DOCSLIB.ORG

AGWS3-0307 05.Pdf (5.630Mb)

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
AGWS3-0307 05.Pdf (5.630Mb) .... RECE/Vfo JUN ~-; 1948 CAMPAIGN WATER ANALYSIS REPORT GEN'L CH£M:ul ' I C Loveland Factory . o. The Great Western Sugar Company Campaign 1947-48 Copies to: • ., , IS .. General Chemist Colorado District Engineer, Superintendent Laboratory May 26, 1948 Chief Chemist ------INDEX Sheet No. 1 City WateJr 2 Ditch Water 3 Battery Supply Water 4 Press Wash Water 5 Water used to wash 'White sugar 6 Water used to wash cold saccharate 7 Water in Boiler Feed Tank 8 Condensed water pumped direct to boilers 9 Water in BoilerE Form 443-2M-7-41-Pads 100 WATER ANALYSIS -·-···-·····-·l,QJ(EWD·-·····-······-·-··-·-·Factory ···-·-·-·Campaign ........... -... 19.47 .. ~-.1948__ .. Kind of Water: Cit7 lfatett Description of Sample: Campaign average sample composed of three catch samples, per week. Source of Water: Big Thompson River, about eight miles wes.t of factory. ANALYSIS HYPOTHETICAL COMBINATIONS 4 PartsPer~• Parts Per~ Silica SiO, Silica SiO, 6~6 Iron Fe Sodium Chloride NaCl 3.6 Calcium Ca Sodium Sulfate Na,SO, 6.7 Magnesium Mg Sodium Carbonate Na.CO, 7.6 Sodium Na Sodium Phosphate Na,PO, 0 Chlorine CI Magnesium Chloride MgCl2 0 Sulfuric Acid so. Magnesium Sulfate MgSO. 0 Carbonic Acid CO, Magnesium Carbonate MgCO, 12.1 Phosphoric Acid PO, Magnesium Phosphate Mg,(PO,). 0 Calcium Sulfate CaSO, 0 Calcium Carbonate CaCO, 1.0 Calcium Phosphate Ca,(PO,). 0 Ferrous Carbonate FeCOa 1.7 Ferrous Phosphate Fe,(PO,), 0 pH - a.o COPIES TO General Supt. General Chemist Asst. General Supt. District Engineer Superintendent Laboratory (1) d4ef~a,N(/ •......... .L ..... J ._.,, .........................................., ______ ,,.. _ ... , .......................... _ Chief Chemlat. J<'orm 443-2M- 7-41-Pads 100 WATER ANALYSIS ____________ .LOiEEAND. ....................... Factory ............ 9.~~gg............ 19.h?.~...... 194.~--- Kind of Water: Ditch Water· Description of Sample: Campaign average sample composed of three catch samples: per week. Source of Water: Loveland and Cemetery Lakes. ANALYSIS HYPOTHETICAL COMBINATIONS P.P.M. P.P.11 Parts llel,,,i.Qll,Aill Paris Per MMlpOIMI- Silica Si01 13.e Silica SiO, 13.8 Iron Fe 1.7 Sodium Chloride NaCl 1,.2: Calcium Ca 58.6 Sodium Sulfate Na.SO, 44.2. Magnesium Mg 22~ Sodium Carbonate Na.CO, Sodium Na 20.3 Sodium Phosphate Na,PO, Chlorine Cl 9.2 Magnesium Chloride MgCI. Sulfuric Acid so. 184.5 Magnesium Sulfate MgSO, 109.9 Carbonic Acid co, 47.8 Magnesium Carbonate MgCO, Phosphoric Acid PO, Magnesium Phosphate Mg,(PO,), Calcium Sulfate CaSO, Calcium Carbonate CaCO, Calcium Phosphate Ca,(PO,), Ferrous Carbonate FeCO. Ferrous Phosphate Fe,(PO,). 358.l. Organic and Volatile (by difference) 60.B Organic and Volatile (by difference) ___ issolve ; SOLIDS AT 105° C 8 0 2__ ._ _ _...!issJll.'ei 'WIBIXSOLIDS AT 105° C pH 8.2 COPIES TO General Supt. General Chemist Asst. General Supt. District Engineer Superintendent Laboratory (2) ........... d~~~~·-··············-ChlefChnrlat. F'orm 443- 2M- 7-41-Pads 100 . .. WATER ANALYSIS ---·······-IDV.EUfilt ........ -.........-._···Factory ··------····-··C.ampaign.. ..l9.h7 ... ~ ... -...1948 _... Kind Qf Water: Battery Supp~ Water' Description of Sample: Campaign average sample composed of three catch sample&. per week. Source of Water: Overflow from press wash water tanks, city water, No. 1 and 2 white pan condensers .and make up water from seal tanks, drips from 1st effects of evaporators. ANALYSIS HYPOTHETICAL COMBINATIONS Parts Per!~·m Parts p..,.P~• Silica SiO, Silica SiO, Iron Fe Sodium Chloride NaCl Calcium Ca Sodium Sulfate Na,SO, Magnesium Mg Sodium Carbonate Na.CO, Sodium Na Sodium Phosphate Na,PO, Chlorine Cl Magnesium Chloride MgCl, Sulfuric Acid SO, Magnesium Sulfate MgSO, Carbonic Acid co. Magnesium Carbonate MgCOa Phosphoric Acid PO, Magnesium Phosphate Mg,(PO,), Calcium Sulfate CaSO, Calcium Carbonate CaCO, Calcium Phosphate Ca,(PO,). Ferrous Carbonate FeCO. Ferrous Phosphate Fe,(PO,). Organic and Volatile (by difference) Organic and Volatile (by difference) ___.w :.i.SSW.Ye_, , DX'U, SOLIDS AT 105° C Dissolved ~ SOLIDS AT 105° C COPIES TO General Supt. General Chemist Asst. General Supt. District Engineer Superintendent Laboratory .............&4/# ~ ............ Chief Chemist. (3) .l!'orm 443-2M- 7-41- Pads 100 • If' I , WATER ANALYSIS __________________ .LCNEI.AND ............_ ____ .Factory -- ---·-·······Campaign ... .. -.. 19.47 .. ~ .... 194.8 ... Kind of Water: Press Wash ·water Description of Sample: Campaign average sample composed of three catch samples per week Source of Water: Drips from all heaters,, blow up coils:., Nos. 4 & 5 pan calandrias and overflow from boiler feed tanks. ANALYSIS p.p.m HYPOTHETICAL COMBINATIONS p.p.m. Parts Per ISJIPT Parts Per DB Silica SiO. Silica SiO, Iron Fe Sodium Chloride NaCl Calcium Ca Sodium Sulfate Na.SO, Magnesium Mg Sodium Carbonate Na.CO, Sodium Na Sodium Phosphate Na,PO, Chlorine CI Magnesium Chloride MgCI. Sulfuric Acid so. Magnesium Sulfate MgSO, Carbonic Acid co, Magnesium Carbonate MgGO, Phosphoric Acid PO, Magnesium Phosphate Mg,(PO,). Calcium Sulfate CaSO, Calcium Carbonate CaCO, Calcium Phosphate Ca,(PO,). Ferrous Carbonate FeGO, Ferrous Phosphate Fe,(PO,). Organic and Volatile (by difference) Organic and Volatile (by difference) __.,! D~i:::s~s~o~l;:!-:v!:e:!!d~:X~1~il~t~X~X.~.:!:S~O:!::L:!;ID~S~ A~T..;1!;:::0::::,5_0 ~c~ ___,sa:_. =o__ , __ D_ issolved! 'llDll SOLIDS AT 105° C COPIES TO General Supt. General Chemist Asst. General Supt. District Engineer Superintendent Laboratory (4) ............... ...~4!£ ~~-- ----·- Chief Chemist. 1,'orm 443-2M-7-41-Pads 100 . ' . ' WATER ANALYSIS ___ _____ ___ ID.VELAND._····-·········-·········Factory ·· -- ----- --Campaign .......... .1947. ....fl!l ... 194 .. &. Kind of Water: Water used to wash white · sugar. Description of Sample: Campaign average sample composed or three catch samples, per week Source of Water: Drips fran 3rd effects or evaporators ANALYSIS HYPOTHETICAL COMBINATIONS p.p.m. Parts Pei:x,e;np Silica SiO, Silica SiO, Iron Fe Sodium Chloride NaCl Calcium Ca Sodium Sulfate Na,SO, Magnesium Mg Sodium Carbonate Na,CO. Sodium Na Sodium Phosphate Na,PO, Chlorine CI Magnesium Chloride MgCI, Sulfuric Acid so. Magnesium Sulfate MgSO, Carbonic Acid co. Magnesium Carbonate MgCOs Phosphoric Acid PO, Magnesium Phosphate Mg,(PO,), Calcium Sulfate CaSO, Calcium Carbonate CaCO, Calcium Phosphate Ca,(PO,). Ferrous Carbonate FeCOa Ferrous Phosphate Fe,(PO,), Organic and Volatile (by difference) Organic and Volatile (by difference) Dissolved ,amm:, SOLIDS AT 105° C a COPIES TO General Supt. General Chemist Asst. General Supt, District Engineer Superintendent Laboratory (5) ················ -ittV/~a.-c.JChief Chemist. .................. F orm 443-2M-7-41-Pads 100 ' . WATER ANALYSIS ___ ____ __________ L()VELAJm ___________________ Factory _______________________ C~aj,gn_____ l247~.194.~- - Kind of Water: Water· used to wash Cold Saecharate Description of Sample: Source of Water: Same as City Water· ANALYSIS P•P•• HYPOTHETICAL COMBINATIONS P•P•• Parts Per l!IIID Parts Per~ Silica SiO, Silica SiO. Iron Fe Sodium Chloride NaCl Calcium Ca Sodium Sulfate Na2SO, Magnesium Mg Sodium Carbonate Na.CO, Sodium Na Sodium Phosphate Na,PO, Chlorine CI Magnesium Chloride MgCl, Sulfuric Acid SO, Magnesium Sulfate MgSO, Carbonic Acid co, Magnesium Carbonate MgCO, Phosphoric Acid PO, Magnesium Phosphate Mg,(PO,). Calcium Sulfate CaSO, .. Calcium Carbonate CaCO, Calcium Phosphate Ca,(P0,)2 Ferrous Carbonate FeCO, Ferrous Phosphate Fe,(P0,)2 Organic and Volatile (by difference) Organic and Volatile (by difference) _ -A/.,.r.Qint,1L1J;1edl ~ SOLIDS AT 105° C 4-7_.8__ D saolv ~4 SOLIDS AT 105° C .e COPIES TO General Supt. General Chemist Asst. General Supt. District Engineer Superintendent Laboratory (6) ..................&£..?.':~---······ Chief Chemist. .l<'orm 443- 2M-7-41- Pads 100 ' . I \ II f ~ WATER ANALYSIS _______ .LOiEL&ND ___________ ····-····-----·---Factory -- -------·----Campa.i.gn ........ 19.47..~----194.8 .. Kind of Water: Wate;r-, in Boiler· Feed Tank Description of Sample: Campaign average sample composed of three catch samples; per week Source of Water: Drips from st.eam chests of 2nd, )rd, 4th, and 5th effects of evaporators:, granul&tor coil drips, coil drips from No o 3 and 4 pans, cit;y water, drips from all live steam traps throughout the factory, via flash tanlt.. ANALYSIS HYPOTHETICAL COMBINATIONS p.p.m. Parts PerOE:E· Parts Per IIDXIIJC Silica SiO. Silica SiO, Iron Fe Sodium Chloride NaCl Calcium Ca Sodium Sulfate Na.SO, Magnesium Mg Sodium Carbonate Na.CO, Sodium Na Sodium Phosphate Na,PO, Chlorine CI Magnesium Chloride MgCI2 Sulfuric Acid SO, Magnesium Sulfate MgSO, Carbonic Acid co, Magnesium Carbonate MgCO, Phosphoric Acid PO, Magnesium Phosphate Mg,(PO,), Calcium Sulfate CaSO, Calcium Carbonate CaCO, Calcium Phosphate Ca,(PO,). Ferrous Carbonate FeCO, Ferrous Phosphate Fe,(PO,). Organic and Volatile (by difference) Organic and Volatile (by difference) Dissolved ~SOLIDS AT 105° C .6____ D- 1-· ssolved SOLIDS AT 105° C COPIES TO General Supt. General Chemist Asst. General Supt. District Engineer Superintendent Laboratory .......... .... /41'.-z/d ~ a AAJ ............. (7) Chief Chemist. 'r Form 443-2M-7-41-Pads 100 ~ " I ( • "• ' •• t ' ' . WATER ANALYSIS ............. LOVEUJD ....................... Factory ................. Q~~itm..... l9.47. .... ~... 194~ .... Kind of Water: Condensed Water- pllDlped direct to Boilers, Description of Sample: Campaign average sample composed of three catch samples; pe:tr week. Source of Water: Condensation
Load more

Recommended publications
  • Chemicals Used for Chemical Manufacturing Page 1 of 2
    Chemicals used for Chemical Manufacturing Page 1 of 2 Acetic Acid (Glacial, 56%) Glycol Ether PMA Acetone Glycol Ether PNB Acrylic Acid Glycol Ether PNP Activated Carbon Glycol Ether TPM Adipic Acid Glycols Aloe Vera Grease Aluminum Stearate Gum Arabic Aluminum Sulfate Heat Transfer Fluids Amino Acid Heptane Ammonium Acetate Hexane Ammonium Bicarbonate Hydrazine Hydrate Ammonium Bifluoride Hydrochloric Acid (Muriatic) Ammonium Chloride Hydrogen Peroxide Ammonium Citrate Hydroquinone Ammonium Hydroxide Hydroxylamine Sulfate Ammonium Laureth Sulfate Ice Melter Ammonium Lauryl Sulfate Imidazole Ammonium Nitrate Isobutyl Acetate Ammonium Persulfate Isobutyl Alcohol Ammonium Silicofluoride Calcium Stearate Dipropylene Glycol Isopropanolamine Ammonium Sulfate Carboxymethylcellulose Disodium Phosphate Isopropyl Acetate Antifoams Caustic Potash D'Limonene Isopropyl Alcohol Antifreeze Caustic Soda (All Grades) Dodecylbenzene Sulfonic Acid Isopropyl Myristate Antimicrobials Caustic Soda (Beads, Prills) (DDBSA) Isopropyl Palmitate Antimony Oxide Cetyl Alcohol Dowfrost Itaconic Acid Aqua Ammonia Cetyl Palmitate Dowfrost HD Jojoba Oil Ascorbic Acid Chlorine, Granular Dowtherm SR-1 Keratin Barium Carbonate Chloroform Dowtherm 4000 Lactic Acid Barium Chloride Chromic Acid EDTA Lanolin Beeswax Citric Acid (Dry and Liquid) EDTA Plus Lauric Acid Bentonite Coal Epsom Salt Lauryl Alcohol Benzaldehyde Cocamide DEA Ethyl Acetate Lecithin Benzoic Acid Copper Nitrate Ethyl Alcohol (Denatured) Lime Benzyl Alcohol Copper Sulfate Ethylene Glycol Linoleic Acid Bicarbonate
    [Show full text]
  • Bactericide-Disinfectant
    , r f.~ n,r.~il·'\L H.. ~t.t;I" "" . i ltM)"ft . "' .' .,.,,~: .. ;;:.~ ,.;·~~~t:.:.· ,.J.~ . ... --' "'.~.};" ,",>;"'!:,., ~ " .. ". , ; IlUNGtCIOE' MID RCOfNTlCtOI .. ~.' ".' • ., . <",~. .. ,'. 1 ~Of: ~~Itr. ,<"{}~ _ t EO IJ"OS~A C :J-) l - (BACTERICIDE -DISINFECTANT) DESC Rlt.JllC"N: P''1k'or is a nor-sudsing, chlorinated, perman­ a solution can be recommended for dairy utensils, milking ma­ 4. For home l gana·ed o~tprger.t F'owaE'r for q'Jick, efficient cleaning, disin­ chines and equipment. The same solution can be us~d on dairy water for dis fecting, sani rizing and (JE:odorizir,g. It is designed for use on all farm utensils as well as washing cows' udders and milkr.:rs' utensils. For c11 types of equipment and utensils that are used in the handling hands. surfaces such of food products, milk, meats, beverages, etc. Authorized for ounce per que use under the U. S. Department of Agriculture Consumer and 2. Pinklor can be used very effec1ively in food and beveraqe Marketing Service Inspection Programs for poultry, meat, milk plants as a disinfectant for equipment using a solution of 1 and egg product plants. F oer 40 gallons of water and applying this solution in DANGI c.. i.:,.'r that insures conto(t '/./ith all po "ts and surfaces. OREN. AVOI Specifications 0 STUFFS. HAF Active: Trisodium Phosphate (hydrated) over 91.00 0 3. Where local and state regulations are in effect, consu:t Sodium Hypochlorite over 3.500 0 rules of you" local authorities tor volume of chlorine required SKIN OR IN 0 Sodium Lauryl Sulfate under 0.05 0 in rinse solutil'ns.
    [Show full text]
  • Safety Data Sheet TSP - TRISODIUM PHOSPHATE
    Safety Data Sheet TSP - TRISODIUM PHOSPHATE Date of Revision: 2/11/2015 Section 1 – Chemical Product and Company Identification Product/Chemical Name: Trisodium Phosphate dodecahydrate Chemical Formula: Na3PO4*12H2O CAS Number: 10101-89-0 Other Designations: TSP; trisodium orthophosphate; tribasic; tertiary sodium phosphate; trisodium phosphate Derivation: Prepared by combining proper proportions of phosphoric acid and soda to form disodium phosphate, then adding a caustic soda Supplied by: PRO Chemical & Dye 126 Shove Street Fall River, MA 02724 Emergency Telephone Numbers: 800-255-3924 ChemTel. (United States) + 1 01 813-248-0585 (Outside the United States) 1. Section 2 - Hazards Identification HMIS ***** Emergency Overview ***** H 3 MAY CAUSE EYE INJURY. CAUSES SKIN IRRITATlON. MAYBE HARMFUL IF SWALLOWED. F 0 Potential Health Effects R 0 PPE Primary Entry Routes: Inhalation, ingestion or skin contact. Sec. 8 Target Organs: Skin, digestive tract. HAZARDS IDENTIFICATION Classification of the substance or mixture GHS Classification in accordance with 29 CFR 1910 (OSHA DCS) Skin corrosion (Category I B). H314 Serious eye damage (Category I). H318 GHS Label elements, including precautionary statements Pictogram Signal word Danger Hazard statement(s) H314 Causes severe skin burns and eye damage. Precautionary Statement(s) P260 Do not breathe dust or mist. P264 Wash skin thoroughly after handling. P280 Wear protective gloves protective clothing/ eye protection/ face protection. P301 + P330 + P331 IF SWALLOWED: rinse mouth. DO NOT induce vomiting. P303 + P36l + P353 IF ON SKIN (or hair): Remove. Take off immediately all contaminated clothing. Rinse skin with water / shower. P304 + P340 IF INHALED: Remove victim to fresh air and keep at rest in a position comfortable for breathing.
    [Show full text]
  • CX/FA 18/50/5 January 2018 JOINT FAO/WHO FOOD STANDARDS
    E Agenda Item 4 (a) CX/FA 18/50/5 January 2018 JOINT FAO/WHO FOOD STANDARDS PROGRAMME CODEX COMMITTEE ON FOOD ADDITIVES Fiftieth Session ENDORSEMENT AND/OR REVISION OF MAXIMUM LEVELS FOR FOOD ADDITIVES AND PROCESSING AIDS IN CODEX STANDARDS BACKGROUND 1. In accordance with the section concerning Relations between Commodity Committees and General Committees of the Codex Alimentarius Commission Procedural Manual, “All provisions in respect of food additives (including processing aids) contained in Codex commodity standards should be referred to the Committee on Food Additives, preferably before the Standards have been advanced to Step 5 of the Procedure for the Elaboration of Codex Standards or before they are considered by the commodity committee concerned at Step 7, though such referral should not be allowed to delay the progress of the Standard to the subsequent Steps of the Procedure.”. 2. The following food additive and processing aids provisions of Codex standards have been submitted for endorsement since the 49th Session of the Codex Committee on Food Additives and are listed by: (i) Technological function, INS number and food additive name; (ii) Maximum level; (iii) ADI (mg additive/kg body weight per day); and (iv) Notes. 3. The following abbreviations have been used in the preparation of this paper: INS International Numbering System for food additives. The INS (INS) is intended as a harmonised naming system for food additives as an alternative to the use of the specific name, which may be lengthy1. ADI Acceptable Daily Intake. An estimate of the amount of a substance in food or drinking-water, expressed on a body-weight basis, that can be ingested daily over a lifetime without appreciable risk (standard human = 60 kg)2.
    [Show full text]
  • Purified Sea Salt with Magnesium Carbonate
    Cargill® Food Processing Salts Purified Sea Saltwith Magnesium Carbonate Product Description Physical Information Purified Sea Salt with Magnesium Carbonate This material is a food grade, granular, white crystalline Purified Sea Salt with Magnesium Carbonate sodium chloride product manufactured under stringent PHYSICAL MIN TARGET MAX process control procedures. Cargill Sea Salts are made from Pacific Ocean sea salt, which is harvested from ponds NaCl (%) 99.7 99.96 100 near the San Francisco Bay. Ca & Mg as Ca (%) 0.003 Sulfate as SO4 (%) 0.01 Product Application Water Insolubles (%) 0.025 0.01 Bulk Density (#cu/ft) 69 74 84 This material is intended for table and cooking use, as well as direct application in foods manufactured by the various Bulk Density (g/l) 1105 1185 1345 food processing industries. This material contains Surface Moisture (%) 0.02 Magnesium Carbonate, which is added to improve caking Magnesium Carbonate (%) 0.5 resistance and flowability. PERCENT PARTICLE SIZE MIN TARGET MAX Product Certifications DISTRIBUTION (SCREENS) Sieve - USS 30 Mesh Retained 0 40 50 Cargill® Sea Salts meet USDA, FDA and Food Chemicals Codex for food use. Sieve - USS 40 Mesh Retained 34 Sieve - USS 50 Mesh Retained 16 Cargill® Sea Salts are certified Kosher for Passover (OU-P) SieveCargill - USS 70 Mesh® RetainedSea Salt 8 by the Orthodox Union. Sieve - Retained on Pan 0 1 10 Made with Sun, Wind and Time Allergen Status Harvesting sea salt from San Francisco Bay today is similar to the salt-making process that has been used for centuries. In accordance with the 2004 USA Food Allergen Labeling and Consumer Protection Act (FALCPA), no allergen declarations are required for this product.
    [Show full text]
  • Simple Chemical Experiments Simple Chemical Experiments
    SIMPLE CHEMICAL EXPERIMENTS SIMPLE CHEMICAL EXPERIMENTS By ALFRED MORGAN Illustrated by THE AUTHOR APPLETON-CENTURY-CROFTS, INC. NEW YORK COPYRIGHT, 1941, BY D. APPLETON-CENTURY COMPANY, INC All rights reserved. This book, or parts thereof, must not be reproduced in any form without permission of the publisher. PRINTED IN THE UNITED STATES OF AMERICA CONTENTS CHAPTER PAGE I. YOUR LABORATORY i II. EXPERIMENTS WITH PRECIPITATES .... 26 III. EXPERIMENTS WITH SULFUR AND SOME OF ITS COMPOUNDS 54 IV. EXPERIMENTS WITH OXYGEN AND OXYGEN COM­ POUNDS 73 V. EXPERIMENTS WITH GASES AND SOME OF THEIR COMPOUNDS 103 VI. CHEMICAL TESTS 123 VII. SAFE "FIREWORKS" 144 VIII. EXPERIMENTS WITH A FEW ORGANIC COMPOUNDS 156 IX. CHEMICAL TRICKS AND MAGIC 170 X. MISCELLANEOUS EXPERIMENTS 186 XI. PRACTICAL USES FOR YOUR CHEMICAL KNOWL­ EDGE 214 XII. THE CHEMICALS YOU WILL NEED . .231 INDEX OF CHEMICALS 259 GENERAL INDEX 263 V SIMPLE CHEMICAL EXPERIMENTS *> CHAPTER I I YOUR LABORATORY I OST of the experiments described in this book can be M performed without elaborate equipment or apparatus. | For them you will need only a few bottles, test-tubes, meas- i uring-spoons, and an alcohol lamp. Jelly glasses, mayonnaise f jars, small enameled saucepans, and thin glass tumblers can | often be substituted for the beakers, flasks, and glassware of I the professional chemist. t A few of the experiments require beakers, flasks, tubing, | funnels, filter paper, crucibles, mortar and pestle, and Bunsen I burner. The small sizes of these are not expensive. Frequently the cost of apparatus and chemicals can be shared by estab­ lishing a "community" laboratory which is used by two or more experimenters.
    [Show full text]
  • Medication Other Information Aches and Pains Constipation Cough/Cold Diarrhea Fever Over the Counter Medications in Pregnancy
    Over the Counter Medications in Pregnancy Women commonly use over the counter medications in pregnancy. This is a list of those medication you may safely use during pregnancy. If you have any questions about these medications and how to use them please contact your Healthcare Provider's office. Unless otherwise stated please take the medication as directed on the manufactures label. Medication Other Information Aches and Pains * Tylenol Extra Strength 500 mg tablet No more than 6 tablets in a 24 hour period * Tylenol 325 mg tablet No more than 8 in a 24 hour period Constipation Stool Softener Increases the amount of water in your stools to make them easier to pass * Colace (docusate sodium) * Surfak (docusate calcium) * Docusate Fiber Laxative Increases the amount of bulk in your stools to make them easier to pass * Metamucil (psyllium) * Fibercon (Calcium polycarbophil 625 mg) Stool Softener/Fiber Laxative Increases the amount of water in your stools to make them easier to pass * Peri-Colace (docusate sodium/sennosides) * Senekot -S (docusate sodium/sennosides) Osmotic Laxative Increases the amount of water in your stools to make them easier to pass * Milk of Magnesia * MiraLax (polyethylene glycol 3350) Cough/Cold Expectorants Help thin mucus and phlegm so they can be coughed up * Robitussin * Guaifenesin Antihistamines Can be used to relieve seasonal allergy and common cold symptoms of nasal congestion, * Chlorpheniramine sneezing and itchy eyes Cough Suppressants Help calm a cough * Dextromethorphan Decongestants Are used to relieve
    [Show full text]
  • (12) United States Patent (10) Patent No.: US 8,815,911 B2 Pettersson Et Al
    US00881.5911B2 (12) United States Patent (10) Patent No.: US 8,815,911 B2 Pettersson et al. (45) Date of Patent: Aug. 26, 2014 (54) ALFENTANIL COMPOSITION FOR THE WO WO-OOf 16751 A1 3, 2000 TREATMENT OF ACUTE PAIN WO WO-OOf 51539 A1 9, 2000 WO WO-01/30288 A1 5, 2001 WO WO-O2/O67903 A2 9, 2002 (71) Applicant: Orexo AB, Uppsala (SE) WO WOO3,OO5944 A1 1, 2003 WO WO-2004/067004 A1 8, 2004 (72) Inventors: Anders Pettersson, Kode (SE); Barbro WO WO-2006/097361 A1 9, 2006 Johansson, Uppsala (SE); Emil WO WO-2006,103418 A1 10, 2006 Schwan, Uppsala (SE) WO WO-2007/081948 A2 7, 2007 s WO WO-2007/081949 A2 7/2007 WO WO-2007/141328 A1 12/2007 (73) Assignee: Orexo AB, Uppsala (SE) WO WO-2008/068471 A1 6, 2008 - WO WO-2008/085765 A2 7, 2008 (*) Notice: Subject to any disclaimer, the term of this WO WO-2008, 106689 A2 9, 2008 patent is extended or adjusted under 35 W. W838887} h A. 5,588 U.S.C. 154(b) by 0 days. WO WO-2010/059504 A1 5, 2010 WO WO-2010, 132605 A1 11, 2010 (21) Appl. No.: 13/874,762 WO WO-2010/141505 A1 12/2010 WO WO-2011/O17484 A2 2, 2011 (22) Filed: May 1, 2013 WO WO-2011/057199 A1 5, 2011 (65) Prior Publication Data OTHER PUBLICATIONS US 2014/OOO5223 A1 Jan. 2, 2014 FDA Guidance for Industry. Orally Disintegrating Tablets; Dec. 2008. (30) Foreign Application Priority Data Mohanachandran et al.
    [Show full text]
  • United States Patent Office Patented Nov
    3,539,306 United States Patent Office Patented Nov. 10, 1970 2 properties of quick activity, durable effect and storage 3,539,306 PROCESS FOR THE PREPARATION Stability, and that, therefore, the same can provide an ex OF HYDROTALCITE cellent, ideal antacid. Teruhiko Kumura and Norio Imataki, Takamatsu-shi, Hydrotalcite is known as a mineral having a chemical Katuyuki Hasui, Kagawa-ken, and Takeo Inoue and 5 Structure of the formula Kimiaki Yasutomi, Nagao-machi, Kagawa-ken, Japan, assignors to Kyowa Chemical Industry Co., Ltd., Tokyo, MgAl(OH) 16CO3 4HO O Al2O3 6MgO CO2: 12H2O Japan, a corporation of Japan No Drawing. Filed July 21, 1967, Ser. No. 654,977 which has been naturally produced in only very limited Claims priority, application Japan, July 25, 1966, areas as Norway and Ural. Also a process for the syn 41/48,349; July 17, 1967, 42/45,658 O thesis of hydrotalcite was disclosed, which comprises add Int. C. COf 5/00, 7/00, A61k 27/06 ing Dry Ice or ammonium carbonate to a mixture of U.S. C. 23-315 4 Claims magnesium oxide and y-alumina or the thermal decom position product from of magnesium nitrate and aluminum nitrate, and thereafter maintaining the system at tempera ABSTRACT OF THE DISCLOSURE, tures below 325 C. and under elevated pressures of total A process for the preparation of hydrotalcite which 2,000-20,000 p.s.i. (Roy et al.: American Journal of comprises mixing an alumium component such as alumi Science 251, 350-353 (1953)). However this process is num Salt With a magnesium component such as magnesium obviously unpractical for industrial scale production of Salt in an aqueous medium in the presence of carbonate hydrotalcite, because the reaction system must be main ion at a pH of at least 8 and thereafter recovering the 20 tained under considerably high pressures.
    [Show full text]
  • Navy Boiler Water Chemical Tests and Treatments
    Experiment 14D Final 2/2015 NAVY BOILER WATER CHEMICAL TESTS AND TREATMENTS MATERIALS: Automatic zero burets, 100 and 10 mL graduated cylinders, 400 mL beaker, magnetic stir bar, 50-mL buret, evaporating dish, two 100 mL volumetric flasks, 250 mL Erlenmeyer flasks, boiler water, 0.010 M HNO3, 0.050 M HNO3, 0.0050 M Hg(NO3)2, 0.0200 M Na2S2O3, 2.0 M MnSO4, KOH – KI solution, 0.060 M Na2SO3 (must be fresh), 18 M H2SO4, 2% starch solution, phenolphthalein, methyl purple, chloride indicator, pH meter, thermometer, magnetic stirrer; conductivity meter. PURPOSE: The purpose of this experiment is to familiarize the student with the chemical tests used for Navy boiler water systems, and to demonstrate the chemical principles associated with some of the tests and treatments used for these critical systems. These tests are used aboard ships to monitor the quality of the feed water to prevent scale formation and corrosion. LEARNING OBJECTIVES: By the end of this experiment, the student should be able to demonstrate the following proficiencies: 1. Explain the use of buffers in boiler water treatment. 2. Explain the process of an acid/base titration and the use of indicators. 3. Standardize and use a pH meter. 4. Convert concentration units of molarity to ppm (parts per million). 5. Explain the role of chloride ion testing and conductivity monitoring for boiler water. 6. Describe a chemical treatment for removing dissolved oxygen from water. PRE-LAB: Complete the pre-lab prior to lab. DISCUSSION - NAVY BOILER WATER TESTS All Naval vessels use boilers to prepare steam.
    [Show full text]
  • Disposal of Solid Chemicals in the Normal Trash
    Disposal of Solid Chemicals in the Normal Trash Many solid chemicals can be safety discarded into the normal trash, provided they are in containers that are not broken or cracked and have tightly fitting caps. These chemicals are considered acceptable for ordinary disposal because they display none of the properties of hazardous waste, are of low acute toxicity, and have not been identified as having any chronic toxic effects as summarized in the National Institute of Occupational Safety and Health (NIOSH) “Registry of Toxic Effects of Chemical Substances”. Examples of chemicals acceptable for disposal as regular trash are listed below. To dispose of these chemicals, place the containers in a box lined with a plastic bag, tape the top of the box shut, write “Normal Trash” on the box and then place the box next to the lab trash container. Only solid forms of these chemicals can be disposed in this manner. Any questions about these chemicals or other chemicals that may be disposed of in the normal trash should be directed to the Hazardous Materials Technician (610) 330-5225. Chemicals Generally Acceptable for Disposal as Regular Trash Acacia powder, gum Detergent (most) Methyl salicylate Sodium carbonate arabic Cation exchange resins Methylene blue Sodium chloride Acid, Ascorbic Chromatographic Methyl stearate Sodium citrate Acid, Benzoic absorbents Nutrient agar Sodium dodecyl sulfate Acid, Boric Crystal violet Octacosane (SDS) Acid, Casamind Dextrin Parafin Sodium formate Acid, Citric Dextrose Pepsin Sodium iodide Acid, Lactic Diatomaceous
    [Show full text]
  • Dietary Supplements Compendium Volume 1
    2015 Dietary Supplements Compendium DSC Volume 1 General Notices and Requirements USP–NF General Chapters USP–NF Dietary Supplement Monographs USP–NF Excipient Monographs FCC General Provisions FCC Monographs FCC Identity Standards FCC Appendices Reagents, Indicators, and Solutions Reference Tables DSC217M_DSCVol1_Title_2015-01_V3.indd 1 2/2/15 12:18 PM 2 Notice and Warning Concerning U.S. Patent or Trademark Rights The inclusion in the USP Dietary Supplements Compendium of a monograph on any dietary supplement in respect to which patent or trademark rights may exist shall not be deemed, and is not intended as, a grant of, or authority to exercise, any right or privilege protected by such patent or trademark. All such rights and privileges are vested in the patent or trademark owner, and no other person may exercise the same without express permission, authority, or license secured from such patent or trademark owner. Concerning Use of the USP Dietary Supplements Compendium Attention is called to the fact that USP Dietary Supplements Compendium text is fully copyrighted. Authors and others wishing to use portions of the text should request permission to do so from the Legal Department of the United States Pharmacopeial Convention. Copyright © 2015 The United States Pharmacopeial Convention ISBN: 978-1-936424-41-2 12601 Twinbrook Parkway, Rockville, MD 20852 All rights reserved. DSC Contents iii Contents USP Dietary Supplements Compendium Volume 1 Volume 2 Members . v. Preface . v Mission and Preface . 1 Dietary Supplements Admission Evaluations . 1. General Notices and Requirements . 9 USP Dietary Supplement Verification Program . .205 USP–NF General Chapters . 25 Dietary Supplements Regulatory USP–NF Dietary Supplement Monographs .
    [Show full text]