC) for agricultural biochar evaluation.
Microstructural imaging to evaluate cellular integrity in food products.
Ensuring that every industrial installation is optimized for performance, safety, and energy efficiency through rigorous validation protocols.
Energy Audits: Measuring kWh/kg to optimize specific energy consumption.
Safety Validation: Emission monitoring (CO, NOx, SOx) for combustion systems.
Biological Validation: 3-log to 6-log reduction testing for sterilization cycles.
Our validation team provides the quantitative data required for GMP compliance and industrial certifications.
Focusing on the future of thermal processing through research into high-impact, sustainable technologies and alternative energy integration.
Waste-to-Value: Research into RDF and sludge-to-energy conversion.
Carbon Management: Carbon Capture and CO2 recovery research.
Bio-Hydrogen: Advanced thermochemical conversion for green hydrogen production.
We are actively investing in sustainable engineering research to support the global shift toward net-zero industrial production.
Collaborate on Green TechDiscuss a research collaboration, request a lab visit, or explore how our divisions can address your industrial needs.