Development and application of new cost- and customer-oriented solutions for in-situ groundwater and soil remediation

TechnologyNemeckoTODE20210915001
Offers
Summary: 
A German SME having a wide experience in the development of customized in-situ groundwater and soil remediation is looking for partners from industry and research to develop new remediation technologies/processes and to carry out remediation projects. Co-operation could be under a research or technical agreement. Their competencies include new biological-chemical and physical in-situ methods and technologies in combination with innovative drilling and exploration performances.
Description: 
A German SME offers a wide range of customized and combined groundwater and soil remediation technologies. In addition to oxidative (ISCO (in-situ chemical oxitdation), aerobic microbiological contaminant degradation) and reductive (ISBR (in-situ biological reduction) / ISCR (in-situ chemical reduction)), air sparging, tenside flushing, methane biostimulation processes, direct gas injections, pump & treat measures, immobilization processes for heavy metals and thermal processes belong to their field of application. ISBR is a classical technology of in-situ process engineering. By introducing various environmentally compatible active substances such as molasses, lactate, microemulsions, biosurfactants or nutrients (NPK (Nitrogen, Phosphorus, Potassium) fertilizers), an ideal environment can be created for biological pollutant degradation processes. The classical anaerobic dechlorination of halogenated VOCs (volatile organic compounds) has priority, aerobic remediation variants can also be implemented. In in-situ chemical oxidation (ISCO), contaminants dissolved in groundwater are degraded by chemical oxidative means. For the remediation of environmental contamination in-situ methods have proven to be more effective than conventional methods such as soil excavation and pump & treat at numerous sites, are particularly cost-effective and sustainable and hardly interfere with land use. Permeability of the subsoil is often considered a limitation for in-situ methods. The SME’s TSE (targeted solids emplacement) process allows targeted in-situ distribution of solids (oxidants, biosubstrates, supporting agents, etc.) in high quantities directly in the damage center, even in geologically difficult soils. Effective control of environmental damage requires detailed knowledge of the relevant process dynamics in the subsurface. Degradation and distribution processes of the supplied reactants, microbial processes and migration dynamics must be precisely recorded to control them technically and to manage the applied process technology. Very often, precise process recording can only be realized using modern online sensor technology. Therefore, the SME has acquired comprehensive know-how in in-situ sensor technology. For the investigation of environmental damage the company also carries out Direct-Sense soundings with Geoprobe- sounding caterpillars: MIP (Membrane Interface Probe) sounding, EC (Electrical Conductivity) sounding, HPT (Hydraulic Profiling Tool) sounding to collect in-situ data on geological and hydraulic properties of the subsurface and the distribution of organic contaminants during the probing process. Their process engineering laboratory is focused on conducting feasibility studies and bioprocess analysis of environmental remediation projects, ENA (enhanced natural attentuation) and MNA (monitored natural attenuation) measures. In addition, their laboratory analyzes and evaluates site-specific data on microbial and chemical degradation performance as well as on process-critical collateral reactions to significantly improve the chances of success of remediation projects. Stimulation of microbial degradation is a core element of various approaches for in situ remediation of contaminated sites. The SME’s microbiology laboratory is specialized in isolation, enrichment and fermentation, i.e. large-scale multiplication of pollutant-degrading microorganism. The SME looks for technical agreements with research or industry to jointly promote the development of new processes and technologies in the field of groundwater and soil remediation whereas the SME can be a partner, both in terms of technology, e.g. in drilling and injection technology and in terms of know-how in the field of biological-chemical-physic in-situ remediation technology. Besides, they are interested in research cooperations with corresponding institutes for development of remediation technologies and processes in the frame of a Horizon Europe project.
Type (e.g. company, R&D institution…), field of industry and Role of Partner Sought: 
Type of partner sought: Industry, academy, research organisation Specific area of activity of the partner and tasks to be performed: The company is looking for partners in the field of groundwater and soil remediation, engineering companies in the field of environmental technology, civil engineering, remediation of contaminated sites and research and development for new remediation options. The SME as a technology and know-how provider is open for collaboration projects with the industry as a service provider and the further development of processes and technologies in the groundwater and soil remediation sector under a technical co-operation agreement. The technical co-operation agreements will be established to pool capacities and to develop new technologies or processes and to handle shared projects around remediation. The company can be a partner in this area, both technologically, e.g. in drilling and injection technology, as well as in terms of know-how in the field of biological-chemical-physic in-situ remediation technology. The SME is also interested in participating in Horizon Europe projects under a research agreement.
Stage of Development: 
Already on the market
IPR Status: 
Secret Know-how
External code: 
TODE20210915001