Simulation and optimization of IGCC technique for power generation and hydrogen production by using lignite Thar coal and cotton stalk

The purpose of this study was to simulate and to optimize integrated gasification for combine cycle (IGCC) for power generation and hydrogen (H2) production by using low grade Thar lignite coal and cotton stalk. Lignite coal is abundant of moisture and ash content, the idea of addition of cotton stalk is to increase the mass of combustible material per mass of feed use for the process, to reduce the consumption of coal and to increase the cotton stalk efficiently for IGCC process. Aspen plus software is used to simulate the process with different mass ratios of coal to cotton stalk and for optimization: process efficiencies, net power generation and H2 production etc. are considered while environmental hazard emissions are optimized to acceptance level. With the addition of cotton stalk in feed, process efficiencies started to decline along with the net power production. But for H2 production, it gave positive result at start but after 40% cotton stalk addition, H2 production also started to decline. It also affects negatively on environmental hazard emissions and mass of emissions/ net power production increases linearly with the addition of cotton stalk in feed mixture. In summation with the addition of cotton stalk, overall affects seemed to negative. But the effect is more negative after 40% cotton stalk addition so it is concluded that to get maximum process efficiencies and high production less amount of cotton stalk addition in feed is preferable and the maximum level of addition is estimated to 40%. Gasification temperature should keep lower around 1140 °C and prefer technique for studied feed in IGCC is fluidized bed (ash in dry form) rather than ash slagging gasifier

Mathematical analysis of maximum power generated by photovoltaic systems and fitting curves for standard test conditions

The rural electrification is characterized by geographical dispersion of the population, low consumption, high investment by consumers and high cost. Moreover, solar radiation constitutes an inexhaustible source of energy and in its conversion into electricity photovoltaic panels are used. In this study, equations were adjusted to field conditions presented by the manufacturer for current and power of small photovoltaic systems. The mathematical analysis was performed on the photovoltaic rural system I-100 from ISOFOTON, with power 300 Wp, located at the Experimental Farm Lageado of FCA/UNESP. For the development of such equations, the circuitry of photovoltaic cells has been studied to apply iterative numerical methods for the determination of electrical parameters and possible errors in the appropriate equations in the literature to reality. Therefore, a simulation of a photovoltaic panel was proposed through mathematical equations that were adjusted according to the data of local radiation. The results have presented equations that provide real answers to the user and may assist in the design of these systems, once calculated that the maximum power limit ensures a supply of energy generated. This real sizing helps establishing the possible applications of solar energy to the rural producer and informing the real possibilities of generating electricity from the sun.

Analyzing the efforts in furrow openers used in low power planters

The furrow openers for no-till system should be easy to penetrate the soil, generate low levels of soil mobilization and require a little traction force. Thus, the aim of this research was to compare six hoe-type furrow openers, four of industrial manufacturing and two handcrafted models, which were used in planters in the region of Pelotas, Brazil. The parameters for comparison among these furrow openers were the horizontal (Fh) and vertical (Fv) forces acting on the tip of the hoe and the cross-sectional area mobilized in the furrow. The experimental design was randomized, with six treatments (furrow openers) from T1 to T6, with four repetitions, constituted by their passage through plots of 20 x 3 m. The force data were collected by load cells and a signal conditioner. The determination of the mobilized area in the furrow was done by a micro soil profilometer. It was concluded that the furrow openers T1, T4 and T6 presented the lowest values of horizontal force (statistically equal and ranging between 1,034 and 1,230 N) and that T1 and T2 produced the highest vertical forces downwards (statistically identical and varying between 749 and 845 N). The furrow openers T1, T2, T4, T5 and T6 generated soil mobilization statistically equal and between 0.006993 and 0.008933 m².

Tuulivoimatoimialan yrityksen nykytilan analyysi ja asiakaslähtöinen liiketoimintastrategia

Tämä tutkimus on tehty tuulivoimatoimialalla toimivan yrityksen toimeksiannosta. Tutkimuksen tavoitteena oli luoda kohdeyritykselle liiketoimintastrategiaehdotus. Kohdeyrityksen toiveena oli saada tutkimukseen myös teorian näkemys asiakaslähtöisyydestä. Tutkimuksen on tarkoitus antaa yritykselle pohtimisen aihetta liiketoimintastrategian luomiseen ja toimia pohjana, kun yhtiön johto tekee päätöksiä tulevasta strategiasta. Tutkimuksessa tehtiin perusteellinen tuulivoimatoimialan analyysi toimialaraporttien ja yrityksen johdon ja henkilökunnan haastattelujen avulla. Lisäksi kartoitettiin kohdeyrityksen nykytilaa ja strategista asemaa alalla suorittamalla SWOT-analyysi ja toimialan rakenteellinen analyysi. Tutkimuksessa selvitettiin myös keinoja kilpailuedun saavuttamiseksi asiakaslähtöisyyden avulla. Tietoja yrityksen toiminnasta on kerätty haastattelemalla yhtiön johtoa ja henkilökuntaa sekä osallistumalla aktiivisesti yhtiön jokapäiväiseen toimintaan. Tutkimuksen tuloksena syntyi kohdeyrityksen liiketoimintatilanteeseen soveltuva liiketoimintastrategia, jolla on mahdollista saavuttaa kilpailuetua tuulivoimatoimialalla. Asiakaslähtöisyys huomioitiin tutkimuksessa tuomalla asiakasjohtamisen malli strategiatyöhön. Tutkimuksessa luotiin kaksi erilaista segmentointimallia, joiden avulla yritys voi kohdentaa toimintaansa oikeille asiakkaille oikealla tavalla. Asiakaslähtöinen liiketoimintastrategiaehdotus muodostettiin hyödyntämällä teorian näkemyksiä ja työssä tehtyjen analyysien tuloksia.