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Energy Requirements (energy + requirement)

Distribution by Scientific Domains

Life Sciences	47%
Earth and Environmental Science	12%
Chemistry	11%
Medical Sciences	10%
Engineering	10%
Business, Economics, Finance and Accounting	4%

Distribution within Life Sciences

Ecology & Organismal Biology	23%
Ornithology	14%
Biotechnology (Life Sciences)	6%

Kinds of Energy Requirements

maintenance energy requirement

Selected Abstracts

Energy requirements of spasticity

DEVELOPMENTAL MEDICINE & CHILD NEUROLOGY, Issue 4 2001
Cheryl Hemingway MBCh B
Direct measurement of energy expended by spasticity in children with severe spastic quadriparesis is difficult. Insertion of an intrathecal baclofen pump in a 13-year-old boy with severe spasticity and profound mental retardation* resulted in an estimated 30 to 40% decrease in his spasticity. As he had been on a carefully calculated ketogenic diet and fed by gastrostomy, his precise caloric intake was known. Decrease in spasticity, on the same caloric intake, led to marked weight gain. Reduction of 100 calories intake resulted in new weight stability. It was possible therefore, to estimate indirectly energy used by his spasticity. This 100 calories, representing 34% of calories above his resting energy requirement, corresponded to an independently estimated 30 to 40% of caloric expenditure of his spasticity. It was concluded that when calculation of calories is critical, energy utilization by spasticity must be taken into consideration. [source]

The influence of rotary valve distribution systems on the energetic efficiency of regenerative thermal oxidizers (RTO)

INTERNATIONAL JOURNAL OF ENERGY RESEARCH, Issue 1 2008
Mario Amelio
Abstract On,off valve systems, commonly used in regenerative thermal oxidizer (RTO) plants, generate, during the opening time, a mass flow rate (MFR) which is constant. On the contrary, rotary valve systems, which are increasingly adopted in RTO plants, are characterized by variable MFR profiles. In this work, the energy requirements of two RTO systems, equipped with on,off or rotary valves, were determined using a home-developed numerical code. Energy performances were evaluated by calculating the thermal efficiency and pressure drop within structured or random packed bed RTO systems, at the same mean MFR. The results demonstrated that thermal efficiency was only moderately influenced by the valve system, and is slightly lower for the RTO with on,off valve. On the other hand, the study revealed that energy requirements of all RTO systems were basically unaffected by cycle duration, allowing valve rotational velocity to be freely set to maximize for other technical requirements. On the contrary, pressure drop was greatly influenced by the valve type and increased as variability in MFR function augmented. Moreover, the type of regenerator, structured or random packed bed, affected differently the total energy requirements (basically pumping energy plus auxiliary fuel). Energy requirements of structured and random regenerators were comparable only when volatile organic compounds concentration was lower than typical values encountered in the industrial practise. In other cases, structured regenerators RTO were more competitive. Finally, structured regenerators are usually the best choice when rotating valve distribution systems are adopted. Copyright © 2007 John Wiley & Sons, Ltd. [source]

Energy requirements of spasticity

Large-scale distribution and activity patterns of an extremely low-light-adapted population of green sulfur bacteria in the Black Sea

ENVIRONMENTAL MICROBIOLOGY, Issue 5 2010
Evelyn Marschall
Summary The Black Sea chemocline represents the largest extant habitat of anoxygenic phototrophic bacteria and harbours a monospecific population of Chlorobium phylotype BS-1. High-sensitivity measurements of underwater irradiance and sulfide revealed that the optical properties of the overlying water column were similar across the Black Sea basin, whereas the vertical profiles of sulfide varied strongly between sampling sites and caused a dome-shaped three-dimensional distribution of the green sulfur bacteria. In the centres of the western and eastern basins the population of BS-1 reached upward to depths of 80 and 95 m, respectively, but were detected only at 145 m depth close to the shelf. Using highly concentrated chemocline samples from the centres of the western and eastern basins, the cells were found to be capable of anoxygenic photosynthesis under in situ light conditions and exhibited a photosynthesis,irradiance curve similar to low-light-adapted laboratory cultures of Chlorobium BS-1. Application of a highly specific RT-qPCR method which targets the internal transcribed spacer (ITS) region of the rrn operon of BS-1 demonstrated that only cells at the central station are physiologically active in contrast to those at the Black Sea periphery. Based on the detection of ITS-DNA sequences in the flocculent surface layer of deep-sea sediments across the Black Sea, the population of BS-1 has occupied the major part of the basin for the last decade. The continued presence of intact but non-growing BS-1 cells at the periphery of the Black Sea indicates that the cells can survive long-distant transport and exhibit unusually low maintenance energy requirements. According to laboratory measurements, Chlorobium BS-1 has a maintenance energy requirement of ,1.6,4.9·10,15 kJ cell,1 day,1 which is the lowest value determined for any bacterial culture so far. Chlorobium BS-1 thus is particularly well adapted to survival under the extreme low-light conditions of the Black Sea, and can be used as a laboratory model to elucidate general cellular mechanisms of long-term starvation survival. Because of its adaptation to extreme low-light marine environments, Chlorobium BS-1 also represents a suitable indicator for palaeoceanography studies of deep photic zone anoxia in ancient oceans. [source]

Efficiencies of NaOH production methods in a Kraft pulp mill

INTERNATIONAL JOURNAL OF ENERGY RESEARCH, Issue 15 2009
Tobias Richards
Abstract There are several processes in a Kraft pulp mill where there is a need for sodium hydroxide, e.g. in the digester and the bleaching plant. The objective of this study is to perform a preliminary evaluation, intended to select the best alternative for producing sodium hydroxide on a Kraft pulp mill site. The first step of the evaluation consists of screening available processes for producing sodium hydroxide needed in the mill. The first step of the evaluation shows that the two best options for increasing the production of sodium hydroxide for internal use in a mill are the conventional lime cycle process or direct causticization with titanates. The second step of the evaluation compares the lime cycle and the titanate process using first and second law analyses to determine the energy requirement and the exergy efficiencies of both processes. Such analyses show a higher energy requirement and a lower exergy efficiency in the titanate process than in the lime cycle process without any heat integration. However, the titanate process shows better performance in terms of energy requirement and exergy efficiency than the lime cycle, if heat is integrated into both processes. The titanate process requires, in the best case, only 80% of the energy required for a fully heat-integrated lime cycle process. Copyright © 2009 John Wiley & Sons, Ltd. [source]

Ungulate foraging strategies: energy maximizing or time minimizing?

JOURNAL OF ANIMAL ECOLOGY, Issue 2 2001
Carita M. Bergman
Summary 1,Many classical models of ungulate foraging are premised on energy maximization, yet limited empirical evidence and untested currency assumptions make the choice of currency a non-trivial issue. The primary constraints on forage intake of ungulates are forage quality and availability. Using a model that incorporates these two constraints, we predicted the optimal biomass of forage patches for ungulate grazers using an energy maximizing vs. a time minimizing strategy. 2,We tested these predictions on wood bison (Bison bison athabascae Rhoads) grazing naturally occurring sedge (Carex atherodes Spreng). The digestive constraint was determined by a series of ad libitum feeding trials using sedge at different stages of growth. Sedge digestibility declined with biomass. Ad libitum intake of sedge by bison declined with sedge digestibility and thus decreased with sedge biomass. On the other hand, short-term sedge intake rates of wood bison increased with biomass. 3,Incorporation of these constraints resulted in the prediction that daily energy gain of bison should be maximized by grazing patches with a biomass of 10 g m,2, whereas a bison could minimize daily foraging time needed to fulfil its energy requirement by cropping patches with a biomass of 279 g m,2. 4,To test these quantitative predictions, we used a staggered mowing regime to convert even-aged stands of sedge to a mosaic of patches varying in quality and quantity. Observations of bison grazing these mosaics indicated that patches of biomass below 120 g m,2 were avoided, while patches of biomass 156 and 219 g m,2 were highly preferred, with the greatest preference for the latter. 5,These results indicate that bison were behaving as time minimizers rather than energy maximizers. Daily cropping times of free-ranging bison from the literature corroborate our results. [source]

The effect of weight loss by energy restriction on metabolic profile and glucose tolerance in ponies

JOURNAL OF ANIMAL PHYSIOLOGY AND NUTRITION, Issue 5 2008
S. Van Weyenberg
Summary In nine initially obese ponies, a weekly weight loss according to 1% of their ideal body weight was evaluated for its impact on insulin sensitivity and metabolic profile. Weight loss was obtained solely through energy restriction, initially at 70% of maintenance energy requirements, but to maintain constant weight loss, feed amount had to be decreased to 50% and 35% of maintenance energy requirement during the course of the trial. An oral glucose tolerance test (OGTT) was performed at weeks 0, 10 and 17. Fasted blood samples were taken on weeks 0, 3, 10, 17 for analysis of triglycerides (TG), non-esterified fatty acids (NEFA), creatine phosphokinase (CPK), lactate dehydrogenase (LDH), T3, T4 and leptin. Total average weight loss was 18.2%. When the OGTT was performed at weeks 0, 10 and 17, ponies had lost 0.22%, 9.9% and 16.3% of their initial weight respectively. Weight loss was associated with a decreased AUC for glucose and insulin. Moreover, greater % weight loss was associated with a significantly lower glucose peak and a lower area under the curve (AUC glucose). The lower glucose response after an OGTT in lean ponies was not the result of an increased insulin secretion, but an improved insulin sensitivity. Restricted feeding led to mobilization of TG and NEFA and to a reduced basal metabolism, with lower LDH, CPK, T3 and leptin. In conclusion: in obese Shetland ponies, weight loss at a rate of 1% of ideal body weight per week through restricted energy intake, ameliorated insulin sensitivity. [source]

Diurnal rhythm in heat production and oxidation of carbohydrate and fat in pigs during feeding, starvation and re-feeding

JOURNAL OF ANIMAL PHYSIOLOGY AND NUTRITION, Issue 7-8 2004
A. Chwalibog
Summary Diurnal rhythm in heat production (HE), oxidation of carbohydrate (OXCHO) and fat (OXF) was calculated from daily measurements of gas exchange in 12 pigs [20,40 kg live weight, (LW)] during 6 days of near ad libitum feeding, followed by 4 days of starvation and 4 days of re-feeding. All measurements, divided in five times intervals from 12.00 to 8.00, showed the highest values of HE, reflecting the animals' energy requirements, between 12.00 and 16.00 gradually declining to the lowest values between 4.00 and 8.00. The values measured in the interval 4.00,8.00 were considered as a basal metabolic rate (BMR), being in all measurements 25% lower than during 12.00,4.00. The lowest BMR was measured on the fourth day of starvation (21.7 kJ/h·kg0.75). By transition from feeding to starvation, OXCHO declined gradually, but was for 16 h able to cover the energy requirement with no contribution from OXF. The decline in OXCHO proceeded for 40 h and reached zero between 4.00 and 8.00 on the first day of starvation with the energy requirement being covered by OXF. The HE during starvation was 25,30% lower than during feeding caused by absence of feed-induced thermogenesis and by the transition from OXCHO to OXF. Immediately after re-feeding dietary carbohydrates were oxidized, however, there was still a substantial OXF, proceeding until the next feeding. From the second day of re-feeding the contribution of substrates to the total HE was re-established with no OXF and the same level of HE as during feeding. [source]

Effects of rumen-protected methionine in a low protein ration on metabolic traits and performance of early lactating cows as opposed to rations with elevated crude protein content

JOURNAL OF ANIMAL PHYSIOLOGY AND NUTRITION, Issue 5 2000
T. F. Kröber
Summary A 5-week experiment with 24 multiparous early lactating Brown Swiss cows was conducted to investigate the effects of supplementary rumen-protected methionine in conjunction with dietary protein reduction on metabolism and performance after 1 week of control measurement. Three rations containing 175, 150 and 125 g of crude protein/kg feed dry matter were supplemented with methionine. The fourth ration, also only containing 125 g of crude protein/kg dry matter, remained unsupplemented. The four treatment groups had a similar metabolic supply of other essential amino acids, protein and energy, as calculated by various approaches. The two low protein rations were, however, slightly deficient in ruminally degraded protein. Treatment effects remained low on feed intake, forage meal pattern, milk yield and fat as well as lactose content. In contrast, the content and yield of milk protein significantly declined only in the unsupplemented low protein ration relative to the initial value. Compared with this ration, the decline in milk protein yield was clearly delayed in the supplemented low protein ration. Blood plasma methionine tended to be reduced without supplementation and to be increased with additional methionine. Supplementation of methionine reduced other plasma amino acids. Plasma insulin, glucose, lactate, ketone bodies and aspartate amino transferase activity indicated a certain liver stress and a somewhat elevated energy requirement with high and particularly with low protein content (when unsupplemented). Methionine improved metabolic protein utilization, followed by the lowest plasma, urine and milk urea levels in the supplemented low protein diet. In conclusion, no major adverse effects were assessed under the conditions tested. Supplementation of methionine may nevertheless be useful in rations with particularly low protein content fed to early lactating cows in order to prevent negative long-term effects which were only visible here as trends. Zusammenfassung Auswirkungen von pansengeschütztem Methionin in einer Niedrigproteinration im Vergleich zu Rationen mit erhöhtem Rohproteingehalt auf Stoffwechselmerkmale und Leistung von frischlaktierenden Milchkühen In einem fünfwöchigen Experiment mit 24 frischlaktierenden Braunviehkühen wurden die Auswirkungen einer Ergänzung mit pansengeschütztem Methionin bei gleichzeitiger Reduktion der Proteinzufuhr nach einer einwöchigen Kontrollphase geprüft. Drei Rationen mit 175, 150 und 125 g Rohprotein/kg T wurden mit Methionin ergänzt. Eine weitere Variante, ebenfalls nur mit 125 g Rohprotein/kg T, wurde nicht supplementiert. Die vier Varianten stellten gemäß verschiedener Futterbewertungsysteme eine vergleichbare metabolische Versorgung mit den übrigen essentiellen Aminosäuren, Protein und Energie sicher. Die Niedrigproteinvarianten enthielten allerdings etwas zu wenig pansenabbaubares Protein. Futteraufnahme, Muster des Grundfutterverzehrs, Milchleistung sowie Fett-und Laktosegehalt der Milch zeigten nur geringe Reaktion auf die Behandlungen. Milchproteingehalt und -menge waren nur in der nicht ergänzten Niedrigproteinvariante relativ zum Ausgangswert signifikant verringert. Im Vergleich zur unsupplementierten Niedrigproteinration war dagegen der Abfall mit Ergänzung deutlich verzögert. Gegenüber dem Ausgangswert war die Methioninkonzentration im Blutplasma ohne Ergänzung tendenziell erniedrigt, mit Ergänzung erhöht. Es erfolgte eine Verringerung der Plasmakonzentration anderer Aminosäuren durch die Methioninergänzung der Niedrigproteinration. Die Plasmaniveaus von Insulin, Glucose, Laktat, Ketonkörpern und Aspartataminotransferase-Aktivität lassen auf eine gewisse Leberbelastung und einen etwas höheren Energiebedarf mit hohem und besonders mit niedrigem Proteingehalt (unsupplementiert) schließen. Die Zulage an Methionin verbesserte die metabolische Proteinverwertung, so dass die Harnstoffgehalte in Blut, Milch und Harn in dieser Niedrigproteinvariante am niedrigsten waren. Insgesamt ergaben sich keine grösseren ungünstigen Effekte unter den getesteten Bedingungen. Dennoch könnte die Ergänzung von Rationen mit besonders niedrigem Rohproteingehalt mit Methionin beim Einsatz an frischlaktierende Kühe hilfreich sein, um negative Langzeitwirkungen zu verhindern, die sich hier lediglich andeuteten. [source]

Growth performance and body composition of sub-yearling Persian sturgeon, (Acipenser persicus, Borodin, 1897), fed different dietary protein and lipid levels

JOURNAL OF APPLIED ICHTHYOLOGY, Issue 3 2007
M. Mohseni
Summary In order to evaluate the protein and energy requirement of Persian sturgeon (Acipenser persicus) sub-yearlings, eight experimental diets containing two protein levels (40% and 45%) and four lipid levels (10%, 15%, 20% and 25%) were tested. Sturgeons (W0 = 136.8 g) were fed the experimental diets to satiation four times daily for 150 days, resulting in a final mean weight of 375.8 g. Growth was significantly affected by lipid content of the diets. At 40% protein level, weight gain and specific growth rate (% per day) were significantly improved (P < 0.05) by increasing the dietary lipid (energy) content. Protein efficiency ratio (PER) was significantly affected by different dietary treatments for each dietary protein level tested, reaching a mean value of 3.58 in fish fed high lipid diets and a PER of 2.77 in low lipid diets. Results obtained in the present study suggest that the optimum dietary protein content for Persian sturgeon is 40%, with an estimated optimum protein-to-energy ratio of 18,20 mg kJ,1. [source]

Response of waterbird species to fluctuating water levels in tropical coastal wetlands

AFRICAN JOURNAL OF ECOLOGY, Issue 3 2010
Francis Gbogbo
Abstract Recent upsurges in the incidence of dam construction over rivers for farming and hydro electric power in the West African sub-region is a known promoter of fluctuating water levels on tropical coastal wetlands. Waterbirds, being one of the dominant fauna on wetlands, are key species that can be affected by fluctuating water levels. Waterbird census and water level monitoring at four coastal wetlands in Ghana revealed that different guilds (species assemblages) of waterbirds responded differently to fluctuating water levels. The populations density of birds in guilds 1 (ducks and cormorants), 3 (tactile surface foraging waders), 4 (pelagic foraging waders) and 5 (stalking herons and egrets) significantly (P < 0.05) increased linearly with decreasing water levels. The population density of birds in guilds 2 (visual surface foraging waders) and 7 (fishing terns) responded significantly (P < 0.05) in a second order polynomial function with optimum numbers occurring when water levels were neither too high nor too low. As far as farming and energy requirement are met from these dams, it is important that the ecological needs of waterbirds on wetlands are incorporated into the management of these dams so as to maintain appropriate water levels beneficial to waterbird populations. Résumé En Afrique de l'Ouest, la multiplication récente des constructions de barrages sur des cours d'eau pour les exploitations agricoles et la fourniture d'électricité est un facteur connu des fluctuations du niveau d'eau dans les zones humides côtières tropicales. Les oiseaux d'eau, éléments dominants de la faune des zones humides, sont des espèces clés qui peuvent être touchées par la fluctuation du niveau de l'eau. Les recensements des oiseaux d'eau et le suivi du niveau de l'eau dans quatre zones humides côtières du Ghana ont révélé que des guildes (assemblages d'espèces) différentes répondaient différemment à la fluctuation du niveau de l'eau. La densité de population des oiseaux dans les guildes 1 (canards et cormorans), 3 (échassiers se nourrissant en surface grâce aux corpuscules tactiles du bec), 4 (échassiers se nourrissant en profondeur) et 5 (hérons et aigrettes qui pêchent à l'affût) augmentait significativement (P < 0,05) de façon linéaire lorsque le niveau de l'eau baissait. La population des oiseaux des guildes 2 (échassiers chassant à vue à la surface) et 7 (sternes pêcheuses) répondait significativement (P < 0,05) dans une fonction polynômiale du 2d degré, les nombres optimum s'observant lorsque le niveau de l'eau n'est ni trop haut ni trop bas. À partir du moment où les exigences de l'agriculture et de l'énergie sont satisfaites grâce à ces barrages, il est important que les besoins écologiques des oiseaux d'eau des zones humides soient intégrés dans la gestion de ces barrages de façon à maintenir des niveaux d'eau favorables aux populations d'oiseaux d'eau. [source]

Removal of heavy metals and cyanide from gold mine wastewater

JOURNAL OF CHEMICAL TECHNOLOGY & BIOTECHNOLOGY, Issue 5 2010
Mike A. Acheampong
Abstract This paper reviews the technology and biotechnology to remove heavy metals (such as copper, arsenic, lead and zinc) and cyanide from contaminated wastewater. The paper places special emphasis on gold mine wastewater and the use of low cost materials as sorbent. Various biological as well as physicochemical treatment processes are discussed and compared on the basis of costs, energy requirement, removal efficiency, limitations and advantages. Sorption using natural plant materials, industrial and agricultural waste has been demonstrated to have the potential to replace conventional methods for the removal of heavy metals because of its cost effectiveness, efficiency and the local availability of these materials as biosorbent. The parameters affecting sorption, such as initial ion concentration, pH, sorbent dosage, particle size and temperature, are discussed. The overall treatment cost of metal and cyanide contaminated wastewater depends on the process employed and the local conditions. In general, technical applicability, cost-effectiveness and plant simplicity are the key factors in selecting the most suitable treatment method. Copyright © 2010 Society of Chemical Industry [source]

Application of Cavitational reactors for cell disruption for recovery of intracellular enzymes

JOURNAL OF CHEMICAL TECHNOLOGY & BIOTECHNOLOGY, Issue 8 2008
Parag R. Gogate
Abstract Cavitational reactors are a novel and promising form of multiphase reactors, based on the principle of release of a large amount of energy owing to the violent collapse of cavities. This paper presents an overview of cavitational reactors in the specific area of cell disruption for the recovery of intracellular enzymes, in terms of the basic aspects, different reactor configurations including recommendations for optimum operating parameters and review of earlier literature reports. It has been observed that under optimized conditions, cavitational reactors can reduce the energy requirement for the release of intracellular enzymes by an order of magnitude compared with conventional cell disruption techniques used on an industrial scale. However, problems associated with efficient scale-up and operation at conditions required for industrial scale, hamper the successful utilization of cavitational reactors at this time. Some recommendations have been made for the future work required to realize the dream of harnessing the spectacular effects of cavitation phenomena. Copyright © 2008 Society of Chemical Industry [source]

Energy optimization for the design of corn-based ethanol plants

AICHE JOURNAL, Issue 6 2008
Ramkumar Karuppiah
Abstract In this work, we address the problem of optimizing corn-based bioethanol plants through the use of heat integration and mathematical programming techniques. The goal is to reduce the operating costs of the plant. Capital cost, energy usage, and yields,all contribute to production cost. Yield and energy usage also influence the viability of corn-based ethanol as a sustainable fuel. We first propose a limited superstructure of alternative designs including the various process units and utility streams involved in ethanol production. Our objective is to determine the connections in the network and the flow in each stream in the network such that we minimize the energy requirement of the overall plant. This is accomplished through the formulation of a mixed-integer nonlinear programming problem involving short-cut models for mass and energy balances for all the units in the system, where the model is solved through two nonlinear programming subproblems. We then perform a heat integration study on the resulting flowsheet; the modified flowsheet includes multieffect distillation columns that further reduces energy consumption. The results indicate that it is possible to reduce the current steam consumption required in the transformation of corn into fuel grade ethanol by more than 40% compared to initial basic design. © 2008 American Institute of Chemical Engineers AIChE J, 2008 [source]

Nutritional value of African yambean (Sphenostylis stenocarpa L): improvement by lactic acid fermentation

JOURNAL OF THE SCIENCE OF FOOD AND AGRICULTURE, Issue 6 2005
Marshall A Azeke
Abstract Tropical African yambean (Sphenostylis stenocarpa L) is an under-utilised hardy, protein-rich legume. Antinutrients and the excessively long cooking time (4,6 h), among other factors, limit the food use of African yambean seeds. To reduce these limitations, non-traditional, less energy-consuming processing methods are required. Seeds of different varieties were (i) examined for ingredients and (ii) fermented with Lactobacillus plantarum. Comparisons with traditionally cooked beans were made. Protein content and in vitro protein digestibility were increased slightly by fermentation or cooking. Reductions in trypsin and ,-amylase inhibitor activity and tannin ranged from significant to complete. The contents of potentially very toxic cyanogenic glycosides and flatulence-causing ,-galactosides were high in raw beans. Reduction by fermentation (by 85%) was clearly more effective than by traditional cooking (10,20%). The results demonstrate (i) that fermentation can substantially improve the nutritional quality and (ii) that the energy requirement to produce a basic consumable fermented food from African yambean is only 10% of that of traditional cooking. On these grounds, widespread application of lactic acid fermentation by individuals or small-scale industries would be advantageous in the context of small-household economy, environmental protection, health and long-term sustainable agriculture in Nigeria. Copyright © 2005 Society of Chemical Industry [source]

Physical activity, food intake, and body weight regulation: insights from doubly labeled water studies

NUTRITION REVIEWS, Issue 3 2010
Klaas R Westerterp
Body weight and energy balance can be maintained by adapting energy intake to changes in energy expenditure and vice versa, whereas short-term changes in energy expenditure are mainly caused by physical activity. This review investigates whether physical activity is affected by over- and undereating, whether intake is affected by an increase or a decrease in physical activity, and whether being overweight affects physical activity. The available evidence is based largely on studies that quantified physical activity with doubly labeled water. Overeating does not affect physical activity, while undereating decreases habitual or voluntary physical activity. Thus, it is easier to gain weight than to lose weight. An exercise-induced increase in energy requirement is typically compensated by increased energy intake, while a change to a more sedentary routine does not induce an equivalent reduction of intake and generally results in weight gain. Overweight and obese subjects tend to have similar activity energy expenditures to lean people despite being more sedentary. There are two ways in which the general population trend towards increasing body weight can be reversed: reduce intake or increase physical activity. The results of the present literature review indicate that eating less is the most effective method for preventing weight gain, despite the potential for a negative effect on physical activity when a negative energy balance is reached. [source]

Natural gas in India's energy management

OPEC ENERGY REVIEW, Issue 1 2007
Muhammad Azhar
Thanks to the continuous implementation of liberalisation and reforms, the Indian economy has become a significant energy consumer. Further, the fast growing economy is expected to result in massive and unprecedented growth in energy consumption in India. This is sure to have important ramifications for the domestic energy sector, as well as global energy market. At the domestic level, this resulted in new discoveries of hydrocarbon resources. However, the growth in energy consumption is so high that the old, as well as newly discovered hydrocarbon resources would not be able to fulfil the growing demand for energy in the Indian economy. Hence, Indian economy would remain dependent on the global market for the supply of hydrocarbon resources. India has been adopting various strategies to manage her energy requirement and Natural gas is slated to play an important role in India's energy management. This paper therefore, attempts to study the importance of natural gas in this context. [source]

The Future of Gaseous Fuels in Hong Kong

OPEC ENERGY REVIEW, Issue 1 2001
Larry Chuen-ho Chow
There are three types of gaseous fuel in Hong Kong. Natural gas, exclusively used for power generation and imported under a 20-year contract, accounted for 16 per cent of total primary energy requirements in 1998. Towngas, manufactured from naphtha, and liquefied petroleum gas are the two other kinds, accounting for about 9.5 per cent of the final energy requirement in recent years. The first part of this paper analyses the competition between these two gaseous fuels since 1984, elucidating in detail how towngas came to dominate the gaseous fuel market. The government of the Hong Kong Special Administrative Region would like to boost the use of natural gas in Hong Kong, on account of its environmental benefits and cost competitiveness. It is considering the possibility of using natural gas to replace the other two gaseous fuels and adopting the common carrier system, in order to spur competition in the gaseous fuel market. The second part of the study evaluates the feasibility of converting to natural gas and opening up the pipeline system, putting forth a rough schedule for the whole process. [source]

A comparative study on cost and life-cycle analysis for 100,MW very large-scale PV (VLS-PV) systems in deserts using m-Si, a-Si, CdTe, and CIS modules

PROGRESS IN PHOTOVOLTAICS: RESEARCH & APPLICATIONS, Issue 1 2008
Masakazu Ito
Abstract This paper is a study of comparisons between five types of 100,MW Very Large-Scale Photovoltaic Power Generation (VLS-PV) Systems, from economic and environmental viewpoints. The authors designed VLS-PV systems using typical PV modules of multi-crystalline silicon (12·8% efficiency), high efficiency multi-crystalline silicon (15·8%), amorphous silicon (6·9%), cadmium tellurium (9·0%), and copper indium selenium (11·0%), and evaluated them by Life-Cycle Analysis (LCA). Cost, energy requirement, and CO2 emissions were calculated. In addition, the authors evaluated generation cost, energy payback time (EPT), and CO2 emission rates. As a result, it was found that the EPT is 1·5,2·5 years and the CO2 emission rate is 9,16,g-C/kWh. The generation cost was 11,12 US Cent/kWh on using 2 USD/W PV modules, and 19,20 US Cent/kWh on using 4 USD/W PV module price. Copyright © 2007 John Wiley & Sons, Ltd. [source]

Dietary energy requirement of piracanjuba fingerlings, Brycon orbignyanus, and relative utilization of dietary carbohydrate and lipid

AQUACULTURE NUTRITION, Issue 3 2006
M.R. BORBA
Abstract Ten isonitrogenous casein,gelatin-based diets were formulated to contain five estimated metabolizable energy concentrations (10.92, 12.29, 13.63, 14.82 and 16.16 kJ g,1) at two carbohydrate-to-lipid ratios (CHO : L, 5.3 and 12.8, g : g) in a 5 × 2 factorial arrangement. Each diet was assigned to triplicate groups of 11 piracanjuba fingerlings (5.25 ± 0.14 g) and fed to apparent satiation twice a day for 90 days. Higher daily weight gain was obtained by fish fed the 13.63 kJ g,1 diets for both CHO : L ratios. There was a significant reduction of feed consumption when dietary energy concentration increased above 13.63 kJ g,1. Feed conversion ratio and apparent net energy retention improved as dietary energy increased. Apparent net protein retention tended to be lower in the highest and lowest dietary energy concentrations. The results suggest that dietary lipid energy was more efficiently utilized by piracanjuba fingerlings than carbohydrate energy. Body composition and hepatosomatic index (HSI) were not influenced by dietary CHO : L ratio. However, an increase in dietary energy concentration beyond 13.63 kJ g,1 resulted in a significant increment in lipid deposition, while body moisture and HSI decreased. Our findings indicate that at 300 g kg,1 dietary crude protein, a CHO : L ratio of 5.3 is recommended for piracanjuba, and the required energy is either 13.63 kJ g,1 if raised for aquaculture or 14.82 kJ g,1 if destined to stock enhancement. [source]

Limited LCAs of pharmaceutical products: merits and limitations of an environmental management tool

CORPORATE SOCIAL RESPONSIBILITY AND ENVIRONMENTAL MANAGEMENT, Issue 2 2003
Anne Marie de Jonge
This article explores both the merits and the limitations of life cycle analysis (LCA) as an environmental management tool in the framework of the pharmaceutical industry. In this study, limited LCAs in the form of product lifecycle-oriented energy balances were established for two rather different pharmaceutical products. Primary energy requirements served as the single indicator for the products' direct and indirect environmental impacts. The functional units of the products were defined as the one year treatments of average patients. The results of the case studies indicate that the portion of the active substance in the pharmaceutical end product is an important predictor for the breakdown of energy requirements and thus environmental impacts over the life cycle. Despite its limitations, the energy balances provide first-hand indications of where eco-efficiency measures should be taken. In this sense, the limited LCAs served as a useful environmental management tool. Copyright © 2003 John Wiley & Sons, Ltd. and ERP Environment [source]

Foraging energetics of arctic cormorants and the evolution of diving birds

ECOLOGY LETTERS, Issue 3 2001
David Grémillet
Efficient body insulation is assumed to have enabled birds and mammals to colonize polar aquatic ecosystems. We challenge this concept by comparing the bioenergetics of cormorants (Phalacrocorax carbo) living in temperate and arctic conditions. We show that although these birds have limited insulation, they maintain high body temperature (42.3 °C) when diving in cold water (1,10 °C). Their energy demand at these times is extremely high (up to 60 W kg,1). Free-living cormorants wintering in Greenland (water temperature ,1 °C) profoundly alter their foraging activity, thus minimizing time spent in water and the associated high thermoregulatory costs. They then meet their daily food demand within a single intense dive bout (lasting 9 min on average). Their substantial energy requirements are balanced by the highest predatory efficiency so far recorded for aquatic predators. We postulate that similar behavioural patterns allowed early diving birds (Cretaceous) to colonize cold coastal areas before they evolved efficient insulation. [source]

Biofilm Growth and Bed Fluidization in a Fluidized Bed Reactor Packed with Support Materials of Low Density,

ENGINEERING IN LIFE SCIENCES (ELECTRONIC), Issue 2 2004
R.A. Saucedo-Terán
Abstract Support materials of low-density for fluidized bed reactors provide several operational advantages, including lower energy requirements and proper biofilm growth balance. The aim of this investigation was to study the extent of biofilm growth and bed fluidization in an experimental reactor, using polyester resin (,pr,=,1220,kg/m3) and vitrified expanded perlite (,vep,=,1710,kg/m3) as alternative support materials to conventional silica sand. A noteworthy amount of biofilm was observed to be attached to both support materials from the very beginning of the bioreactor operation. Nevertheless, there were significant variations in biofilm growth and activity over the course of the experimental trials. For both perlite and polyester beds, the highest biofilm mass and the highest total number of mesophilic bacteria were observed between the 7th and the 10th day, showing a steady state trend at the end of the experimental runs. The chemical oxygen demand (COD) removal levels were concomitant with biofilm mass and total mesophilic bacteria changes, although the polyester bed efficiency was slightly higher than that for the perlite bed. As expected, the polyester bed was fluidized at a lower re-circulation flow compared to the perlite bed. Reactor back-washing was not required for these support materials since biomass excess was adequately separated by means of a special internal device. The efficiencies of removal of organic matter achieved were acceptable (up to 78,%) despite the low volume of the support material (25,%) and the low hydraulic retention time (30,min). [source]

Large-scale distribution and activity patterns of an extremely low-light-adapted population of green sulfur bacteria in the Black Sea

Changes in faecal bacteria associated with concentrate and forage-only diets fed to horses in training

EQUINE VETERINARY JOURNAL, Issue 9 2009
B. WILLING
Summary Reasons for performing study: Diets rich in readily fermentable carbohydrates, fed traditionally to meet the increased energy requirements of the performance horse, are associated with a number of gastrointestinal disorders that involve disturbances in the intestinal microbiota, however, these changes are poorly understood. Objectives: With the long-term objective of improving intestinal health and to increase understanding of the relationship between diet and microbiota, the effect of feeding Standardbred horses a high-energy forage-only (F) diet was studied compared to a more traditional forage-concentrate (C) diet on faecal microbiota. Methods: Diets were fed in a cross-over design to 6 mature geldings on a scheduled training regime, both periods consisting of 29 days. DNA was extracted from faecal samples collected at 4 time points from each period, bacterial 16S rRNA genes were amplified and community composition assessed by terminal-restriction fragment length polymorphism, cloning and sequencing. Faecal pH and cultivable lactic acid bacteria (LAB) and enterobacteria were also assessed on the final collection day of each period. Results: Diet F resulted in a microbial composition that was more stable between sampling periods and had lower counts (P<0.05) of cultivable LAB and specifically members of the Streptococcus bovis/equinus complex. Motile and swarming Lactobacillus ruminis was present in all horses on diet C and not in horses on diet F. Diet C also resulted in the increase (P<0.05) in members of Clostridiaceae cluster III and a concomitant reduction (P<0.05) in an unknown group of Bacteroidales. Conclusions and potential relevance: The greater microbial stability and reduction in LAB and members of the Streptococcus bovis/equinus complex on diet F indicate an opportunity to develop feeding strategies that support equine health and welfare. Novel changes identified in the faecal microbiota that resulted from carbohydrate inclusion merit further investigation. [source]

LKB1 is essential for the proliferation of T-cell progenitors and mature peripheral T cells

EUROPEAN JOURNAL OF IMMUNOLOGY, Issue 1 2010
Peter Tamás
Abstract The serine/threonine kinase LKB1 has a conserved role in Drosophila and nematodes to co-ordinate cell metabolism. During T lymphocyte development in the thymus, progenitors need to synchronize increased metabolism with the onset of proliferation and differentiation to ensure that they can meet the energy requirements for development. The present study explores the role of LKB1 in this process and shows that loss of LKB1 prevents thymocyte differentiation and the production of peripheral T lymphocytes. We find that LKB1 is required for several key metabolic processes in T-cell progenitors. For example, LKB1 controls expression of CD98, a key subunit of the L -system aa transporter and is also required for the pre-TCR to induce and sustain the regulated phosphorylation of the ribosomal S6 subunit, a key regulator of protein synthesis. In the absence of LKB1 TCR-,-selected thymocytes failed to proliferate and did not survive. LBK1 was also required for survival and proliferation of peripheral T cells. These data thus reveal a conserved and essential role for LKB1 in the proliferative responses of both thymocytes and mature T cells. [source]

Development of an Expert System Shell Based on Genetic Algorithms for the Selection of the Energy Best Available Technologies and their Optimal Operating Conditions for the Process Industry

EXPERT SYSTEMS, Issue 3 2001
D.A. Manolas
The development of genetic algorithms started almost three decades ago in an attempt to imitate the mechanics of natural systems. Since their inception, they have been applied successfully as optimization methods, and as expert systems, in many diverse applications. In this paper, a genetic-algorithm-based expert system shell is presented that, when combined with a proper database comprising the available energy-saving technologies for the process industry, is able to perform the following tasks: (a) identify the best available technologies (BATs) among the available ones for a given process industry, and (b) calculate their optimal design parameters in such a way that they comply with the energy requirements of the process. By the term BAT is meant the available energy-saving technology, among the existing ones in the market, that is the best for the case. [source]

Assessing the variability of hydrographic processes influencing the life cycle of the Sicilian Channel anchovy, Engraulis encrasicolus, by satellite imagery

FISHERIES OCEANOGRAPHY, Issue 1 2005
JESÚS GARCÍA LAFUENTE
Abstract Three oceanographic surveys carried out in the Sicilian Channel during the spawning season (June to July) of anchovy (Engraulis encrasicolus) showed a close relationship between anchovy reproductive strategy and important hydrographic structures. A time series of satellite-derived sea surface temperature images of the Sicilian Channel were analysed by means of empirical orthogonal functions and the dominant empirical modes were studied in detail. The first empirical mode captured much of the original variance and reproduced the trajectory of the Atlantic Ionian Stream (AIS), the principal hydrodynamic feature of the area. The time coefficients of modes 1 and 2 had seasonal signals which, when combined, accounted for the enhancement of the thermal front, clearly visible off Cape Passero (southernmost coast of Sicily) during summer. As the area constituted the principal nursery ground of the Sicilian Channel anchovy, the combination of the time coefficients of these modes was considered a potential indicator of the food particle concentration usually associated with oceanic fronts, which provided the energy requirements for larval growth. Mode 3 described the north/south displacements of the mean AIS trajectory, which modified the surface temperature regime of the anchovy spawning habitat. Therefore, the time coefficients of this mode were used as a potential indicator of anchovy spawning habitat variability. The capability of time coefficients of modes 2 and 3 to modify the main pattern depicted by mode 1 were tested successfully against in situ oceanographic observations. [source]

Environmental and economic analysis of the fully integrated biorefinery

GCB BIOENERGY, Issue 5 2009
ELIZABETH D. SENDICH
Abstract Cellulosic biofuel systems have the potential to significantly reduce the environmental impact of the world's transportation energy requirements. However, realizing this potential will require systems level thinking and scale integration. Until now, we have lacked modeling tools for studying the behavior of integrated cellulosic biofuel systems. In this paper, we describe a new research tool, the Biorefinery and Farm Integration Tool (BFIT) in which the production of fuel ethanol from cellulosic biomass is integrated with crop and animal (agricultural) production models. Uniting these three subsystems in a single combined model has allowed, for the first time, basic environmental and economic analysis of biomass production, possible secondary products, fertilizer production, and bioenergy production across various regions of the United States. Using BFIT, we simulate cellulosic ethanol production embedded in realistic agricultural landscapes in nine locations under a collection of farm management scenarios. This combined modeling approach permits analysis of economic profitability and highlights key areas for environmental improvement. These results show the advantages of introducing integrated biorefinery systems within agricultural landscapes. This is particularly true in the Midwest, which our results suggest is a good setting for the cellulosic ethanol industry. Specifically, results show that inclusion of cellulosic biofuel systems into existing agriculture enhances farm economics and reduces total landscape emissions. Model results also indicate a limited ethanol price effect from increased biomass transportation distance. Sensitivity analysis using BFIT revealed those variables having the strongest effects on the overall system performance, namely: biorefinery size, switchgrass yield, and biomass farm gate price. [source]

Biological energy requirements as quantitative boundary conditions for life in the subsurface

GEOBIOLOGY, Issue 4 2004
T. M. HOEHLER
ABSTRACT All life requires energy, which must be extracted from the environment. For all known life, free energy must be available at finite minimum levels in order to be usefully harnessed and must be delivered at finite minimum rates in order to support basic biochemical integrity and function. While seldom tested in the high energy light- and oxygen-based metabolisms of the surface biosphere, the magnitude of these requirements , the biological energy quantum (BEQ) and maintenance energy (ME) requirements, respectively , is considerable with respect to the potential metabolisms and energy sources that characterize the deep subsurface realm. As such, they constitute a fundamental constraint on the possible nature, distribution, and activity of microbial life in that environment. Because the energy released in a chemical transformation can be equated to the concentrations of substrates and products, both the BEQ and ME requirements define the minimum substrate concentration and minimum substrate production rate that must be sustained by a given environment for it to be capable of supporting life. The magnitudes of the BEQ and ME requirements are sensitive to a range of environmental parameters that may vary significantly in the subsurface. Temperature exerts a particularly strong control and is among the most important parameters to be considered in evaluating the energetic habitability of subsurface environments. [source]