Challenges & InnovationsAn Environmentally Conscious Evolution - A Sustainable Industrial Revolution
In a remarkably short time, economic globalization has changed the world's economic order, bringing with it new challenges and opportunities for innovation. In order for companies to compete in this new environment they must become more innovative and respond more effectively to consumers' needs and preferences.
The Klean Team possesses extraordinary skill sets for creating and deploying innovative green energy solutions. We have a longstanding tradition of producing breakthrough cleantech solutions and have a wealth of creative people behind us. Klean has laid the foundations for the transformation of our old and outdated energy infrastructure into the new and renewable energy future. We are supplying some of largest markets in the world with innovative products, solutions and services on a large-scale commercial level.
Klean is formulating, influencing and, where appropriate, working with many groups to aid in implementing new technologies, policies and programs to increase the world's energy efficiency. Klean ensures that innovation is thoroughly understood by our customers and partners alike. Our approach is comprehensive, thereby contributing to greater economic stability, better competitiveness, real sustainability and more job creation.
The Klean Team has built, installed, analyzed, supervised, investigated, integrated, developed, designed, assessed, characterized, problem-solved, evaluated, reviewed, upgraded, facilitated, expanded, converted, modeled, and planned a multitude of projects for customers worldwide. Providing innovative solutions to energy and environmental challenges is what we live for. Below are just a few of the challenges we've solved.
|Review of over 300 pyrolysis and gasification technologies and consultation on over 2,500 projects using best commercially available technologies with EPCM deal structure components.||EU, NA, Asia|
|Review of alternative sites for energy-from-waste gasification plants and consultation with statutory planning authorities and the Environment Agency on mitigation of local impacts.||UK|
|Preparation of facility permitting application and planning consents for a pyrolysis plant designed for mixed wastes.||UK|
|Preparation of a new tire stewardship plan for a provincial government and its transition to industry stewardship.||Canada|
|Process evaluation and HAZOP (hazard and operability) risk analysis of a 12MW gasifier for ASR (automotive shredder residue) contaminated with heavy metals and other chemical wastes.||UK|
|Installation, supervision, commissioning and technical assessment of the expansion of a carbon black manufacturing facility integrated with a tire carbonization facility for power production within a closed grid.||Japan|
|Investigation and installation of an integrated steam super-heater fueled by pyrolysis gas produced via a new tire pyrolysis plant.||Norway|
|Development and design of a new tire pyrolysis plant with the Government of the Slovak Republic.||Slovakia|
|Technical, economic, and risk analysis of continuous gasification of waste polyolefin plastics at an operating refinery.||UK|
|After 3rd party analysis to inform an investment valuation built and installed an integrating waste tire gasification and plastic liquefaction plant into an eco-industrial park.||Germany|
|Supervision of the commissioning of a wood-waste pellet mill plant and characterization of wood as input for a gasification power plant and problem solving of combustion failures.||Canada|
|Review and assessment of detailed engineering for a new wood waste fired power plant including fuel analysis, gasification & combustion tests, biocrude production and evaluation of fuel pre-treatment methods.||Canada|
|Evaluation of alternative gasification methods for sludge, municipal solid waste and wood chips to produce bio-oil (crude).||USA|
|Review of landfills and gas and leachate management operations plans and assessment of potential for landfill gas utilization including an evaluation of a waste-to-energy facility to inform an investment valuation.||Kuwait|
|Environmental upgrade of beef processing plant including review of designs for electrical switch to fuel cell integration using biogas and plans for an integrated rendering plant and biodiesel production facility with zero waste.||USA|
|Installation and completion of an environmental upgrade of CHP plant including review of designs for MSW processing and the disposal and recycling of ash and slag residues.||Japan|
|Technical assessment of the expansion of a biomass co-firing power generation facility.||UK|
|Investigation of an integrated 4000 tonnes per day MSW gasification plant and a water desalination plant.||UAE|
|Analysis of the economic and technical performance of several operating wind farms to inform an investment valuation.||UAE|
|Built and installed a new Coal-to-liquids conversion project where services included design, tendering and installation of a gasification & CHP plant for processing 1100 to 1500 tonnes per day, tendering and supervision of the conversion from coal to gas with 10 reactors.||China|
|Development and assessment of an integrated in situ gasification oil-sands project which included design and engineering for a heavy oil upgrading facility for the production of 50,000 barrels per day.||Canada|
|Investigation and review of a integrated wind-powered skyscraper development.||UAE|
|Risk analysis of gasification plants including calculation of deflagration loads and modeling of gas and flue gas flows.||UK|