Led by Siti Nurkhamidah, ST., MS., Ph.D as head of the laboratory. This laboratory is engaged in the area of ​​industrial waste treatment, both biologically and physically and chemically. The leading research conducted:

1. Study on the Effect of Inhibitors on the Maximum Specific Growth Rate of Denitrification in the Activated Sludge Process.
2. Anaerobic active sludge treatment with artificial neural network and utilization of bio gas as energy substitution.
3. Reducing Ammonia Levels in PT Petrokimia’s Liquid Waste by Using Kerosene Liquid Membrane with SPAN 80 Surfactant.
4. Study on the performance of the continuous system of Dissolved Air Flotation (DAF) on reducing oil and COD levels of Pertamina DOH Waste, West Java-Balongan
5. Making biogas from sludge
6. Study of Decolorization of Textile Industry Liquid Waste by using Alum, PAC or MgCl2.
7. Siloxane removal in biogas with activated carbon adsorber
8. Effect of H2O2 on Aerobic Biological Waste Formaldehyde Treatment
9. Study of the performance of Dissolved Air Flotation on reducing oil content in wastewater.
10. Electroplating Waste Heavy Metal Adsorption with Shrimp Shell
11. Anaerobic Production of Biogas from Cow Manure.
12. Oily Waste Chlorination

Research topics include:

1. Data Acquisition
   The data that is currently around us is heterogeneous, both in terms of structure (structured and unstructured), location (distributed or centralized), from various sources/resources (example: data from websites, text messages/sms, and others) , and volume (example: massive data or big data).
2. Information Dissemination
   Along with the development of data sources and volumes, various technologies have also developed to process the data. Each of these technologies is an implementation of a different paradigm regarding data, and is embodied in innovations in pre-processing and data processing techniques.
3. Processing Paradigm
   Processes and methods of processing data into more valuable information.