999 resultados para Oil industries.
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Chemically synthesized surfactants are widely used for many purposes in almost every sector of modern industry. Surface-active compounds of biological origin (biosurfactants) have been gaining attention in recent years because of some advantages such as biodegradability, low toxicity, diversity of applications and functionality under extreme conditions. Microbial biosurfactants are useful in bioremediation of water and soil, enhanced oil recovery, and in many formulations of petrochemical, chemical, pharmaceutical, food, cosmetic and textile industries. The importance of biosurfactants, their characteristics and industrial applications are discussed.
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Tämän kandidaatintyön tavoitteena on selvittää ja analysoida venäläisten yritysten kansainvälistymistä investointien näkökulmasta. Aihetta tutkittiin Venäjältä ulospäin suuntautuneiden investointien valossa. Kansainvälistymistä analysoitiin konkreettisten yritysesimerkkien kautta. Työssä käytettiin lähteinä aikaisempia aiheesta tehtyjä tutkimuksia sekä esimerkkeinä olevien yritysten internetsivuja. Venäläisten yritysten kansainvälistyminen alkoi toden teolla vasta Neuvostoliiton hajoamisen jälkeen. Käytännössä yritysten kansainvälistyminen on lähtenyt kasvuun vasta 2000-luvulla. Viime vuosien aikana Venäjä on ollut yksi suurimmista ulospäin investoijista nousevien markkinatalouksien joukossa. Suurimmat Venäjältä ulospäin investoijat toimivat öljy- ja kaasuteollisuudessa sekä metalli- ja kaivosteollisuudessa. Kyseiset teollisuudenalat ovat riippuvaisia raaka-aineiden maailmanmarkkinahinnoista. Vuoden 2008 lopulla alkanut talouskriisi on alentanut raaka-aineiden hintoja ja näin vaikuttanut yritysten toimintaan. Yritykset ovat joutuneet talousvaikeuksiin, joka on vaikuttanut myös niiden investointeihin ulkomaille. Tällä hetkellä Venäjä on riippuvainen luonnonvaroihin perustuvista teollisuudenaloista, mutta tulevaisuudessa uusilla yrityksillä on mahdollisuuksia nousta kansainvälisien yritysten joukkoon. Raaka-aineiden hintojen kääntyessä jälleen nousuun myös luonnonvaroihin perustuvat yritykset tulevat nousemaan ahdingosta ja jatkamaan kansainvälistymistä.
Sustainability of palm oil production and opportunities for Finnish technology and know-how transfer
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The global demand for palm oil is growing, thus prompting an increase in the global production particularly in Malaysia and Indonesia. Such increasing demand for palm oil is due to palm oil’s relatively cheap price and versatile advantage both in edible and non-edible applications. Along with the increasing demand for palm oil, particularly for the production of biofuel, is a heated debate on its sustainability. Ecological degradation, climate change and social issues are among the main sustainability issues pressing the whole palm oil industry today. Clean Development Mechanism (CDM) projects fulfilling the imperatives of the Kyoto Protocol are starting to gain momentum in Malaysia as reflected by the increasing registration of CDM projects in the palm oil mills. Most CDM projects in palm oil mills are on waste-to-energy, cocomposting, and methane recovery with the latter being the most common. The study on greenhouse gases (GHG) in the milling process points that biogas collection and energy utilisation has the greatest positive effect on GHG balance. On the other hand, empty fruit bunches (EFB) end-use as energy and high energy efficiency of the mill have the least effect on GHG balance of the mill. The range of direct GHG emissions from the palm oil mill is from 2.5 to 27 gCO2e/MJCPO, while the range of GHG emissions with all indirect and avoided emissions included is from -9 to 29 gCO2e/MJCPO. Comparing this GHG balance result with that of the EU RES-Directive suggests a further check on the values and emissions consideration of the latter.
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Aging is associated with common conditions, including cancer, diabetes, cardiovascular disease, and Alzheimer"s disease. The type of multi‐targeted pharmacological approach necessary to address a complex multifaceted disease such as aging might take advantage of pleiotropic natural polyphenols affecting a wide variety of biological processes. We have recently postulated that the secoiridoids oleuropein aglycone (OA) and decarboxymethyl oleuropein aglycone (DOA), two complex polyphenols present in health‐promoting extra virgin olive oil (EVOO), might constitute a new family of plant‐produced gerosuppressant agents. This paper describes an analysis of the biological activity spectra (BAS) of OA and DOA using PASS (Prediction of Activity Spectra for Substances) software. PASS can predict thousands of biological activities, as the BAS of a compound is an intrinsic property that is largely dependent on the compound"s structure and reflects pharmacological effects, physiological and biochemical mechanisms of action, and specific toxicities. Using Pharmaexpert, a tool that analyzes the PASS‐predicted BAS of substances based on thousands of"mechanism‐ effect" and"effect‐mechanism" relationships, we illuminate hypothesis‐generating pharmacological effects, mechanisms of action, and targets that might underlie the anti‐aging/anti‐cancer activities of the gerosuppressant EVOO oleuropeins.
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This paper is about location decisions of Creative Industries and the role played by existent spatial distribution and agglomeration economies of these kinds of activities in order to analyse their location determinants. Our main statistical source is the REIC (Catalan Manufacturing Establishments Register), which has plant-level microdata on location of new plants. Using Count Data Models, our main results show that location determinants are quite similar between both industries and also both non-creative and creative firms are positively influenced by the specialisation level in Creative Industries of municipalities. Moreover, our results provide evidence that the unobserved ‘creative milieu’ has a limited impact on attracting firms. Keywords: creative industries, creative milieu, count data models, industrial location, agglomeration economies
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1887/06/01 (A1,N4).
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1887/04/15 (A1).
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1887/06/15 (A1,N5).
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1887/09/15 (A1,N11).
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1888/04/01 (A2,N23)-1888/04/15.
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1888/04/15 (A2,N24)-1888/04/30.
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1888/07/15 (A2,N30)-1888/07/31.
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1887/11/15 (A1,N15).
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1887/12/01 (A1,N16).
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1888/09/01 (A2,N33)-1888/09/15.
