 |
 |
case studiesContents
Formulation of an Industrial CleanerA client asked us to provide cost estimates of a liquid cleaner (solvent) material of potential interest to them. The client had only a small sample, and knew nothing about the composition. Using our background in chemical materials and knowledge of analytical techniques, we sent samples to selected commercial laboratories (whose work quality meets our criteria) requesting specific chemical and instrumental analyses, and performed certain functionality analyses ourselves because these tests were not available from any of our service labs. Our interpretation of data enabled us to associate the cleaning functionality of the sample with the wetting ability of one of the minor component as opposed to the solvency capability of the bulk ingredient. With this finding as a clue, we were able to match the compositional analysis of the sample with a specific commercial product. We concluded this sample was likely to have been prepared by adding a particular masking fragrance to the commercially available product. Based on that characterization, we then developed several alternative formulations, obtained samples of commercial components, and prepared test batches of prototype products for client's review and selection. These formulations matched the cleaning performance of the client's sample, avoided an undesirable clouding problem present in that material, and provided the client with alternative fragrances. To complete the project, we provided estimates for manufacture based on quotes from materials suppliers near to the client's facilities. Valuation of a Polymer Modified Asphalt TechnologyChemicaLogic conducted a valuation study of a polymer modified asphalt technology in the U.S. paving and roofing applications. The valuation methodology involved a combination of adjusted book value method, potential income approach and market comparable approach. In applying the income approach, we assessed the market potential of the U.S. paving market, which is undergoing a structural change as a result of the US Department of Transportation Strategic Highway Research Program (SHRP), competitive economics, and client's marketing plan in developing a cash flow forecast. Business Valuation of a High Temperature Hazardous Waste Reformation TechnologyChemicaLogic participated in a study to develop a valuation for a venture business which has been investing aggressively in research and development activities, production assets, and commercial relationships. The assignment included a broad spectrum of due-diligence investigations on the merits of the technology, market quantification, verification of client developed cash flow forecasts and determination of fair market values for fixed assets and intellectual properties. Fuel Reformers for Fuel Cell VehiclesFor a program sponsored by the Department of Energy to develop hydrogen fuelling options for fuel cell powered vehicles, Mr. Cheng and Dr. Saini, during their tenure with Arthur D. Little, Inc., conducted a landmark study assessing the feasibility of on-board hydrogen generation. They adapted conventional fuel reforming technologies including steam reforming, autothermal reforming and non-catalytic partial oxidation to meeting the unique requirements of vehicle application. Mr. Cheng and Dr. Saini conducted comparative analysis of systems integrating proton exchange membrane (PEM) and phosphoric acid (PAFC) fuel cells with each of the fuel reforming technologies for a number of fuel candidates, such as, natural gas, gasoline, methanol, and ethanol. Based on this study, a hardware demonstration program of a multi-fuel reformer is being pursued at Arthur D. Little. Review of Fuel Processing Catalysis Development Related to Vehicular Fuel CellsChemicaLogic performed a study for an international vehicle producer on the development status on the catalytic aspects of the fuel processing as related to the vehicular fuel cell application. In this study, we outlined major progresses as revealed in the public literature on:
Ammonium Nitrate Fume ReductionFor a producer of ammonium nitrate using a prilling tower tehcnology for product forming, Mr. Cheng and Dr. Saini developed a mathematical model to characterize the performance of the prilling tower. The computer model, which includes a mathematical description of the prill formation mechanism, was used to understand the impact of process conditions on ammonium nitrate fume generation. This study helped the client reduce emissions and also improve the prilling operation. Global Chlor-Alkali Supply-Demand AnalysisFor a major alkali producer, ChemicaLogic participated in a project to prepare a global supply-demand balance for chlorine, caustic soda and soda ash. An in-depth interview program was conducted in North America, Latin America, Europe, Japan, Taiwan, Korea, China and Australia to develop a thorough understanding of the market-growth drivers, technology shifts, product substitution and regulatory threats impacting chlorine and sodium oxide demand. Markets examined included chlorinated solvents, chlorofluorocarbons, detergents, urethane chemicals, pulp and paper, alumina, glass, water treatment, desulfurization, petroleum refining, and inorganic chemicals. As part of this project, ChemicaLogic constructed a global demand forecast model which included a 25-year database of country-by-country demand for chlorine, caustic soda and soda ash. The model correlates the demand data with country specific demand drivers. This model makes accurate forecasts for soda ash demand on a country-by-country basis. Purification System for a Helium Production PlantFor a supplier of gas separation equipment, Mr. Cheng assisted in the redesign of a cryogenic adsorption system to improve its process performance. This adsorption system was an integral part of a high-purity helium production system at one of the Bureau of Mines' Helium production facilities. The task involved evaluation of the performance different adsorbents, the effect of operating pressure and temperature as well as regeneration conditions on the performance of the system. Chemical Gas Generation Formulation For Self-Inflating PackagingChemicaLogic assisted a client in developing a self-inflating system for protective packaging. The client came to us with the need for a chemical-based gas generator that does not involve the use of hazardous chemicals or air compression systems at the point of packaging articles for shipment. We first examined the need and methods currently used in protective packaging, as well as the application economics. We brainstormed to select a list of potential, cost-effective gas generation systems as formulation candidates. We screened the candidates in initial tests of reaction rate, and then selected systems for further testing of reaction rate and management of reaction residues. After developing procedures for physically holding the reactants for ease of handling, we provided samples and the development results to client for further development in his own facilities. Developed The Conditions To Join Polymeric MaterialsA material converter was experiencing difficulties in forming a liquid-tight seal between the surface of a plastic fitting and two layers of a thin polymeric film that was laminated to a non-woven fabric. ChemicaLogic examined the physical evidence of the defective joints and requested specific chemical analysis tests by a commercial laboratory, including detailed measurement of the melting characteristics of the materials. Based on our analysis of the resulting test data, we prescribed specific temperature ranges and special mechanical modifications to the seal machine in order to ensure that both temperature and applied pressure in the vicinity of the weld are correctly controlled. These changes have enabled the manufacturer to make acceptable seals. Developing Fire-Resistance Fabrics From A New Fiber Spinning TechnologyA client was interested in identifying new applications in fire-resistance fabric market for some newly acquired bi-component fiber spinning technologies. Following the tasks of analyzing the technology and understanding the needs and market potential of the existing fire-resistance fabric market, ChemicaLogic proposed a number of product concept of specific combinations exterior sheath and core filament as promising applications for the client to pursue for prototype manufacture. Testing And Redesign Of Self-Heating Hair-Curler ProductAt the request of a manufacturer of personal care products, we provided independent testing and evaluation of the effects that thermal and chemical emissions from a prototype self-heating hair curler system might have on the curler users as well as on others in the. For this evaluation, we needed data on the distribution of air temperatures and vapor concentrations of selected chemical vapors in the air within a simulated usage environment. We installed a mannequin head form (plastic foam) in a large open top container to provide a relatively calm air space around the "head", mounted devices for air sample collection and thermal sensing at pre-selected locations, and then attached curlers as they would be used in the normal activation and use cycles. The test results indicated that the curlers were indeed generating undesirable chemical vapors, which were carried by thermally induced air currents directly to the inhalation zones of users and their helpers. Based on this evidence, the client asked us to recommend an alternative chemical system that could be activated by addition of water, but would not emit any undesirable vapors. We identified some potentially usable systems (based on oxidation of iron) that, while less energetic than the original system, appeared to be satisfactory for the application. Developing A Fluid Formulation For A Toy ApplicationA toy manufacturer interested in developing a toy humanoid, of which the color of the face and certain other body parts could be changed by activating a mechanical actuator. The client requested assistance in formulating the color changing fluid. Based the extremes of the environmental conditions that the toy may endure during the life cycle of the toy (i.e. manufacturing, shipping, storage, active use, inactive use and disposal), we proposed a formulation from industrial chemicals, a actuation mechanism from commercially available components and conducted a failure mode analysis for the client to carry-out further prototyping by the client's own development group. Oxygen GeneratorA manufacturer of solid-state chemical oxygen generation systems used for emergency breathing sources in aircraft was experiencing potentially serious product problems due to the sudden appearance of unacceptably high concentrations of trace contaminants in the oxygen product gas of QC test units. The generation reactions involve thermal decomposition of molten chlorate salts. No change in raw materials or manufacturing processes could be found to account for the change. Working as a third party, independent of their internal QC and research activities in the problem area, we carried out an independent investigation of their materials and processes at our laboratories, using both their materials and alternative sources, and exploring the range of processing conditions around those used by the client. We instrumented our test equipment so that we were able to monitor temperatures and gas atmospheres in various processing steps. The test data generated enabled us to identify likely causes of the undesirable impurity and to recommend changes to their raw materials and processes that could decrease the chances of forming the impurity. Our efforts and results have formed the basis for subsequent issuance of two new U.S. patents, which were assigned to the client. Chemical Processing of a New DrugMr. Cheng was retained by a major pharmaceutical company, which was developing a novel drug material based on a water-soluble polymer, to assess the technical and economic feasibility of the developing processes based on results of a bench-scale development effort. Under Mr. Cheng's direction, the project team conceptualized a process flow sequences, developed a preliminary design of the plant, based on detailed heat and material balances, which provided a basis for estimating the capital investment and production cost. It was concluded that the process technology examined would be not able to yield the desired product with required reproducibility due to the chemical nature of the polymer backbone. It was suggested that an alternative chemistry be used to provide a structurally defined polymer backbone. |
| ChemicaLogic Corporation 99 South Bedford Street, Suite 207 Burlington, Massachusetts 01803 USA Tel: (781) 425-6738 Fax: (781) 425-6741 |
Copyright ©
1995-2007 ChemicaLogic Corporation. All rights reserved.
clc.support@chemicalogic.com |