Since 2006, Dr. Chontisa Sukkasem, an assistant professor from Faculty of Agro and Bio-Industry, Thaksin University has found a deep technology of microbial fuel cell treating wastewater efficiently. However, the costly materials are the obstacle application. Therefore, the BioCircuit was invented by replacing expensive materials with inexpensive and accessible use materials.
Recently, Asst. Prof. Dr. Chontisa Sukkasem has established Inno Green Tech Co., Ltd as a tech transferred of an innovative wastewater treatment called “BioCircuit”. The current referent sites are installed in 5 provinces such as Songkhla, Satun, Phatthalung, and Krabi province for the rubber process industries and Kalasin province for noodle process industry.
BioCircuit has 5 different sizes like extra small scale (<10 cu/day), small scale (11-50 cu/day), medium scale (51-100 cu/day), large scale (101-1000 cu/day) and extra large scale (>1000 cu/day).
High efficiency BioCircuit is able to operate continuously over 5 years with less land-used, less chemicals addition, low power consumption, low maintenance cost and user friendly without specialist.
Contact
Asst. Prof. Dr. Chontisa Sukkasem
PhD. (Biotechnology - in energy and environmental engineering)
More than 20 years experience
Inventor & developer of BioCircuit
CTO and founder of Inno Green Tech Co., Ltd.
Inno Green Tech Co., Ltd.
41 Potipongsautit Rd
Tambon Hat Yai, Hat Yai District
Songkhla 90110
IBC tank is suitable for extra small and small scale (<50 cu/day)*
*Depends on your requirement and limits
Reinforced concrete pond
Reinforced concrete pond is suitable for medium to extra large scale (>50 cu/day)*
*Depends on your requirement and limits
Fiber glass capsule tank
Fiber glass capsule tank is suitable for medium to large scale (> 100 cu/day)*
*Depends on your requirement and limits
BioCircuit
British poet W. H. Auden once noted, “Thousands have lived without love, not one without water.” Yet while we all know water is crucial for life, we trash it anyway. Some 80 percent of the world’s wastewater is dumped—largely untreated—back into the environment, polluting rivers, lakes, and oceans.
This widespread problem of water pollution is jeopardizing our health. Unsafe water kills more people each year than war and all other forms of violence combined. Meanwhile, our drinkable water sources are finite: Less than 1 percent of the earth’s freshwater is actually accessible to us. Without action, the challenges will only increase by 2050, when global demand for freshwater is expected to be one-third greater than it is now.
Water is at the core of sustainable development and is critical for socio-economic development, energy and food production, healthy ecosystems and for human survival itself. Water is also at the heart of adaptation to climate change, serving as the crucial link between society and the environment.
Water is also a rights issue. As the global population grows, there is an increasing need to balance all of the competing commercial demands on water resources so that communities have enough for their needs. In particular, women and girls must have access to clean, private sanitation facilities to manage menstruation and maternity in dignity and safety.
At the human level, water cannot be seen in isolation from sanitation. Together, they are vital for reducing the global burden of disease and improving the health, education and economic productivity of populations.