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Whether it's 7:00 AM or a late-night indulgence, this two-for-the-price-of-one coffeemaker lets coffee drinkers decide the right size to start their day and enjoy the best convenience for their schedule. So much in so little space, the Two-Way Brewer provides gourmet service, gourmet options and gourmet appeal at a fraction of the standard price and in a fraction of the traditional space. The single-serve side lets you add grinds directly into the mesh filter that fits the brew basket or insert a soft pod with the pod holder. On days you want to enjoy cup-after-cup without brewing each time, the carafe-side makes a full 12 cup pot. Go ahead, get some more beauty sleep and take advantage of the built-in, programmable clock and timer. Its hour and minute features let you program your ideal coffee-drinking time up to 24 hours in advance. Just remember that more isn’t always necessarily better in this case; use slightly less coffee grinds to avoid overflow and weaker-tasting coffee. Prefer the convenience of quickly dropping in a pre-packaged, pre-flavored pod. The Two-Way Brewer is designed with a pod holder that brews any brand of soft pod coffee and still gives coffee drinkers the complete sensory experience of tasting freshly ground coffee, without the hassle of messy grinds or exact measuring. Equipped with a Brew Strength Selector, you can you choose whether you’d like your coffee REGULAR or BOLD. For a particular preference, simply switch the lever left or right. You'll receive a confirmation email from us shortly. You'll receive a confirmation email from us shortly. How about voltage and waveform. We use 220V. Is it possible to use directly? (Posted by sddumkad 3 years ago) Answers Order Status I placed an order on 4-15-2016 for a flex brew coffee maker, using the 15 Tax Day Sale code. I have. (Posted by gojets12 4 years ago) Answers Hamilton Beach 49980z Does Not Work (Posted by mackchint 6 years ago) Answers View 1 video for the. Hamilton Beach 49980Z below.
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The carafe is used. Do not use appliance for household use force when placing lid on or taking off parts and before cleaning the appliance. 6. Be certain carafe lid is necessary, an approved extension cord may cause injuries. 9. Read all instructions. 2. Do not use. 17. Do not set a hot carafe on examination, repair.Travel Lid. Travel Mug. Drip Tray. Multilevel Cup Rest. Single-Serve Side ReservoirControl Panel and Display. Keep-Hot Plate. Cord-Stuff StorageAUTOMATIC SHUTOFF: The coffeemaker will be brewed.For best results, use with 8 ounces (250 ml) or less of coffee. Very large pods will shut off when brew cycle is complete. Coffeemaker will not work with this unit.A permanent filter may also be used.AUTOMATIC SHUTOFF: The coffeemaker will only brew on keep-hot plate.NOTE: The unit will automatically shut off 2 hours after.Ensure brew basket is fully seated.Programming (For Either the Single-Serve OR Carafe Side). Also, be aware that using coffee that is ground too finely may also cause the filter basket.All coffeemakers should be cleaned at least once a month (once a week for areas.All coffeemakers should be cleaned at least once a month (once a week for areas with hard water).Longer than normal brew time. Periodic cleaning of the inside of your coffeemaker. Coffee not brewing or unit will not turn.This warranty is void if the product is limited to the duration of this product or any component found to be free from defects in the U.S. This warranty gives you. For faster service, locate the model.This warranty does not cover glass, filters, wear from normal use, use or subjected.The following terms are frequently used to search for Hamilton Beach 49980Z support:If it (whatever it is) is stuck above the plate it will stop i. Please try again.Please try again.Register a free business account Please try your search again later.Mug not included along with the BrewerTo calculate the overall star rating and percentage breakdown by star, we don’t use a simple average.
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Instead, our system considers things like how recent a review is and if the reviewer bought the item on Amazon. It also analyzes reviews to verify trustworthiness. Please try again later. Amazon Customer 5.0 out of 5 stars I took 3 days to decide on which one to get. My old one was just a single serve Mr. Coffee K-cup brewer. I was a newbie coffee drinker when I bought that one 3 years ago. I was tired of buying and storing the expensive k-cups but I was still wanting the single brew option with k-cups and a full pot option. It was between the other Hamilton Beach that does the k-cups and full pot and this one. I am so glad I decided to ditch k-cups for good. This pot does single serve using a reusable basket filter that holds one scoop or 2 scoops of coffee grounds. It also will take a cofee pod (not be be confused with a kcup) I love the single serve option, up to 14 oz. I even bought some of the coffee single serve pod. These work the same and are less expensive than kcups. However I did have to buy them online because I didn't see them sold in my grocery store. They look like a round tea bag. They work great with this machine. I keep a few varieties of the pods on hand for guests. I just use my regular favorite brand to make my own single cup when needed. Very easy to clean, just dump and rinse the basket and use it again. I throw all the parts in the dishwasher about once a week. I love that it has a button to switch between single serve and full pot. I also love the program option. I can program and set up the full pot option and still use the single serve if I want to at night after I have already set it. I have not experienced the plastic taste that I kept reading in all the other reviews. I was really scared this would be the case due to all the other reviews, but no plastic smell or taste here. The last thing I debated over was a machine with a water reservoir. I am so glad I went with this option that doesn't keep a reservoir.
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Some of the other reviews talked about a sensor on the single serve side that would get an error if you over filled or under filled. No sensor with this one. Simply use your cup or travel mug for the exact water measurement each time. No setting to mess with. The full pot and single serve are completely separate from each other. Just slide the button to 'single' or 'carafe'Soon after that it barely tasted like coffee at all. The coffee it makes smells terrible, and tastes just as bad. I've tried fresher grounds, filtered water, different coffee brands and even filters. Don't buy this unless you like two scoops of mud in your coffee every morningI've been using this almost daily for about 2 years. I use both the carafe and the single serve side frequently and they're both amazing. I debated for a long time before purchasing this unit. I did a lot of research, and I went back and forth between this and a few other models. I'm SO HAPPY I MADE THIS PURCHASE. It gets used as much or more than any device in our house.I've gotten my money's worth several times over. This specific coffee maker is fabulous for a variety of reasons. First, the carafe is pretty standard. It makes an entire pot of coffee and it stays HOT for 2 hours. It has an auto shut off after 2 hours (which is awesome if you forget to turn it off before leaving the house). If you want the coffee to stay hot longer than 2 hours, just turn it back on after the auto shut off. Just the simple press of a button. This also has a timer, so you can set it to start making coffee at a specific time every morning. Just load the filter, water and grounds the night before. Set the timer and turn it on. That's it! You'll have delicious hot coffee waiting for you at your chosen time. And by far my favorite feature - the single serve side!!!! When my husband leaves early for work and I'm solo with the kiddos, this is the perfect thing for me. I can make any amount of coffee I want up to 2 cups.
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It's ridiculously easy to brew just 1 mug of coffee. Or, if you want a little more, I can fill my Yeti on the single serve side. It's soooo easy. I've had the same filter for almost 2 years and haven't needed to replace it. I just throw it in the dishwasher every few times I use it and it's still working really well. If you're debating about this coffee maker, I suggest you go for it. I've never had a single problem with it. It's been used by multiple house guests, it sometimes doesn't get cleaned well, and it always makes great coffee. And you can't beat the price!!!It presented E04, and a Google search revealed the error code indicates a pretty much non-recoverable condition, with internal components. The manufacturer site offered nothing helpful, so after 3 cups of coffee, I got an errand to the UPS store to return.But cannot get over how hot this pot gets, it is hotter then any cup I have ever gotten from McDonalds and always thought they were the hottest out there. When we make a pot we have to shut it off pour a cup and wait about 20 minutes for it to cool off enough to drink. Do not know if it is just this pot or all of this model but it doesn't work for us.Had been on the lookout for a 2-way brewer and thought I wanted k-pod friendly. Other brands offer that style but at a price. After some looking came across this product and sure am happy I did. Easy to use, program and makes good java. Still has plenty to offer in terms of single cup brewing options- while not a k-pod it does take other, round pods plus has a mini filter that’s simple to use!I wanted to set the large pot to turn on in the morning before work, filled the reservoir and set the timer, woke up in the morning with water all over my counter and hardwood floors. Thought it was something that i did wrong, so i filled it again and watched it.If it didn't leak, it would be a handy unit.
It made decent coffee, but one day the empty pot just exploded 15 minutes after it had been turned off and the pieces landed all over my kitchen floor. I called Amazon and they gave me a credit for the purchase but didn't seem too interested in the huge safety concern.Coffee brews very quickly, stays hot for 2 hrs and then automatically shuts off. The entire system is very easy to operate. You just need to know that it doesn't take K cups. It uses pods, which so far we have found at Starbucks or by ordering online through Amazon.This aspect of the coffee maker is really not a big deal as you can also use ground coffee in both sides. Would highly recommend this model over having two coffee makers (one for single cup and another one for a pot of coffee) sitting on my counter.The advertised time to brew a cup of coffee in 90 seconds is misleading, the actual time is close to five minutes. I also have a one cup coffee maker that uses pods. The Hamilton Beach coffee maker is far more economical and environmentally friendly.The Best coffee maker I have ever bought single serving or pot, so convenient and eazzy to clean. Durable and dependable. Should you find any errors, please help us by reporting it here.We delete comments that violate our policy, which we encourage you to read. Discussion threads can be closed at any time at our discretion. Unfortunately, Hamilton Beach does not make a thermal carafe that is compatible with your model 49980A. I apologize for the inconvenience. Please advise. Thank you. Thank you for your question. The part number listed under your model number for the brew basket is 990118100. I hope this helps. Thank you and have a great day! I have researched the model you have provided and have found the part you are looking for is Part Number: 990117800. Hope this helps! I only see 12cup carafes.Pplease help me locate a replacement. Very sorry but we are only showing the 12 cup for this model, Part Number: 990117800.
For more specialized assistance or to speak with someone about this, I would suggest calling the manufacturer of the appliance directly. Hope this helps! Please advise if a schematic and burner element(s) is available? Attached is he manual for model 49980Z. However, the carafe boiler element is not available as a replacement part. There are no part substitutions listed. Our suggestion here would be to call the manufacturer and see if they can provide you with a substitution for these part numbers. Hope this helps. Please contact us anytime. I only had it for 2 months and the pot has cracked. Thank you for your question. For your model there is only a glass carafe, part number 990117800, listed. I hope this helps. Thank you and have a great day! Is this the one that I need for my new coffee maker? Thanks The permanent filter for your model 49980 is part number 80675R. I hope this information helps! I love this coffeemaker and would like any suggestions on what I can do if anything. I don't want to buy another one if it's going to stop working in 2years. The part you described does not appear in the parts list for this model. Please reach out to Hamilton Beach at 1 (800) 851-8900 directly to obtain the part number you need to order. Once you have this information, please feel free to check back with us for pricing and availability information. Thank you. We have no known replacement information in our system. We recommend you contact the manufacturer of the part to see if they have recently released a new substitute. For example, part number 990118100. Good luck with your repair. Ask your question here. Provide a clear and comprehensive description of the issue and your question. The more detail you provide for your issue and question, the easier it will be for other Hamilton Beach The Scoop 49981 owners to properly answer your question.
Ask a question About the Hamilton Beach The Scoop 49981 This manual comes under the category Coffee makers and has been rated by 1 people with an average of a 7.5. This manual is available in the following languages: Engels, Frans, Spaans. Do you have a question about the Hamilton Beach The Scoop 49981 or do you need help. Ask your question here Hamilton Beach The Scoop 49981 specifications This best-before date applies as long as the bag is closed.If the coffee beans are very finely ground you will have a stronger taste and if the grind is coarser you will have a milder taste.Our database contains more than 1 million PDF manuals from more than 10,000 brands. Every day we add the latest manuals so that you will always find the product you are looking for. It's very simple: just type the brand name and the type of product in the search bar and you can instantly view the manual of your choice online for free. Manua. ls If you continue to use this site we will assume that you are happy with it. Read more Ok.
Feasibility Studies and Economic Pipe Size 5. Gas Pipeline 6. Capital Costs 7. Operating Costs 8. Determining Economic Pipe Size 9. Summary 10. Problems Chapter Fourteen. Case Studies 1. Introduction 2. Case Study 1: Refined Products Pipeline (Isothermal Flow) Phoenix to Las Vegas Pipeline 3. Case Study 2: Heavy Crude Oil Pipeline 2 Miles Long without Heaters 4. Case Study 3: Heavy Crude Oil Pipeline from Joplin to Beaumont (Thermal Flow with Heaters and no Batching) 5. Case Study 4: Heavy Crude Oil Pipeline (Thermal Flow with Heaters and DRA) 6. Case Study 5: Water Pipeline from Page to Las Cruces 7. Case Study 6: Gas Pipeline with Multiple Compressor Stations from Taylor to Jenks 8. Case Study 7: Gas Pipeline Hydraulics with Injections and Deliveries 9. Case Study 8: Gas Pipeline with Two Compressor Stations and Two Pipe Branches 10. Sample Problem 9: A Pipeline with Two Compressor Stations, Two Pipe Branches, and a Pipe Loop in the Second Segment of the Pipeline to Handle an Increase in Flow 11. No part of this publication may be reproduced or transmitted in any form or by any means, electronic or mechanical, including photocopying, recording, or any information storage and retrieval system, without permission in writing from the publisher. Notices Knowledge and best practice in this field are constantly changing. As new research and experience broaden our understanding, changes in research methods, professional practices, or medical treatment may become necessary. Practitioners and researchers must always rely on their own experience and knowledge in evaluating and using any information, methods, compounds, or experiments described herein. In using such information or methods they should be mindful of their own safety and the safety of others, including parties for whom they have a professional responsibility.
ISBN: 978-1-85617-830-3 Library of Congress Cataloging-in-Publication Data A catalog record for this book is available from the Library of Congress British Library Cataloguing in Publication Data A catalogue record for this book is available from the British Library For information on all Gulf Professional Publishing visit our website at Preface This book was written to provide guidance on the design of liquid and gas pipelines for both practicing engineers as well as graduate engineers entering the pipeline field as their first employment. We assume the engineer is familiar with basic fluid mechanics including the Bernoulli's equation. Some knowledge of pumps and compressors is also assumed. This book covers pipeline hydraulics as it applies to transportation of liquids and gases through pipelines in a single phase steady state environment. It will serve as a practical handbook for engineers, technicians, and others involved in the design and operation of pipelines transporting liquids and gases. Currently, existing books on the subject are mathematically rigorous, theoretical, and lack practical applications. Using this book, engineers can better understand and apply the principles of hydraulics to their daily work in the pipeline industry without resorting to complicated formulas and theorems. Numerous examples from the author's real life experiences are included to illustrate the application of pipeline hydraulics. The application of hydraulics to liquid and gas pipelines involve understanding of various properties of fluids, concept of pressure, friction and calculation of the energy required to transport fluids from point A to point B through a pipeline. You will not find rigorous mathematical derivation of formulas in this book. The formulas necessary for calculations are presented and described without using calculus or complex mathematical methods.
If the reader is interested in how the formulas and equations are derived, he should refer to any of the books and publications listed under the Reference section toward the end of this book. This book covers liquid and gas properties that affect flow through pipelines, calculation of pressure drop due to friction, horsepower required, and the number of pumps or compressor stations required for transporting the fluid through a pipeline. Topics covered include basic equations necessary for pipeline design, commonly used formulas to calculate frictional pressure drop and necessary horsepower, the feasibility of improving an existing pipeline performance using drag reduction additives (for liquid lines), and power optimization studies. The use of pumps, compressors, and valves in pipelines are addressed along with modifications necessary to improve pipeline throughput. Economic analysis and transportation tariff calculations are also included. This book can be used for the analysis of both pipeline gathering systems, plant or terminal piping, as well as long distance trunk lines. The primary audience for the book is engineers and technicians working in the petroleum, water, and process industry. This book could also be used as a textbook for a college level course in pipeline hydraulics. We are indebted to Ken McCombs of Elsevier for encouraging us to write this book and also for waiting patiently for two years for us to complete this book while Shashi was recuperating from a quintuple heart bypass and sepsis. We would also like to acknowledge our sincere appreciation to Katie Hammon and Kattie Washington who were both very instrumental in getting the book in print. Finally, I would like to dedicate this book to my father and mother, who always believed I could write a technical book, but unfortunately did not live long enough to see it completed.
We invite comments and suggestions for improvements of the book from readers of the book and to point out any errors and omissions they feel. We sincerely hope this book will be an excellent addition to the Pipeline Engineer's library. E. Shashi Menon, PhD, PE Pramila S. Menon, MBA, Lake Havasu City, AZ Chapter One Introduction to Transmission Pipelines Abstract Pipelines are used to transport liquids or gases from origin to end users. These pipelines may range from 4 in to 32 in or more in diameter. Over the last several years, pipelines have been built in the World ranging from 48 to 60 in or larger. These pipelines may be short lines, such a few feet to as much as a few thousand miles long. In addition to providing the necessary pipe material, we must also provide the necessary pressure in terms of pumping equipment and drivers as well as other related appurtenances such as valves, regulators, and scraper traps. Pipelines are used to transport liquids or gases from point of origin to point of consumption of liquids or gases. Transmission pipelines may be small diameter such as 4 in or the average size may range from 24 to 32 in or more in diameter. Over the course of several years, much larger pipelines have been built in the United States and abroad ranging from 48 to 60 in or larger diameter. These pipelines may be short lines, such as gathering lines ranging from a few feet to as much as a couple of miles. They may also be long trunk lines a few thousand miles long. In this book, we will concentrate on transmission pipelines used to transport liquids such as water, refined petroleum products as well as natural gas or compressible fluids such as propane and ethane. More sophisticated pipelines have also been built to transport exotic gases and liquids such as ethylene or compressed high-density carbon dioxide (CO2).
The latter pipelines require extensive hydraulic simulation or modeling taking into account the thermodynamic properties of CO2 including liquid vapor diagrams as well as the complex formulas that define the behavior of high density CO2. Starting with 1866 in Pennsylvania, United States, when the first practical pipeline was constructed by the entrepreneur and scientist Edwin Drake, the United States set the stage for the proliferation of practical utilization of pipelines ranging from a few miles to tens of thousands of miles all over the world. It must be noted that although the US pioneered pipeline efforts in the 1800s, credit must be given to engineers, technicians, and scientists that paved the way for progress in transporting black gold to satisfy the twentieth century requirements of mankind, which has reached a level unimaginable particularly during the past few decades. There does not seem to be a let up in the consumption of crude oil and petroleum products despite the fact that the industrialized nations have spent enormous amounts of research and development efforts in replacing oil with a more renewable energy sources such as solar and wind power. The largest consumption by the public for crude oil is the application of diesel and gasoline for motor vehicles. Of course these are only approximations and can vary from country to country depending on Organization of Petroleum Exporting Countries, and other natural gas and crude oil price regulating organizations. The most important oil well ever drilled in the United States was in the middle of quiet farm country in northwestern Pennsylvania in a town called Titusville. In 1859, the newly formed Seneca Oil Company hired retired railroad conductor Edwin L. Drake to investigate suspected oil deposits. Drake used an old steam engine to drill a well that began the first large-scale commercial extraction of petroleum. This was one of the first successful oil wells drilled for the sole purpose of finding oil.
This was known as the Drake Well. By the early 1860s, western Pennsylvania had been transformed by the oil boom. This started an international search for petroleum, and in many ways eventually changed the way we live. The reason Drake chose Titusville as the spot to drill for oil was the many active oil seeps in the region. As it turns out, there had already been wells drilled that had struck oil in the region. The only problem was, they were not drilling for oil. Instead, they were looking for salt water or drinking water. When they struck oil, they considered it a nuisance and abandoned the well. At the time, no one really knew how valuable oil was. Later on, they hoped that rock oil could be recovered from the ground in large enough quantities to be used commercially as a fuel for lamps. Oil had already been used, refined, and sold commercially for one of its byproducts: kerosene. Along came a gentleman named Bissell who would try to extract the rock oil from the ground by drilling, using the same techniques as had been used in salt wells. Bissell was simply looking for a better, more reliable, and plentiful source. Table 1.1 shows a list of long-distance pipelines being used around the world to transport gas, crude oil, and products from the fields to areas of use. Sometimes these fields are located in one country or continent and then transported by pipeline for distribution through several countries. Table 1.1 Various Transmission Pipelines in North America 1. Trans-Alaska Pipeline (North America) This 48-in-diameter steel pipeline zigzags across the frozen tundra of Alaska for 800 miles. It stretches from Prudhoe Bay, on Alaska's North Slope, to the northernmost ice-free port at Valdez, Alaska, on Prince William Sound. Along the way, it must travel over three mountain ranges, cross more than 500 rivers and streams, over three unstable earthquakes faults, and through the migration paths of the caribou and moose.
The completed, 48-inch -diameter pipeline was opened for business in 1977. The pipeline was purposely built in a zigzag configuration to allow the pipe to move more easily from side to side and lengthwise in cases of earthquakes or temperature-related fluctuations. The effectiveness of this design was proven in 2002 when the pipeline survived a 7.9-magnitude earthquake. Where it runs over fault lines, the pipeline rests on perpendicular so-called slider supports, which are long rails that will allow the pipeline to slide with the ground movement. Approximately 420 miles of the pipeline was built above ground because of the unstable soil conditions from the thaw sensitive permafrost and 380 miles below ground. To keep the oil flowing, there are 11 pumping stations along the length of the pipeline, each containing four motor-driven pumps. Of these 44 pumps, however, only around 28 are operating at any one time, depending on flow. One of the most significant innovations built into the system are heat exchangers. This would cause the pipeline to sink into the melted permafrost, causing catastrophic damage and spillage. To prevent this scenario, heat exchangers were placed on top of the pipes. The heat is transferred from the base through pipes containing ammonia to the heat exchangers that are then is cooled by convection to the surrounding air. Monitoring of the pipeline is accomplished by several methods. Aerial surveillance is performed several times a day, a task that can take 2 h or more. Another is by sending inspection gauges, called pigs, through the line on a regular basis that can relay radar scans and fluid measurements back to the launching facility as they travel within the line. The total oil production since June 1977 is reported to be well in excess of 500 billionbbl.