File Name:Braun Outlook 300 Manual.pdf


ENTER SITE »»» DOWNLOAD PDF


CLICK HERE »»» BOOK READER


Size: 2830 KB
Type: PDF, ePub, eBook
Uploaded: 20 May 2019, 13:18
Rating: 4.6/5 from 649 votes.
tatus: AVAILABLE
Last checked: 12 Minutes ago!
eBook includes PDF, ePub and Kindle version
In order to read or download Braun Outlook 300 Manual ebook, you need to create a FREE account.

✔ Register a free 1 month Trial Account.
✔ Download as many books as you like (Personal use)
✔ Cancel the membership at any time if not satisfied.
✔ Join Over 80000 Happy Readers

Sign in Forgot Password. My Bench Close Sign In Not A Member. Sign Up Join MedWrench OK name type Receive Summary Emails. Improve your ability to monitor safe medication practices. FORUMS View All (1) Ask a New Question 0 Replies -CJM 8 years ago 8 years ago error code 150 Pump displays error code 150.By continuing to browse the site you are agreeing to our use of cookies. Please review our Privacy Policy for more details. All Rights Reserved. The Braun is a modular infusion device system designed to prevent manual programming errors by notifying clinicians if pre-programmed dose limits have been exceeded during manual programming and titration. Talk to a sales representative for details. All logos, product names and content are trademarks and copyrights of the respective owners. Parts, accessories and internal batteries are covered by a 90-day limited warranty unless otherwise specified. Any stated warranties are in effect from the date of sale. US MED-EQUIP reserves the right to repair, replace or refund (less cost of shipping) any item(s) requiring warranty service. The customer is responsible for return shipping costs and required to contact US MED-EQUIP prior to shipping the item(s) back. Learn more about our Limited Warranty Policy. Continued use of our website without having changed your browser settings confirms your acceptance of these cookies. For details please see ourBenefits include: For product usage, please refer to B. Braun product labeling. You must have JavaScript enabled in your browser to utilize the functionality of this website. Product Features:Product must be returned within 30 day of purchase with a RGA from Willow Medical. After obtaining an RGA, each return must include the following information: Non-defective orders may be returned, provided customer has obtained prior authorization from Willow Medical. http://www.ceral.pl/ceral/pliki/brinkmann-smoke-n-grill-manual-gas.xml

braun outlook 300 manual, braun outlook 300 manual download, braun outlook 300 manual pdf, braun outlook 300 manual free, braun outlook 300 manual 2017, b braun outlook 300 service manual.

Defective product, properly noted damaged product and returns that are the result of a Willow Medical error may be returned at Willow Medical expense and for a full credit. All returns most be sent back to 114 Tradition Trail Holly Springs NC 27540.We carry an extensive inventory of Infusion Pumps for sale and rental. Foundation. The greatest potential forHospitals are faced with the challengeBraun Medical Inc are 2 manufacturersMedication Practices, this evolvingVanderveen, PharmD, MS, executiveImprovement.Safety System. This system is the nextThe pump has the capability ofThe system is equipped with theThis software is designed to detect IVGuardrails Continuous Quality Improvement. Event Tracker creates aALARIS. Released 8 years ago, this systemSafety Software. The Signature Edition. Gold Infusion System consists of theModel 7130 and the dual-channel. Signature Edition Gold Infusion System. Model 7230. Both systems supportSignature series. More hospitals are inVanderveen said.Another questionALARIS conducts computer-based training,That health system is comprised ofWe found that the point of greatestDr. Maddox said that 6Dr. Maddox. The second is the continuousVitoux, RN, MSN, CCRN, manager ofVitoux said.The goal is to pickThe OutlookThe Outlook 300 has all the technologyIV orders to the infusion pump, andThe facilityVitoux said that they use a 3-Tex, is very familiar with B. Braun's. Outlook system. In March 2004, the. Outlook 200 pumps. Personnel at theTourville said that, across the board,The Outlook 200 has many benefits.We like theTourville.Outlook 400 when it becomes available. As for technology at the hospital,As the technologyAll Rights Reserved. 2 Clarke Drive Suite 100 Cranbury, NJ 08512 P:609-716-7777 F:609-716-9038. http://www.centre-brassens.com/upload/document/brinkmann-smoke-n-grill-gas-manual.xml

It was modeled on the Guide to Electric Power in Texas, conceived of and prepared in 1997 by the Houston Advanced Research Center (HARC) and the Center for Energy Economics (CEE) now based in the Bureau of Economic Geology at the Jackson School of Geosciences, the University of Texas at Austin (then at the University of Houston). The First Edition of the Mexico guide was based largely on work undertaken since 1991 by Dr. Francisco Garcia independently and jointly with Dr. Michelle Michot Foss of CEE to explore issues in Mexico’s energy sector. Dr. Garcia, an emeritus professor at the Instituto Tecnologico y de Estudios Superiores de Monterrey (ITESM), now retired, enjoyed a long career teaching and conducting research on energy and resource economics. The ITESM is one of the most prominent universities in Mexico and an international partner with the University of Texas-Austin. The ITESM is a campus-wide higher education system with campus locations throughout Mexico. Dr. Garcia and Dr. Foss published joint research on Mexico’s natural gas, LPG and electricity sectors. Ms. Wainberg collaborates with Dr. Michot Foss and undertakes separately exploration of energy issues in the Americas, with special interests in national oil companies helping to lead CEE’s work in this arena. Ms. Wainberg also helps to develop upstream and midstream components of CEE’s ongoing research. This updated Second Edition included assistance from and collaboration with researchers and students at Mexico’s Instituto Tecnologico Autonomo de Mexico (ITAM) through a joint grant to UT and ITAM through the Higher Education for Development (HED) TIES (Training, Internships, Exchanges, and Scholarships) program. From 2007-2011 the HED TIES grant facilitated research and programmatic exchanges between UT and ITAM and, with extensive matching support from UT, four graduate scholar positions in the UT Jackson School of Geosciences Energy and Earth Resources master’s program. Mr. https://congviendisan.vn/vi/3-speed-synchromesh-manual-0

Andres Gallardo, a TIES scholar, provided assistance with this updated edition. Ms. Hazel Blackmore, then director of ITAM’s Department of International Studies-Center on InterAmerican Studies and Programs provided crucial assistance and support with both the guide update and the UT-ITAM grant. Mr. Severo Lopez also participated in the guide update as an ITAM alumnus. Ms. Kristin Batres, administrative assistant at CEE, provided research support and final translation; Ms. Elizabeth Paris, MultiFuels, provided an initial translation; and Ms. Jamie Coggin, senior graphics designer, designed and updated the Guide layout. This edition includes data through 2011. Up-to-date information for some indicators is available from SENER,, and CFE, The Bureau of Economic Geology’s CEE is a university-based center of excellence on energy value chain economics. Our main focus is on the frameworks that best support sustainable, commercially successful energy resource and infrastructure investments worldwide. Research, training (largely in conjunction with the Red McCombs School of Business), and outreach projects have been undertaken by the CEE team in North America and worldwide. The CEE is supported by both private and public sector donors. This report may not be resold, reprinted, or redistributed for compensation of any kind without prior written permission from the Center for Energy Economics, Bureau of Economic Geology, the University of Texas at Austin or Instituto Tecnologico y e de Estudios Superiores de Monterrey. GUIDE TO ELECTRIC POWER IN MEXICO 1 FACTS ON MEXICO ELECTRIC POWER SEN Electricity Sales Mexico’s Secretaria de Energia (SENER) reports internal Mexican electricity consumption as follows: industries decreased between 2008 and 2009 due to a global economic recession. However, in 2011 SEN sales of electricity to medium size and large industrial customers grew 4.9 percent and 11.6 percent, respectively. http://elreehavia.com/images/braun-mx-2050-manual.pdf

In October 2009 the government closed LFC and CFE took over its operations. SEN sales include electricity sales made by independent power producers (IPPs) to CFE which CFE then resells to final customers. SEN sales exclude electricity generated by end-users, largely industrial companies, for their own use. CFE generates, transmits and distributes electricity across all of Mexico. Until October 2009 LFC was mainly responsible for transmission and distribution of electricity in Mexico City (Distrito Federal, DF or Federal District). Sales of electricity to consumption includes SEN electricity sales as well as electricity generated by self-suppliers. Total Internal Electricity Consumption During the period 1999-2011, total sales of electricity in Mexico grew at an average rate of 2.4 percent per year. This growth has been driven by increases in residential and industrial electricity consumption, including sharp increases in electricity generated by end-users for their own use (self supply). (An example of the latter is an industrial facility that generates electricity for its own consumption, termed “self-generation” or “generation for selfconsumption.”) Self supply of electricity grew at an average rate of 8.5 percent per year over the same period. Lower growth rates after 2007 reflect the impact of the global economic recession beginning in 2008. 10 Electricity consumption and economic growth (as measured by gross domestic product or GDP) are closely intertwined as indicated in Figure 1. The growth rates in both GDP and electricity consumption declined in 2008 and 2009. Electricity use per person or per capita tends to be higher in more advanced economies and lower in countries with less developed economies. Richer countries use less electricity to generate an additional dollar of GDP. http://www.siscard.com/wp-content/plugins/formcraft/file-upload/server/content/files/16284738688bbc---bunk-bed-manual.pdf

In Mexico, energy intensity remains relatively Variacion anual del consumo de energia electrica del secor industrial Variacion anual del PIB manufacturero 8 6 Percent 4 2 0 -2 1990 1993 1996 1999 2002 2005 2008 2011 -4 -6 QAe2102 -8 Figure 1. Historical Evolution of GDP and Domestic Electric Power Consumption Table 1. Total Domestic Mexican Electricity Consumption, 1999-2011 (GWh). AAGR is annual average growth rate. Thus, Mexico has yet to demonstrate widespread, sustained, declining energy intensity observed in other industrial countries. More than 35 million customers (representing over 100 million inhabitants) bought electricity from CFE in 2011. Electric service was provided to approximately 95 percent of Mexico’s population. About 88 percent of these customers are residential. In most countries, large volume industrial customers pay lower tariffs (the final price for delivered electricity)2 than low volume commercial, residential and agricultural users. This lower tariff for large volume 1 The average actual exchange rate between U.S. dollars and Mexican pesos for the year cited is used in this guide to convert Mexican pesos to US dollars and vice versa. 2 The tariff for electric power includes all costs associated with generating, transmitting, and distributing electricity, including operating and maintenance costs and depreciation of the electricity systems and including a rate of return that allows for reinvestment in the electricity systems. Costs for electric power are generally apportioned across classes or categories of customers that reflect amount of usage and the cost to serve particular customer classes. See section on Evolution of Electricity Prices in Mexico. 3 customers reflects lower delivery costs and more stable demand. www.cocuknorologu.com/image/files/canon-imagerunner-5070-manual-pdf

(Low voltage, dense distribution systems required to serve residential and small commercial “load” or demand are relatively expensive to install and maintain, and some locations, residential and commercial load can be highly seasonal.) In Mexico, however, residential customers pay only slightly less than large industrial customers and agricultural customers pay the lowest price of all. In Mexico electricity prices are set below costs of production as can be seen in Table 6 (facing page). These subsidies distort price signals and increases demand above what it would be if electricity prices reflected actual costs of production. Finally, the bulk of the subsidies go to the non-poor. These regional variations are related to differences in climate and urbanization as well as the different compositions of and concentrations of industrial activity. Electricity consumption in the Northwest and Southeast regions grew at a faster rate than that of the other three regions from 1999 to 2011. In the Northwest, the states of Sonora and Baja California account for about 70 of electricity consumption in the region due to industrial and population growth in cities like Tijuana and Mexicali. Electricity consumption in Baja California Sur grew 5.8 from 1999 to 2011 due to the growth of tourism and related real estate development. The state of Nuevo Leon is the largest electricity consumer (34.5 of the total) in the Northeast region. The water pumping system of Cutzamala is a large electricity consumer. Evolution of Electricity Prices in Mexico The price of electricity in Mexico is a function of volume demanded, voltage, user type, and service (interruptible versus firm or guaranteed deliveries). There are currently over 30 tariff categories. The tariff structure is gradually being adapted to reflect the variety of services desired and consumer preferences. {-Variable.fc_1_url-

Electric tariffs in Mexico are set by the Secretaria de Hacienda (Ministry of Finance) and are thus linked to the government’s economic and development strategy for the country as a whole. Unlike practices in most industrially advanced countries, Mexico’s independent electric sector regulator, the Comision Reguladora de Energia (CRE) is not responsible for setting electric tariffs. As a result, electric tariffs frequently have not been compatible with the needs of a financially self-sustaining power sector. Tariffs have tended to lag production costs for all consumer types. On the assumption that industry could pay a stiffer rate, there continues to be a cross-subsidy from industrial and commercial users to residential and agricultural users. Industries complain that their electricity rates hamper their ability to compete in global markets. And with artificially low tariffs, residential and agricultural customers have little price incentive to moderate demand. Making and Moving Electricity The main function of an electrical power system is to transmit all electricity demanded reliably, and in the exact amount, where it is needed. In addition, it should provide for unforeseen contingencies arising from larger than expected demand or system outages. Generation involves the process of producing electric energy by utilizing other primary forms of energy such as fossil fuels (coal, natural gas or oil), uranium (nuclear), or renewable energy sources (solar, wind) into electricity. Transmission is the movement or transfer of electric energy over an interconnected group of high voltage lines between points of supply and points at which it is transformed to lower voltage. At lower voltage, electricity is delivered to final consumers such as factories or across low voltage local distribution systems to smaller end users such as homes or businesses. Transmission and distribution services are provided exclusively by stateowned CFE and LFC (until October 2009). https://uniondeautoescuelas.com/wp-content/plugins/formcraft/file-upload/server/content/files/1628472528e32b---bunker-hill-safes-45891-manual.pdf

Generation Electric power plants use coal, lignite, natural gas, fuel oil, and uranium to make electricity. Renewable fuels such as moving water, solar, wind, geothermal sources and biomass are also used. The type of fuel, its cost, and generating plant efficiency can determine the way a generator is used. For example, a natural gas generator with steam turbines has a high marginal cost but can be brought on line quickly, making it useful for peak periods of demand. Coal, lignite, and nuclear units have lower marginal costs but cannot be brought on line quickly. They are used primarily to provide the base load of electricity (e.g. the constant requirement of the power system which is demanded continuously). Costs for fuel, construction and operations and maintenance vary greatly among types of power plants. For example, renewable generation plants, such as solar or wind, have virtually no fuel costs but are expensive to manufacture and install and can be expensive to maintain. Nuclear and coalfueled plants have low fuel costs but are more expensive to build and maintain. Coal units also incur additional costs for meeting air quality standards. Prior to October 2009 LFC served Mexico City and the surrounding areas and CFE served the rest of the country. LFC bought approximately 95 percent of its marketed electricity from CFE. In October 2009 CFE took over LFC’s operations. Reforms to the Law of Public Service of Electricity (Ley del Servicio Publico de Energia Electrica) passed in 1992 and implemented in 1993 permits cogeneration3 and generation for self-consumption by private entities (principally industries) as well as generation by IPPs with the requirement that essentially all IPP output is sold to CFE. In 2011, CFE accounted for about 67 percent of effective installed generation capacity in Mexico and private generators accounted for 33 percent of capacity. cnsilos.com/d/files/canon-imagerunner-5055-user-manual-pdf

Installed Generation Capacity Generation Providers At the end of 2011, Mexico had installed generation capacity of 61,570 MW, an increase of 677 MW over 2010. By constitutional law, electricity for public service consumption must be provided by state owned CFE and LFC (until October 2009). CFE is a large public enterprise with total assets at year end 2011 The installed generation capacity of SEN at the end of 2011 was 52,512 MW or 85 percent of total installed capacity. The SEN capacity consists of CFE and LFC capacity and the IPP capacity under contract to CFE and represents 85 percent of installed generation capacity. SEN installed generation capacity between 1999 and GUIDE TO ELECTRIC POWER IN MEXICO Total Generation 2011 has grown at an average annual rate of 3.1 percent compared to average annual sales growth of 2.4 percent over the same period. The regional distribution of SEN generation capacity can be seen in Table 9. The Northeast and Southeast regions account for 61 percent of SEN’s installed generation capacity. The Southeast region has the most hydroelectric generation of any region and also has the sole nuclear generation facility (Laguna Verde near Veracruz). The Northeast region has registered the most growth in its generation capacity at 4.9 percent annually from 1999 to 2011. The Northeast also has the greatest amount of natural gas combined cycle generation capacity (8,465 MW) followed by the Southeast region (3,906 MW). Of the 52,512 MW of SEN installed generation capacity, approximately 22 percent is hydroelectric; 2.5 percent is nuclear; 3 percent is geothermal and wind; and 72.5 percent requires the fossil fuels of oil, natural gas and coal. Total Actual Generation In 2011 total generation (SEN and generation for self-use) was 292,018 GWh, of which non-state-owned generators provided 40.3 percent of total generation. 3 Cogeneration refers to a generating facility that produces electricity and another form of useful thermal energy (such as heat or steam) that is used for industrial, commercial, heating or cooling purposes. 7 Actual Generation SEN Table 11. SEN Generation By Fuel Type (percent) In 2011 SEN electric generation was 259,155 GWh, an increase of 6.9 percent from 2010. The amount of SEN generation provided by IPPs increased from about 4,605 MW in 2001 to 84,944 MW in 2011. Gross SEN generation by type of fossil fuel can be seen in Table 11. The major coal producers are Mission Energy, a U.S. company, and Minerales Monclova, a subsidiary of Mexican steel company Grupo Acerero del Norte. Small volumes of coal are imported from the United States, Canada and Colombia. Actual Generation Private Figure 6 shows the increase in electricity produced by non-IPP private entities (selfgeneration, cogeneration etc.) since 2000. IPP generation in 2011 was 84,944 GWh. When total private generation, including exports, is added to SEN generation of 259,155 GWh, total generation in Mexico in 2011 was 292,018 GWh. Storing Electricity Unlike water and natural gas, electricity cannot be easily stored. This presents a fundamental challenge to the electric power system. There is no container or large “battery” that can store electricity for indefinite periods. Energy is stored in the fuel itself before it is converted to electricity. Once converted, it has to go out on the power lines. Worldwide, research and development on possible electricity storage technologies have been underway for some time.Transmission and Distribution Systems In general, power plants are located at points which allow access to the fuel source. The most desirable fuel sources are generally far away from population centers, and electricity must be moved from the point at which it is generated to consumers. The transmission system accomplishes much of this task with an interconnected system of lines, distribution centers, and control systems. Electricity is transported at high voltages (69 KV or greater) over a multipath powerline network that provides alternative ways for electricity to flow. Most homes and businesses in most countries use low voltage electric power while industries can often use higher voltages. Some large commercial and industrial customers may receive electricity at high voltages directly from the transmission system. Combined cycle is an electric generating technology in which electricity is produced from waste heat that would otherwise be lost as it exits from one or more natural gas combustion turbines. The exiting heat is routed to a conventional boiler or to a heat recovery steam generator for utilization by a steam turbine in the production of electricity. This process increases the efficiency of the electric generating plant. Combined cycle plants can achieve efficiencies ranging from 50 to 80 percent as opposed to efficiencies of 35 to 40 percent for conventional thermal plants. Construction time is shorter and operating costs are lower. Natural gasfired combined cycle plants produce no sulfur dioxide and only half as much carbon dioxide as conventional coal-fired thermal plants for the same energy output. 8 GUIDE TO ELECTRIC POWER IN MEXICO Table 12. Mexico’s national electric grid, SEN, is owned and operated by CFE and serves 97 percent of the population. The transmission and distribution systems of Baja California are not connected with the national interconnected system and neither are some small systems in the Northeast. 43 44 46 2011 47 45 7 2 1 8 3 12 9 13 Regiones 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. 13. 14. 15. 16. 17. 18. 19. 20. 21. 22. Hermosillo Nacozari Obregon Los Mochis Chliacan Mazatlan Juarez Moctezuma Chihuahua Durango Laguna Rio Escondido Nuevo Laredo Reynosa Matamoros Monterrey Saltillo Valles Huasteca Tamazunchale Tepic Guadalajara 4 48 49 17 Aguascalientes San Luis Potosi Salamanca MAnzanillo Carapan Lazaro Cardenas 40. Substations on the transmission system receive power at higher voltages and lower them to feed local distribution systems. The local distribution system consists of the poles and wires commonly seen in neighborhoods and can also include below ground lines. At key locations, voltage is again lowered or “stepped down” by transformers to meet customer needs. 5 Ampere is a unit of measurement, amps, of electrical current or flow. Industrial use is fairly constant, both during the day and across seasons. Residential and commercial use may change rapidly during the day in response to customer needs, appliance use and weather events. Overall, a major effort has been made to increase long distance transmission capacity as well as distribution capacity in Mexico. As mentioned above, the transmission and distribution network is complemented by transmission substations, distribution substations and distribution transformers. In 2011, substation capacities can be seen in Table 13. Transmission and Distribution System Losses Two types of losses are typically experienced by electricity systems: technical and nontechnical losses. Modern power grids have small technical losses. Non-tehnical losses are the result of informal connections to electric power lines without payment for electric power. Nontechnical losses, on the other hand, usually occur as illegal taps along a local distribution network. Non-technical losses impose costs to 10 electricity systems that are not recovered in payments. Theft degrades system reliability and presents serious hazards both to those making the illegal taps as well as to people and property in the vicinity of illegal taps. In Mexico, technical and non-technical losses are aggregated; losses are higher in some parts of the country than others. These losses are calculated as a percentage of net generation, are significant, and have increased as can be seen in Table 14. Since 2003, Mexico has been a net exporter of electricity to the United States. Between 2003 and 2011 electricity exports to the US ranged from a low of 953 GWh to a high of 1,452 GWh with 1,292 GWh exported in 2011. With the exception of the Eagle Pass-Piedras Negras interconnection, the Texas-Mexico interconnections are for emergency support only due to technical constraints and the potential for system instability. The Eagle Pass-Piedras Negras interconnection uses new technology which allows it to be operated in a “permanent” manner for normal operations. Energy savings and efficiency plans are implemented mainly by government agencies such as the Comision para el Uso Efficiente 6 de la Energia (CONUEE), the Fidecomiso para el Ahorro de Energia Electrica (FIDE), the Programa de Ahorro de Energia del Sector Electrico (CFE-PAESE) and the Programa de Ahorro Sistematico Integral 6 6 Energy Savings and Efficiency QAe1567 (ASI) with the goal of postponing new electric generation capacity creation. Environmental Regulations Three NOMs regulate emission of air and water pollutants by electric generators and the environmental impacts of electricity transmission systems. These regulations vary by geographical zone and type and amount of generation capacity. Nine areas have been defined as “critical zones” in terms of air and water pollution levels. Formerly Comision Nacional para el Ahorro de Energia (CONAE). GUIDE TO ELECTRIC POWER IN MEXICO 11 THE BASICS OF ELECTRIC POWER Electricity travels fast, cannot be stored easily or cheaply, and cannot be switched from one route to another. These three principles are basic to the operation of an electric power system. The atoms of some metals, such as copper and aluminum, have electrons that move easily. That makes these metals good electrical conductors. Electricity is almost instantaneous. When a light is turned on, electricity must be readily available. Since it is not stored anywhere on the power grid, electricity must somehow be dispatched immediately. A generator is not simply started up to provide this power. Electric power must be managed so that electricity is always available for all of the lights, appliances, computers and other uses that are required at any particular moment. Electricity is created when a coil of metal wire is turned near a magnet as shown in Figure 10. Thus, an electric generator is simply a coil of wire spinning around a magnet. This phenomenon enables us to build generators that produce electricity in power plants. Electricity traveling from one point to another follows the path of least resistance7 rather than the shortest distance. With thousands of kilometers of interconnected wires throughout Mexico, electricity may travel miles out of any direct path to get where it is needed. As a result of these three principles, designing and operating an electrical system is complex and requires constant management. Defining and Measuring Electricity Electricity is simply the flow or exchange of electrons between atoms. This exchange Generating Electricity The push, or pressure, forcing electricity from a generator is expressed as volts. The flow of electricity is called current. Current is measured in amperes (amps). Watts are a measure of the amount of work done by electricity. Watts are calculated by multiplying amps times volts. Electrical appliances, light bulbs and motors have certain wattage requirements that depend on the tasks they are expected to perform. One kilowatt (1,000 watts) equals 1.34 horsepower. One megawatt is equal to 1,000,000 watts. Kilowatts are used in measuring electrical use. Electricity is sold in units of kilowatt-hours (kWh).