# The bioenergy and bioprocessing tech. lab.: intersection of renewable energy, waster treatement, and human health Stephanie Lansing Professor and Associate chair, Director of the Bioenergy and Bioprocessing Tech. Lab Department of Environmental Sci. & Technology University of Maryland ## Anaerobic digestion and fermentation nanotechnology, electrochemistry, biochar, and bioplastic production from fermentaiton product biochar to remove H2S and increase Ch4 in biogas Biochar to improve anaerobic digestion la manure and food waste (providing carbon) into anaerobic digestor liquid fertilizer with 25-80% and 50% more nutrients putting cover on manure lagoon, will reduce the GHG emission create liquid fertil 美國從2014年發布biogass roadmap food waste (cranberry, ice cream, chicken and meatball processgn waste) nhavested lettuc algal turf scrubber with anaerobic digestion and fuecl cell biochar in aerobic digestion: highest biochar addtions had upto 90% reduction in H2S, biochar adsorbed NH4-N 主要的原因是表面吸附， ## Reducing antimicrobial resistance manure treatment, social science, communication, and teaching ## Food energy and water (FEW) NEXUS interdisciplinary approach food waste, LCA, algal digestion, nutrient recovery working of food bank, farmer through LCA showing the work on # sustainable food production syste lab - aquaponics Jose-Luis Izursa understand, design, build and manage sustainable **Aquaponitcs** 1. an innovative method for food production 2. aquaculture + hydroponics 3. optimizaing aquaponitc system: using resources more efficiently, aiming for more efficieny energy and nutrient cycles 4. effect of micro/nanobubble **Permaculture** permaculture integrates land, resources, people and the environment through mutually beneficial synergies