biomaterials > e-book Biopolymer Processing Technologies The objective of this report is to provide an analysis of the current biopolymer industry from a perspective of markets, trends and drivers, economics and regulations, types of biopolymers, properties and characteristics of biopolymers, applications and future outlook. WWW.INTERTECHPIRA.COM Biopolymer Processing Technologies IntertechPira Business Intelligence Providing knowledge for niche, emerging and high-growth industries Published by About viewing this ebook Services IntertechPira This document will attempt to open in IntertechPira provides events, market research, publications, strategic and technical consulting to 19 Northbrook Dr full page viewing mode by default for niche, emerging and high-growth industries. Market coverage includes lighting and displays, clean Portland, Maine 04105 a more immersive reading experience energy, home and personal care, industrial biotechnology, performance materials and chemicals. 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Spear, Jr. [email protected] Find out more www.intertechpira.com Assistant editor Contact: Pira International Sales Mina Odavic Bill Allen [email protected] +44 (0)1372 802086 [email protected] Customer services manager Denise Davidson [email protected] T +44 (0)1372 802080 WWW.INTERTECHPIRA.COM table of contents Executive Summary 3 4 Introduction Biopolymer Growth Drivers Biopolymer Processing Biopolymer Applications Biopolymer Processing Applications for Biopolymers Biopolymers on the Horizon Feedstocks Early Applications Biomass Conversion Technologies Legislation 1 Four Key Sugar-Based Biopolymers Biopolymer Applications 4Polyhydroxyalkanoates (PHA) Biopolymer Process Conversion Issues 4Polyhydroxybutyrate (PHB) Key Conversion Processes 4Poly (3-Hydroxybutyrate-co-3-Hydroxyvalerate) 4Extrusion Objective and Methodology (PHBV) 4Extrusion Trends Objective 4Polylactic Acid (PLA) 4Extruding Biopolymers Scope Blends & Compounds Injection Molding Methodology 4Injection Molding Trends Definitions and Acronyms 4Injection Molding Biopolymers 4Thermoforming 49 2 4Thermoforming Biopolymers 4Other Conversion Processes 5 Biopolymers: State of the Industry Background Polymer Industry Today Biopolymers Biopolymers on the Horizon Future Outlook List of Tables and Figures WWW.INTERTECHPIRA.COM biomaterials > e-book > biopolymer processing technologies Executive Summary Introduction biopolymers and new ones will be integrated into a multi-crop bio- The future state of the biopolymer industry is very much linked to refinery capable of making many products The future state the dynamics and economics of the fossil-fuel industry on a global of the biopolymer basis. For example, what happens in China or the Middle East will The success of biopolymers is directly related to the state of the industry is very have consequences on the availability and price of oil, which in turn economy and competitive position of alternative / traditional much linked to has consequences on the economic attractiveness of biopolymers. fossil-fuel (petroleum, gas, coal) based feedstocks and polymers. the dynamics and Regional regulations, consumer perceptions on the environment Indeed, biopolymers will find future success and grow in demand as and process technology will also have impact; however it is the cost society is increasingly forced to cope with higher energy costs and economics of the and availability of fossil fuels that will most impact the commercial consumers finally recognize that a reduced carbon-footprint is good fossil-fuel industry production and use of biopolymers, based on competitive position. for business and the environment. on a global basis. Worldwide recognition of depleting fossil-fuel reserves has driven a Biopolymer growth will partly come from substitution of traditional slow shift to employ more biorenewable resources and reduce fossil- petrochemical-based polymers (petropolymers). Worldwide fuel consumption where possible. Despite this recognition, fossil-fuel consumption of all polymers peaked in 2009 at about 240 million consumption will continue to grow for at least the next twenty years, tonnes (about 530 billion pounds), valued at about $600 billion, while bio-fuel consumption is also growing, but at a faster rate. noted in Figure 0.1. As biorenewable resources, including all forms of biomass, become FIGURE 0.1 Global consumption of all polymers by region, 2009 (%) an increasingly important raw material and energy source, biomass conversion refineries will broaden technology and provide chemical Globally, biopolymers represent a small sub-sector of the much larger feedstocks, some of which will be converted to biopolymers. Unlike polymer industry as illustrated by Figure 0.2. Estimated biopolymer oil refineries, a bio-refinery will be capable of processing many consumption was about 880 thousand tonnes in 2009, including the CLICK TO VIEW different types of biomass, including sugars, cellulose, lignins and many polymer compounds that contain starch. The sector represents various plant oils. only about 0.4% of the overall global polymers industry. The difference in the production of biopolymers today vs. the future FIGURE 0.2 Global consumption of biopolymers by product, 2009 (%) is how the ‘process footprint’ will be structured. For example, today As noted in the figure, there are many types of biopolymers most biopolymers are produced in stand-alone single-technology currently available. This is due to the broad definition of what is facilities, based on a single feedstock like corn. Tomorrow the same CLICK TO VIEW 4 CHAPTER ES 1 2 3 4 5 TOC WWW.INTERTECHPIRA.COM biomaterials > e-book > biopolymer processing technologies Executive Summary classified as a biopolymer. As described earlier, our definition of four key factors seem to have the greatest impact on the future biopolymers are those polymers that are derived from biomass demand for biopolymers: sources, including chemical / monomer building blocks, polymers derived from these building blocks and in vivo polymer types. 1. Fossil fuel cost; the increasing cost for oil, gas and coal is not new, but what is new is the potential for The underlying backbone of this definition is based on the concept ‘economic de-linkage’ of fossil fuel costs as was seen in of bio-renewability; meaning the raw material is renewable. In other 2008. In July of 2008, oil prices spiked to over $135/ words, the polymer or its monomers can be produced (grown) again barrel. Although prices have declined since, a steady- and again through agricultural or other biologic routes. Therefore, state of $75-85/barrel is not considered an attractive biopolymers are often referred to as biorenewable polymers, which price range by consumers. Furthermore, the fear of support the business and environmental goals of sustainability. This higher prices is now branded in public memory; most concept should not be confused with polymers that are recyclable consumers and industries believe that costs will escalate and compostable; many thermoplastics are, but not all of these again in the future. plastics are biorenewable. a. Biopolymer demand is directly affected by the relative competitive cost of petropolymers, Biopolymer Growth Drivers which is strongly influenced by the cost of The impact of the recent, very severe recession has created much fossil fuel feedstocks. Oil priced at $75-85 uncertainty regarding the speed that markets will recover. On does not support capitalization of biopolymer September 21, 2010, the US government indicated that the projects compared to prices above $100/bbl. economy is now improving and that 2010-2011 will be a period of 2. Environmental regulations and the ‘carbon footprint’; renewal for industry. environmental regulations will play a key role in motivating more biopolymer consumption longer-term. More recently, the threat of a double-dip recession has been Green house gases (CO ) are believed by many as the 2 negated by economists, although the economy could still be cause of global warming. This perception, whether right impacted by continued socio-political events, such as high or wrong, has a strong impact on the promotion and unemployment and potentially higher oil pricing, as worldwide acceptance for the use of biopolymers. Biopolymers are consumer demand picks up. Either way, the economic consensus perceived as natural and cleaner, with a lower carbon seems to predict a full recovery is most likely to be seen after 2011. footprint compared to fossil fuel based polymers. Driven by the current economic forces and environmental issues, Furthermore, changes in global regulations are also 5 CHAPTER ES 1 2 3 4 5 TOC WWW.INTERTECHPIRA.COM biomaterials > e-book > biopolymer processing technologies Executive Summary beginning to have impact. phenomenon; they are less impacted by the 3. Global economies; today, the chemical and polymer global fluctuations that impact fossil-fuel industries are completely global, with supply derivatives. Market impacts are simply based agreements extending between all the major regions on the competitive price-point for fossil-fuel of the world. Therefore, fossil fuel feedstocks, chemical derivatives vs, biopolymers. and polymer derivatives are traded on a global basis. 4. Biorenewable technologies; continued improvement Amplifying this global interconnectivity of trade flow is in production and process technology that is used the global relationship with the Middle East as a key to produce building block chemicals and monomers, supply source and China as a key consumer. polymers, compounds and other components such a. As the world’s largest supply region for low as natural fiber will provide better performance and cost fossil-fuel and chemical production, economic incentives to motivate biopolymer acceptance the Middle East acts as the ‘price-point’ for by the market. In the future 2nd generation cellulose determining the competitive basis for global conversion technology for non-food crops such as grass chemical and polymer production economics. and wood will by-pass the issue of ‘food for fuels’ by b. China on the contrary is the largest consumer using biomass waste, which is then converted to bio- for Middle East hydrocarbon raw materials, monomers. including polymer consumption, and will soon be the largest polymer derivatives producer. There are many new biopolymer suppliers and technologies c. The polarity created between the largest that have created a broad portfolio of grades suitable for both supply and demand regional centers of the commodity and performance end uses. Examples of some of these Middle East and China can substantially key players are shown below in Table 0.1: impact other global economies, as well as global currency fluctuations. Therefore, more TABLE 0.1 Biopolymer producers, 2009 mature, slower growing economies such as the US and Europe are far more prone to the The large number of producers is beneficial to the industry because economic impacts of the Middle East and it provides the overall production and marketing asset base with China relationship. greater economic strength, as compared to previous years. This CLICK TO VIEW TABLE d. Biopolymer manufacturing costs however, larger asset base can be defined as a ‘critical mass’ that is large tend to be more of a ‘local-regional’ enough to self-perpetuate, as long as the drivers for market growth 6 CHAPTER ES 1 2 3 4 5 TOC WWW.INTERTECHPIRA.COM biomaterials > e-book > biopolymer processing technologies Executive Summary continue to provide equal or better performance and economic The general composition of woody plant (tree) ligno-cellulosic attributes. biomass is shown in Figure 0.3 below: Based on assessing future market, technology and economic drivers, FIGURE 0.3 Raw material biomass to building block intermediates it is not unreasonable to assume a conservative compound annual and monomers growth rate (CAGR) of 10% per year. Growing at this conservative Food crops such as corn will have substantially higher levels of growth rate, today’s (2009) biopolymer demand of 880 thousand hemicellulose (starches and sugars) and lower levels of lignin. The CLICK TO VIEW tonnes would reach 2.3 million tonnes by 2019. This is believed hemicellulose, cellulose and other starches/sugars contained in the very doable; in fact it is conceivable that this level could easily be biomass are key starting materials for producing the key chemical exceeded during the next ten years under the right circumstances, building blocks and derivatives that are used for polymerizing reaching a demand of 3.6 million tonnes by 2019. biopolymers. In some cases, the biopolymer is actually produced directly by the plant and then can be extracted and purified directly The biopolymer market is a growing and fertile market that has as a polymer. reached a stage of serious consideration and market acceptance. Biopolymers are here to stay – the question is ‘not if, but when’? As noted by this figure, today’s commercial biopolymer technology Worldwide, we will continue to undergo an extended period of is focused on using glucose (dextrose), a 6-carbon sugar from food energy transition and uncertainty with regards to the cost of fossil crops, as a starting material because it is the most economic to fuels vs. alternative biorenewable approaches. There is no doubt convert by fermentation chemistry to basic chemical building blocks another oil shortage is coming, but we don’t know when. There for biopolymer feedstock. Glycerol is also used for the polyol chain of is however sufficient asset critical mass that has been added to monomer products. However, the most abundant biomass component many biopolymer sectors that will drive new technologies and new is cellulose and lignin; however conversion is high-cost and tedious by approaches in achieving biorenewable solutions, many that are today’s standards. Yet, cellulose and lignin represent long-term target sustainable at today’s competitive fossil fuel price-points. resources for 2nd/3rd generation conversion technology. Biopolymer Processing The building block chemicals are molecules with multiple functional Current biomass conversion technology normally begins with groups that have the potential to be transformed into new families biomass derived starches, sugars and oils that are then converted to of useful molecules. Examples are shown in Table 0.2 below: key building block chemicals via biologic or chemical conversions, and subsequently converted to biobased chemicals and polymers. 7 CHAPTER ES 1 2 3 4 5 TOC WWW.INTERTECHPIRA.COM