авторефераты диссертаций БЕСПЛАТНАЯ БИБЛИОТЕКА РОССИИ

КОНФЕРЕНЦИИ, КНИГИ, ПОСОБИЯ, НАУЧНЫЕ ИЗДАНИЯ

<< ГЛАВНАЯ
АГРОИНЖЕНЕРИЯ
АСТРОНОМИЯ
БЕЗОПАСНОСТЬ
БИОЛОГИЯ
ЗЕМЛЯ
ИНФОРМАТИКА
ИСКУССТВОВЕДЕНИЕ
ИСТОРИЯ
КУЛЬТУРОЛОГИЯ
МАШИНОСТРОЕНИЕ
МЕДИЦИНА
МЕТАЛЛУРГИЯ
МЕХАНИКА
ПЕДАГОГИКА
ПОЛИТИКА
ПРИБОРОСТРОЕНИЕ
ПРОДОВОЛЬСТВИЕ
ПСИХОЛОГИЯ
РАДИОТЕХНИКА
СЕЛЬСКОЕ ХОЗЯЙСТВО
СОЦИОЛОГИЯ
СТРОИТЕЛЬСТВО
ТЕХНИЧЕСКИЕ НАУКИ
ТРАНСПОРТ
ФАРМАЦЕВТИКА
ФИЗИКА
ФИЗИОЛОГИЯ
ФИЛОЛОГИЯ
ФИЛОСОФИЯ
ХИМИЯ
ЭКОНОМИКА
ЭЛЕКТРОТЕХНИКА
ЭНЕРГЕТИКА
ЮРИСПРУДЕНЦИЯ
ЯЗЫКОЗНАНИЕ
РАЗНОЕ
КОНТАКТЫ


Pages:     | 1 |   ...   | 2 | 3 || 5 | 6 |   ...   | 7 |

«Правительство Калужской области Министерство развития информационного общества и инноваций Калужской области КАТАЛОГ научно-технических ...»

-- [ Страница 4 ] --

Время полного заполнения флакона (13 мл) — не более ми нуты.

Объём элюента может колебаться от 5 до 13 мл в зависимости от срока эксплуатации генератора и необходимой объёмной активности получаемых в клинике радиофармпрепаратов.

Элюирование может быть прекращено в любое время удалени ем вакуумированного флакона с элюатом. Генератор содержит 200 см3 элюента.

Масса генератора (без упаковки) 13 кг, масса генератора в транспортном упаковочном комплекте 18 кг. Защитный кон тейнер и транспортная упаковка обеспечивают вторую транс портную категорию радиационной безопасности Наукоемкая, высокоэффективная и технологичная разра Инновационные ботка аспекты Применяется для диагностики заболеваний при клинических Маркетинг обследованиях путем введения в организм человека радионукли продукта да технеция-99m в фармакологическом сопровождении или без такового с последующей визуализацией исследуемого органа с помощью гамма-камеры КАТАЛОГ научно-технических разработок и инновационных проектов Калужской области Пертехнетат (99mТс) натрия используется в сцинтиграфии Маркетинг мозга и миокарда, щитовидной железы, слюнных желез и для продукта изучения перфузии легких, а в виде препаратов меченых 99mТс, для селективного осмотра печени, легких, костей, почек и т. д.

Готовность поставки по договору Текущая стадия разработки Цена и условия продажи договорные Финансовый план Защищено патентами и авторскими свидетельствами РФ Права интеллек туальной собственности Контактная информация Организация/фирма Адрес Филиал федерального государственного 249033, унитарного предприятия Калужская обл., г. Обнинск, «Ордена Трудового Красного Знамени Киевское шоссе, 109 км научно-исследовательский физико-химический институт имени Л.Я. Карпова» (Филиал ФГУП «НИФХИ им. Л.Я. КАРПОВА») Контактное лицо Телефон Факс E-mail Косушкин 8 (48439) 7-47-13, 8 (48439) 6-39-11 fci@КarpovIPC.ru Виктор Григорьевич 7-40- Большаков Алексей Владимирович КАТАЛОГ научно-технических разработок и инновационных проектов Калужской области Радиофармпрепарат «Урекапс 14С»

Твердые желатиновые капсулы для проведения диагностики Аннотация больного Твердые желатиновые капсулы № 4 в упаковке по 20 шт. или Описание в флаконе по 25 штук.

конечного Также могут поставляться комплекты для проведения про продукта цедуры: капсула с радиофармпрепаратом (РФП) «Урекапс 14С»

и расходные материалы для проведения диагностики.

Диагностика осуществляется путем неинвазивного дыхатель ного теста на жидкостном сцинтилляционном счетчике.

Тест рекомендуется выполнять до проведения эндоскопии желудочно-кишечного тракта (ЖКТ).

Техника выполнения теста Одну капсулу (активностью 37 кБк) следует запить 20 мл теплой воды в положении сидя. Через 3 мин. дополнительно вы пить 10 мл теплой воды. На 10 минуте пациент должен сделать глубокий вдох и после 5–10 секунд задержки дыхания медленно выдохнуть с помощью пластмассовой трубочки в поглотитель ную жидкость синего цвета, находящуюся в сцинтилляционном флаконе. При обесцвечивании синей окраски поглотительной жидкости пациент должен прекратить выдыхать воздух. В этот флакон добавляют 7,5 мл сцинтилляционного раствора и изме ряют на бета-счетчике радиоактивность пробы.

Лечебное учреждение, применяющее РФП «Уреакапс 14С»

освобождается от необходимости получения специального раз решения на работу с материалами и изделиями, содержащими С, если на рабочем месте в лечебном учреждении ежедневно на ходится не более 150 капсул, в хранилище лечебного учреждения ежедневно находится 2 700 капсул, в течение года проводится не более 5 000 обследований.

Доза облучения, получаемая при обследовании, пренебрежимо мала и равна дозе, получаемой при пребывании в течение 12 часов в нормальных условиях естественного фона Наукоемкая, высокоэффективная и технологичная разра Инновационные ботка аспекты Препарат предназначен для ранней диагностики язвенных и Маркетинг онкологических заболеваний ЖКТ.

продукта Скрининг-диагностика обсемененности Helicobacter pylori при заболеваниях ЖКТ (в т. ч. язвы желудка и двенадцатиперст ной кишки, онкологических) КАТАЛОГ научно-технических разработок и инновационных проектов Калужской области Контроль за эффективностью эрадикационной терапии He Маркетинг licobacter pylori (не ранее, чем через месяц после окончания продукта терапии) Готовность поставки по договору Текущая стадия разработки Цена и условия продажи договорные Финансовый план Защищено патентами и авторскими свидетельствами РФ Права интеллек туальной собственности Контактная информация Организация/фирма Адрес Филиал федерального государственного 249033, Калужская обл., унитарного предприятия г. Обнинск, Киевское шоссе, 109 км «Ордена Трудового Красного Знамени научно-исследовательский физико-химический институт имени Л.Я. Карпова» (Филиал ФГУП «НИФХИ им. Л.Я. КАРПОВА») Контактное лицо Телефон Факс E-mail Косушкин 8 (48439) 7-47-13, 8 (48439) 6-39-11 fci@КarpovIPC.ru Виктор Григорьевич 7-40- Большаков Алексей Владимирович КАТАЛОГ научно-технических разработок и инновационных проектов Калужской области Цилиндрические патронные фильтры тонкой очистки из полиэтилена Патронные фильтры из полиэтилена для тонкой очистки Аннотация питьевой, технологической, охлаждающей и оборотной воды, спиртосодержащих жидкостей, алкогольных, безалкогольных напитков, пищевых продуктов и других Изделия характеризуются высокой производительностью при Описание невысоком гидродинамическом сопротивлении.

конечного Тонкость очистки: 1;

3;

5;

10;

20;

50 и 100 мкм.

продукта Размеры: внешний диаметр от 20 до 120 мм (стандарт — 70 мм);

толщина фильтрующей перегородки от 5 до 15 мм;

длина до 1 000 мм.

Максимальная рабочая температура до 100 °С.

Максимальный перепад давления при 20 °С 3,0 МПа.

По заказу могут быть изготовлены фильтры нестандартных размеров (от нескольких мм до 1 м), а также со специальными добавками — бактерицидными, ионообменными. Возможно из готовление плоских или нестандартной формы образцов.

Перепад давления 0,024 0,033 0,042 0,051 0,060 0, на фильтр, МПа Удельная производитель ность фильтра л/чассм 18 24 33 42 52 (длины эл.) по воде при тон кости фильтрации 1мКм Достоинства фильтров Жесткость и устойчивость конструкции, отсутствие осыпи или других выделений в фильтрат, исключена вероятность неравномерной фильтрации, фильтр изготовлен из чистого по лиэтилена и не содержит каких-либо добавок или включений, возможность применения фильтров практически во всех типах фильтрационных аппаратов КАТАЛОГ научно-технических разработок и инновационных проектов Калужской области Наукоемкая, высокоэффективная и технологичная разра Инновационные ботка аспекты Возможные области применения: очистка питьевой, техноло Маркетинг гической, охлаждающей и оборотной воды, спиртосодержащих продукта жидкостей, алкогольных, безалкогольных напитков, пищевых продуктов, красок, смол, лаков, фотографических эмульсий, магнитных и фоторезистных лаков, растворов полимеров, элек тролизных и гальванических растворов, воды и реактивов для электроники, извлечение твердых продуктов реакций, отделение катализаторов от продуктов реакции, рециркуляционная очистка смазочно-охлаждающей жидкости, машинных и гидравлических масел, осушка и очистка горючесмазочных материалов, удаление нефтяных веществ из сточных вод, пневматическая аэрация в системах биологической очистки сточных вод, очистка и осушка компрессорного воздуха и сжатых технологических газов, дехло рирование воды, очистка силикатных и других клеев и др.

Готовность поставки по договору Текущая стадия разработки Цена и условия продажи договорные Финансовый план Защищено патентами и авторскими свидетельствами РФ Права интеллек туальной собственности КАТАЛОГ научно-технических разработок и инновационных проектов Калужской области Контактная информация Организация/фирма Адрес Филиал федерального государственного 249033, Калужская обл., унитарного предприятия г. Обнинск, Киевское шоссе, 109 км «Ордена Трудового Красного Знамени научно-исследовательский физико-химический институт имени Л.Я. Карпова» (Филиал ФГУП «НИФХИ им. Л.Я. КАРПОВА») Контактное лицо Телефон Факс E-mail Косушкин 8 (48439) 7-47-13, 8 (48439) 6-39-11 fci@КarpovIPC.ru Виктор Григорьевич 7-40- Большаков Алексей Владимирович КАТАЛОГ научно-технических разработок и инновационных проектов Калужской области Термоусаживаемые радиационно-модифицированные полимерные трубы и лента с адгезионноактивным слоем Производство термоусаживаемых радиационно-модифици Аннотация рованных полимерных труб и ленты с адгезионноактивным слоем Термоусаживающаяся лента, которая представляет собой «лен Описание ту-основу» из полиэтилена и адгезионноактивный клеевой слой.

конечного Геометрические размеры ленты определяются диаметром трубо продукта провода (таблица 1). Размеры труб представлены в таблице 2.

Таблица Ширина, мм 150 — 600 Степень усадки, % Толщина, мм 0,8 — 3,0 Продольная 10– 200, 10, Длина, м Поперечная не более не более Адгезия к стали, Температура -60 — +100 Н/см ширины по 35– эксплуатации, °С ГОСТ Таблица Внутренний Внутренний Толщина, Длина, м Усилие при диаметр до диаметр мм усадке, кг/см усадки, после усадки, мм мм 40 14 40 20 50 20 100 — 60 30 2 3, (бухта) 90 30 80 40 120 40 Наукоемкая, высокоэффективная и технологичная разра Инновационные ботка аспекты КАТАЛОГ научно-технических разработок и инновационных проектов Калужской области Лента используется для изоляции в целях антикоррозионной Маркетинг защиты трубопроводов различного назначения, при ремонте по продукта крытий трубопроводов и сварных швов.

Термоусаживаемые трубы находят самое широкое примене ние в виде манжет, муфт, оконцевателей для защиты сварных швов стальных труб большого диаметра, а также для изоляции и герметизации высоковольтных кабелей, проводов, элементов ВОЛС и т. д.

Термоусаживаемые материалы и изделия используются, главным образом, как изоляционные изделия для защиты гидро, электро и химически корродирующих конструкций от воздей ствия внешней среды (трубы), герметизации электросиловых установок (ремонтные комплекты силовых кабельных сетей), крепление различных механических разделок и т. д.

Готовность поставки по договору Текущая стадия разработки Цена и условия продажи договорные Финансовый план Защищено патентами и авторскими свидетельствами РФ Права интеллек туальной собственности Контактная информация Организация/фирма Адрес Филиал федерального государственного 249033, Калужская обл., унитарного предприятия г. Обнинск, Киевское шоссе, 109 км «Ордена Трудового Красного Знамени научно-исследовательский физико-химический институт имени Л.Я. Карпова» (Филиал ФГУП «НИФХИ им. Л.Я. КАРПОВА») Контактное лицо Телефон Факс E-mail Косушкин 8 (48439) 7-47-13, 8(48439) 6-39-11 fci@КarpovIPC.ru Виктор Григорьевич 7-40- Большаков Алексей Владимирович КАТАЛОГ научно-технических разработок и инновационных проектов Калужской области Радиационносшитый пенополиэтилен (ППЭ-Р) Производство радиационносшитого пенополиэтилена (ППЭ-Р) Аннотация За счет сшивки увеличиваются такие важнейшие параметры, Описание как теплостойкость, стойкость к органическим растворителям, конечного масло-, нефте-, бензостойкость, стойкость к ультрафиолету продукта и атмосферостойкость и соответственно срок службы самого материала.

Плотность, кг/м3 33 — 200 Коэффициент 0,03 — теплопроводности, 0, вт/м град Толщина листа, мм 2 — Интервал рабочих -60 — Ширина листа, см 50 — температур,°С + Прочность при Водопоглощение, г/м 5 — 12 0,4 — 0, растяжении, кг/см Коэффициент звукопоглощения при толщине 10 мм Частота 250 Гц 7 Частота 1 000 Гц Частота 500 Гц 15 Частота 4 000 Гц Пенополиэтилен обладает сочетанием ряда физических и химических свойств: мягкость, эластичность;

упругость;

малый вес;

химическая стойкость;

долговечность;

стойкость к гниению;

почти нулевое водопоглощение;

легкая механическая обработка;

широкий выбор толщин и плотностей материала;

пригоден для труб горячей и холодной воды;

отличная гидро-, паро-, шумо-, теплоизоляция;

простота применения;

экологическая и гигие ническая безопасность КАТАЛОГ научно-технических разработок и инновационных проектов Калужской области Наукоемкая, высокоэффективная и технологичная разра Инновационные ботка аспекты Пенополиэтилен — легкий, не впитывающий влагу рулонный Маркетинг материал, предназначенный для гидро-, паро-, шумо-, тепло продукта изоляции в строительстве, автомобильной и нефтехимической промышленности, а также для использования в качестве спор тивного инвентаря.

Также может быть использован в качестве упаковочного материала. Материал удобен в обращении. Его можно легко свернуть в виде рулона, пакета и т. д. Пенополи этилен легко подвергается механической обработке резанием, штамповке, термовакуумному формованию, сварке, склеиванию, дублированию с другими материалами Готовность поставки по договору Текущая стадия разработки Цена и условия продажи договорные Финансовый план Защищено патентами и авторскими свидетельствами РФ Права интеллек туальной собственности КАТАЛОГ научно-технических разработок и инновационных проектов Калужской области Контактная информация Организация/фирма Адрес Филиал федерального государственного 249033, Калужская обл., унитарного предприятия г. Обнинск, Киевское шоссе, 109 км «Ордена Трудового Красного Знамени научно-исследовательский физико-химический институт имени Л.Я. Карпова» (Филиал ФГУП «НИФХИ им. Л.Я. КАРПОВА») Контактное лицо Телефон Факс E-mail Косушкин 8 (48439) 7-47-13, 8 (48439) 6-39-11 fci@КarpovIPC.ru Виктор Григорьевич 7-40- Большаков Алексей Владимирович КАТАЛОГ научно-технических разработок и инновационных проектов Калужской области Препреги радиационного изготовления Производство препрег радиационного изготовления Аннотация Препреги радиационного изготовления обладают большой Описание жизнеспособностью (1–4 года). Препреги радиационного из конечного готовления хорошо рулонируются и перерабатываются всеми продукта известными методами. Композиционные материалы, полученные из препрегов радиационного изготовления обладают повышен ной теплостойкостью.

Рабочая температура до 250 °С.

Радиационного из- Термохимического Показатели готовления изготовления Плотность, г/см3 1,52 1, Предел прочности при 984 растяжении, МПа Модуль упругости при 221 растяжении, ГПа Предел прочности при 90 межслоевом сдвиге, МПа Предел прочности при 1 250 1 статическом изгибе, МПа Модуль упругости при 141 статическом изгибе, МПа Предел прочности 1 050 на сжатие, МПа Коэффициент теплопроводности, 0,52 0, ккал/м °С Наукоемкая, высокоэффективная и технологичная разра Инновационные ботка аспекты Машиностроение: изготовление рессор, крыльев автомобилей, Маркетинг бамперов, глушителей и других изделий из композитов.

продукта Авиация и космос: получение высокопрочных высокомодуль ных композиционных материалов с высокой теплостойкостью, углеродных материалов КАТАЛОГ научно-технических разработок и инновационных проектов Калужской области Электротехника и электроника: получение фольгированных Маркетинг диэлектриков с высокими техническими параметрами, изготов продукта ление обмотки трансформаторов с высокой теплостойкостью (250 °С).

Спортивные товары: изготовление лыж, теннисных ракеток и т. д.

Готовность поставки по договору Текущая стадия разработки Цена и условия продажи договорные Финансовый план Защищено патентами и авторскими свидетельствами РФ Права интеллек туальной собственности Контактная информация Организация/фирма Адрес Филиал федерального государственного 249033, Калужская обл., унитарного предприятия г. Обнинск, Киевское шоссе, 109 км «Ордена Трудового Красного Знамени научно-исследовательский физико-химический институт имени Л.Я. Карпова» (Филиал ФГУП «НИФХИ им. Л.Я. КАРПОВА») Контактное лицо Телефон Факс E-mail Косушкин 8 (48439) 7-47-13, 8 (48439) 6-39-11 fci@КarpovIPC.ru Виктор Григорьевич 7-40- Большаков Алексей Владимирович КАТАЛОГ научно-технических разработок и инновационных проектов Калужской области fhkjhk Kaluga Region Gavernment Kaluga Region Ministry for Developing an Information Society and Innovations A Kaluga Region CATALOGUE of R&D Projects in Science and Engineering Издательство Калуга «Ноосфера» Contents Development of Alpha/Beta/Gamma Detector...................................................................................... Developing Technology for Industrial Growth of LaBr3(Ce) Crystals............................................. Manufacture of Highly Efficient New Generation Separator-free ФАС-В-3500 Aerosol Filters Certified on Innovative Technologies System................................... Antifriction, Wearproof Nanocomposite Mineral Coating for Tribological Components............ Technology for Nano-modified Ceramic Components Manufacture for Glass-melting Unit...... Oxygen and Carbon Oxide Analyzer for Steam Generating Units and Industrial Furnaces Equipped with an Econ Nanoceramic Sensor........................................................................ Development and Manufacture of Lambda Probe Based on Econ Nanoceramic Sensor for Internal Combustion Engines................................................................................................................ Development of Processes for Oxide Ceramics Manufacture Based on Nanometer Powders for Multi-purpose Electro-chemical Sensors.............................................. High-temperature Humidity Analyzer with Econ Nanoceramic Detector...................................... Die-casting Unit for Nanometer Powder-doped Ceramics.................................................................. Oxygen Analyzer with Econ Nanoceramic Detector for Life-support Units on Board Military and Civil Aircraft.............................................................. Express-Eco Membranes: Development of Polymer Membranes and Filtering Equipment....... Development and Mass-production of Intense-current Overvoltage Cutoff Device: УЗП-1600.................................................................. Expanding Production of Nano-structured Membranes and Development of Manufacturing Facilities on Their Basis for In-depth Potable and Service Water Purification.................................................................................................................... Detectors for Oxygen, Hydrogen and Combustible Gas Control on the Basis of Nano-structured Sensing Ceramics............................................................................... SYSTEM FOR CONTROLLING ECOLOGICAL SAFETY OF CITIES (TERRITORIES).................................................................................................................... Developing Sets of Nanodiamonds and Mesenchyme Stem Cell Products to Treat Cardiac Muscle Failure Irrespective of Its Genesis................................................................ Organising the Production of Lyophilizates (Cold Sets) for Obtaining Radiological Pharmaceutical Medication on the Basis of Technetium-99m and Rhenium-188.......................... MELTING CRYSTALLISED HONEY IN A METAL CONTAINER............................................ DEVELOPING NEW ELECTROMAGNETIC RADIATION SOLUTIONS IN ORGANIC PRODUCT TECHNOLOGIES FOR LONGER ROOT CROP, VEGETABLE AND FRUIT STORAGE AND LOSS REDUCTION............................................ RESEARCH AND SOLUTION DEVELOPMENT FOR COUNTRYSIDE SEWAGE UV TREATMENT AND BIO-FILTRATION.................................................................... System for Veneer Moisture Content Control on Line.......................................................................... Development of High-temperature Turbine Power Units with Pilot Specimen Manufactured and Tested.............................................................................................................................

MEGACON: Multi-purpose Gas Analyser............................................................................................... SANDWICH PANEL PRODUCTION FROM FOAMED POLYTHENE WASTE FOR SMALLSIZE HOUSING.................................................................................................. ‘UZOR-3K’ LASER THERAPEUTIC DEVICE.................................................................................. ‘UZOR-3KS’: SCANNING LASER THERAPEUTIC DEVICE..................................................... ‘ULAN-БЛ-20’ BIO-STIMULATOR........................................................................................................ ‘URAT-PACK’: UROLOGICAL ATTACHMENT................................................................................. ‘UKOL-VLOK’: INTRAVENOUS LASER BLOOD RADIATION DEVICE.............................. LASER THERAPY HEADS........................................................................................................................ Development and Commercialisation of Liquid-phase Epitaxial Technology for 3rd-plus Generation Night Vision Devices......................................................................................... Development, Production and Promotion of a Series of Specialised Medicative Nutrient Products............................................................................................................................................ Development of High-yield Grass Stand Technology on Goat’s Rue Basis under Low-fertility Conditions................................................................................................................................ RADIOTRACER PRODUCTION FOR DIAGNOSING PRE-STROKE CONDITION........ Hard— and Software Set for High-precision Drilling and Milling Machine on Granite Slab with Aerostatic Supports for Polygraphy Engineering Products......................... Solving the Ecological Problem of Brewery Waste Recycling............................................................. Setting Up Mass-production of EXTRATHERM-M UHF Hyperthermic Unit for Malignant Tumour Therapy......................................................................................................... Development of Closed-cycle Monocrystal 100mm Gallium Arsenide Wafer and Epitaxial А3В5 Compound Structure Production Technology for High-efficiency Emitters Using Highly Refined Arsenic from New Sources................................................................ Magnetic Device for Separating Smallsize Ferrous Inclusions from Various Liquefied Materials................................................................................................................ Development and Registration of a New Domestic Radioprotector Drug....................................... Development of КУВ-ЦТА-А and КУВ-ЦТА-С Digital Phone Extension Set............................ DEVELOPMENT AND MASS-PRODUCTION OF NEW SORBENTS, DEHYDRATORS AND COMPOSITE DOPES FROM TRIPOLI MINED AT ZIKEYEVO, KALUGA REGION....................................................................................................... COMBINED ULTRAVIOLET AND OZONE POTATO TREATMENT UNIT......................... УП-М: New Type Packaging Material....................................................................................................... ПРАМ: Integrated Propylene Glycol-based Food Additive................................................................. Expander-driven Generators........................................................................................................................ Floating Power Generation Unit................................................................................................................. Heat Extraction Steam Turbines for Combined-cycle Power Plant................................................... Technetium Generator (99mTc).................................................................................................................... Urecaps 14С: Radiopharmaceutical Drug................................................................................................... Fine Polythene Cylindrical Cartridge Filters.......................................................................................... Thermocontracting Radiation-modified Polymer Tubing and Active Adhesive Film................... Radiation-spliced Foamed Polythene......................................................................................................... Radiation-produced Prepregs....................................................................................................................... A Kaluga Region CATALOGUE of R&D Projects in Science and Engineering Development of Alpha/Beta/Gamma Detector The project is aimed at developing manufacture of prototype Abstract detecting hardware designed to simultaneously and efficiently meter alpha/beta/gamma radiation on the basis of a plastic scintillator.

Useful model patent, design documentation, organised pro End-product duction Described 1. Simultaneous measurement of alpha/beta/gamma radiation Innovative through the use of a plastic scintillator Features 2. Enhanced registration efficiency as against competition — Estimated output volume: 500 detectors per annum.

Product — Market share estimate is based on realistic predictions of Marketing the sales of similar equipment which, however, is inferior in terms of its performance and cost-effectiveness.

— Nuclear power stations, Ministry of the Interior, Emergency Response Service, customs.

— High exportability potential owing to superior specifica tions and cost-effectiveness as compared to world competition Prototype tests Current Status — Project completion: Financial Plan — Invested so far: ~ 2m rubles — Payback term: 5 years Useful model patent Intellectual Property Rights Information for Reference Organisation/Firm Address STARK Ltd: Scintillator-controlled 14 Marx Prospect, Obninsk 249035, Radiation Technologies Kaluga Region Contact Person Phone Fax E-mail Meleta 8(48439) 4-97-16, 8(48439) 4-97-68 main@radico.ru Dmitry Evgenievich 4-97- A Kaluga Region CATALOGUE of R&D Projects in Science and Engineering Developing Technology for Industrial Growth of LaBr3(Ce) Crystals The project is aimed at setting up hi-tech production of grown Abstract and packaged crystals of LaBr3 (Ce) (including original mate rial synthesis;

growing, processing and packaging crystals). This production facility would contribute towards radiation control systems unrivalled either in Russia or elsewhere.

Invention patent, description of industrial LaBr3 (Ce) crystal End-product growth technology, organised production.

Described 1. The LaBr3(Ce) crystal is hygroscopic (absorbs moisture).

Innovative Doping it with a special substance drastically reduces its absorb Features ent capacity.

2. There is only one company in the world – Saint-Gobain Crystals (France) – which grows crystals like this industrially.

The development of peaceful nuclear energetics started in Product 1954 as the USSR commissioned the first nuclear power plant Marketing in Obninsk. The plant’s output was a mere 5MW, but it was fol lowed by ever more powerful plants all over the world.

By the 1980s, there were about 300 nuclear reactors in opera tion totaling some 200GW. Nuclear power output accounted for nearly 10% of the world’s aggregate power generation. A quarter of a century had thus seen a growth in nuclear power output from 5 to 200,000MW. At no point in history has there been integra tion at such a pace of a new power engineering technology into the life of a society.

Currently, the equipment for automated power unit radiation control in Russia would cost on the average some 250–300 mil lion rubles. The project’s cost effectiveness can thus speak for itself. Radioactive waste disposal, whether it be nuclear materi als, junk metal or the like, also calls for radiation monitoring.

The stance of states that have nuclear power stations or nuclear power engineering, according to IAEA (International Atomic Energy Agency), is as follows:

— the number of countries that are going to dispense with nu clear power once their existing nuclear reactors have exhausted their useful life: 6;

— the number of countries prepared to authorise new units without warranting any benefits to the companies in question: 5;

A Kaluga Region CATALOGUE of R&D Projects in Science and Engineering — the number of countries eager to support construction of Product new units: 6;

Marketing — the number of countries supporting construction of one new unit: 4;

— the number of countries supporting a programme for new unit and nuclear power plant construction: 9.

Statistics for countries newly embarking on nuclear power projects are as follows:

— the number of countries not planning nuclear power sta tion construction, yet interested in a variety of ongoing nuclear programmes: 16;

— the number of countries that are keen in earnest on nuclear power station construction: 14;

— the number of countries actively in preparation for nuclear power station construction, but uncommitted as yet: 7;

— the number of countries committed to nuclear power station construction, that have embarked on infrastructure preparation: 4;

— the number of countries that have invited tenders for nu clear power station construction master contractors: 1;

— the number of countries busy constructing their first nu clear power station: 1.

IAEA estimates of the scope of nuclear power station con struction are as follows:

— optimistic estimate: the world’s aggregate nuclear power plant output will have gone up from 372.2GW in 2007 to 747.5GW in 2030;

— conservative estimate: the world’s aggregate nuclear power plant output will have gone up from 372.2GW in to 473.2GW in 2030.

The volume of products/services as planned, accounting for R&D expectations:

2013 : 320m rubles 2014 : 400m rubles 2015 : 480m rubles 2016 : 560m rubles 2017 : 640m rubles.

Debugging industrial crystal growth technology Current Status A Kaluga Region CATALOGUE of R&D Projects in Science and Engineering — Project completion: Financial Plan — Invested so far: ~ 15m rubles — Required: up to 100m rubles in 2012, up to 100m rubles in — Payback term: 5 years Invention patent available Intellectual Property Rights Information for Reference Organisation/Firm Address Scientific Production Association 14 Marx Prospect, Obninsk 249035, ‘Radiation Control. Instrumentation Kaluga Region and Methods’ (RADICO Ltd) Contact Person Phone Fax E-mail Meleta 8(48439) 4-97-16, 8(48439) 4-97-68 main@radico.ru Dmitry Evgenievich 4-97- A Kaluga Region CATALOGUE of R&D Projects in Science and Engineering Manufacture of Highly Efficient New Generation Separator-free ФАС-В-3500 Aerosol Filters Certified on Innovative Technologies System Twin-section Heat-resistant Fiberglass Aerosol Filters of Technology/product under development as 3500m3/h Rated Capacity, Supported by Non-metallic Separa tors per subject head ФАС-В-3500 is the Russian Federation’s first fine non-sepa Abstract rated W-shaped filtering package improving a number of es sential parameters and meeting the requirements of the Russian Standards НП-021-2000, НП-036-05. ФАС-В-3500 was thus the only filter in the Russian Federation to be certified on the Innovative Technologies System in 2011.

Mass-produced new-generation separator-free filters certi End-product fied under the Innovative Technologies System and supplied Described to relevant enterprises without mandatory quality control by regulating bodies.

Dispensing with metallic separators at the fine filter stage Innovative while simultaneously improving the filter’s specifications. Full Features conformity with the requirements of the Russian Standards НП-021-2000, НП-036-05. ФАС-В-3500 was thus the only filter in the Russian Federation to be certified under the Innovative Technologies System.

Advantages over competition:

Product 1. Filter is 10% lighter (by about 3kg).

Marketing 2.Better chemical stability in aggressive environment.

3. No expensive metal used for separators.

4. 40% less aerodynamic drag.

5. 20% greater filtering area (larger dust capacity).

6. Easy waste disposal (no aluminium separators).

A Kaluga Region CATALOGUE of R&D Projects in Science and Engineering The business is aimed at the slender share of the aerosol filter Product market. The market volume is 2,900 pieces a year, conditioned Marketing as it is by the yearly demand on the part of the Russian nuclear power plants and chemical refineries.

Also of interest is the additional demand by nuclear power stations in the former USSR areas and abroad, as well as by pharmaceutical and medical enterprises of the Russian Federa tion. The international market might absorb some 6,000 filters a year.

Mass production Current Status Project completion: 2012. Necessary is an investment of Financial Plan 800,000 rubles. Economic efficiency would be 24% over the first year. Payback: the fourth quarter once mass production has been started. The concept behind this business is development at the sole expense of creditor debt, minimum running costs, practi cally nil assets outside of turnover (a mere 30,000 rubles), and outsourcing to secure the financial and, in part, manufacturing activities of the enterprise.

The patent belongs to the Russian Federation Scientific Cen Intellectual tre under the Energy and Power Engineering Institute named Property Rights after A I Leipunsky, one of the founders of AeroFilter Ltd. The patent has been conceded as part of a licensing agreement.

Information for Reference Organisation/Firm Address AeroFilter Ltd, in conjunction with Russian 4 Gorky St, Obninsk 249033, Federation R&D Centre: ОЦНТ Group Kaluga Region Contact Person Phone Fax E-mail Larichev 8(48439) 5-86-06, 8(48439) 5-86-06 aerofiltr@yandex.ru Maxim Anatolievich 2-85- www.aerofiltr.ru A Kaluga Region CATALOGUE of R&D Projects in Science and Engineering Antifriction, Wearproof Nanocomposite Mineral Coating for Tribological Components 1.4.3. Nanofilm & Nanocoating Technology/product 7.1.2. Technologies Based on Physical Impact Synergy under development as per subject head The project seeks a market for a variety of nanocomposite, Abstract wearproof mineral coatings with a view to commercializing them on a broad scale.

What makes them distinct is that the coating technology involved is a brand-new product aimed at the wearproof coating market, based as it is on a recent scientific discovery (2 Febru ary 07).

The coats in question feature prescribed properties that minimize adhesion between a pair of tribological components with a view to reducing the friction factor and precluding mass transfer (material pickup) from one surface to the other at ef fective pressures. Use is made of natural materials that form, in a dedicated unit, nanocoats with prescribed properties (antifric tion, wearproof, scuff-proof) for tribological components. The principle involved is incorporating nanocomposite mineral coats into the crystalline lattice of metals.

The use of up to 100-nanometer nanopowders, combined with ultrasound impact, results in a nanocomposite surface structure that boasts properties ordered by composition and size, 20 to nanometers, thus providing a mechanical characteristics change both in the nanocomposite coating and the metal body. What we get is a combined mineral coating with prescribed tribological properties and an enhanced resistance to corrosion.

The technology proposed reaches far and wide, ensuring tribological components for any mechanical system of use both in new product manufacture and in repairs/reconditioning. It protects all kinds of mechanical systems in operation from wear and tear, prolongs their life and cuts down power consumption, due to less mechanical loss in machinery. Minimum losses to fric tion are ensured in the manufacture of new products, whose life would by far exceed their competition. Once implemented, the project would usher in coatings that sport improved resistance to wear and tear, to corrosion, while having high antifriction characteristics.

A Kaluga Region CATALOGUE of R&D Projects in Science and Engineering Proposed is the manufacture of the following kinds of mineral End-product coating:

Described — combined wearproof mineral coating around shaft bushings (jackets) impregnated with abrasive particles and lubricated with water, as well as around parts that depend on dry friction;

— antifriction coating to reduce friction and scuff-proof shafts, rods, hubs, gearing and other parts that depend on oil;

— antifriction coating with enhanced resistance to corrosion to reduce friction and wear and tear in tribological components exposed to aggressive agents (salt mist, hydrogen sulfide with steam, alkali and the like);

— wearproof, antifriction mineral coatings for titanium alloys to reduce friction and wear and tear on the slide/roll surface of titanium friction pairs.

The development is innovative in that it provides a new way Innovative of obtaining antifriction, wearproof mineral coatings on the basis Features of nanomaterials through the use of a novel unit for applying composite antifriction, wearproof mineral coatings, while simul taneously forming friction pair surfaces with high resistance to friction, wear and tear, and corrosion.

The competition this technology faces is mostly traditional Product technologies such as chrome-plating, the use of chrome nitrite, Marketing galvanic methods, all of which consume a lot of power, destroy the ecology, are complicated in application, and limiting in the mass and dimension range, while yielding anything but stable results.

— The consumer advantages over the competition are: an ecol ogy-friendly technology as compared to a chemical and thermal one (nitriding, and chrome nitriting), or a galvanic one, for the use of natural minerals rules out occupational disease common on the galvanic floor (respiratory organs, skin conditions and the like).

— The technological advantages are: higher resistance to wear and tear and corrosion, low friction, and low labour intensiveness involved in building up a surface layer with prescribed proper ties, as against the competition. Additionally, the technological cycle is quite short. For example, when used in lieu of chrome nitrating and galvanizing, the technological cycle is cut down 2–3-fold.

— The scientific advantages are: the use of the cutting-edge advances in science and technology, as witnessed by the dis covery certificate and diploma No. 323, registration No. 409 of 2 February 2007, in Moscow, issued by St Petersburg’s Naval Academy named after USSR Admiral Kuznetsov.

A Kaluga Region CATALOGUE of R&D Projects in Science and Engineering — Market studies painstakingly carried out for 3 years suggest Product that no similar product is available in the Russian Federation Marketing territory, there is nothing but traditional technology available.

The following groups can be singled out as potential customers:

— power generation companies (about 20%);

— engineering companies (about 25%);

— municipal energetics companies (water management com panies and heat providers) (about 10%);

— ship-building and overhauling companies (about 20%);

— other customers (about 25%).

Payable market volume is believed to be the Russian Federa tion territory and the Commonwealth of Independent States.

— The novelty is ready for industrial use, and is actually used Current Status (geothermal power plant turbines, parts of floating nuclear power plants).

— Approved by the Russian Federation’s Maritime Shipping Register — Available is a considered opinion by the First R&D Institute under Russia’s Ministry of Defence On the Use of Combined Mineral Coating in Mechanical Systems of Naval Ships.

Work is in progress on specific custom-made coats — Once complete, the project will usher in mass production of Financial Plan far-reaching nanocomposite mineral coats for power engineering, ship- and machine-building.

— Late 2013.

Investments to the tune of 30,000,000 rubles are in order for project completion to take care of dedicated units: for coating, for electric-spark hardening, for ultrasonic machining;

for instru mentation (hardness gages, including micro-gages, profilers and other essential equipment).

— Profit is estimated to amount 250m rubles.

— Useful model patent taken out: No. 84280, Unit for Intellectual Combined Mineral Coating Application as per Petition No.

Property Rights 2009105223 of 17 February 2009.

— Invention patent taken out: No. 2421548, Technique for Forming Combined Mineral Surface Layers with Prescribed Tribological Characteristics to Protect Machine Parts from Exposure to Aggressive Agents of 20 June 2011.

A Kaluga Region CATALOGUE of R&D Projects in Science and Engineering Information for Reference Organisation/Firm Address Scientific Production Association 39 Komsomolskaya Roscha St, Geoenergetics Ltd Kaluga, Russia Contact Person Phone Fax E-mail Kislov, S V 8(4842) 75-15-15 8(4842) 75-05-05 geoen@mail.ru A Kaluga Region CATALOGUE of R&D Projects in Science and Engineering Technology for Nano-modified Ceramic Components Manufacture for Glass-melting Unit 1.1. Nanocrystals & Nanoparticles Technology/product under development as per subject head Project/technology or product summary: Currently used Abstract as materials for glass-melting units are alloys of platinum and rhodium or palladium, since they remain chemically inert at high operating temperatures (up to 15000С) and can survive in an oxidizing atmosphere. Unfortunately, these metals are quite costly and rare. Their content in the earth crust is: Rh 10-7 %;

Pd 10-6 %;

Pt 5.10–7%. It might, therefore, be a good idea to supplant the platinum group metals by the Earth’s commoner compounds such as oxygen, silicon, aluminium and carbon.

The molecules of silicon nitride (Si3N4), aluminium oxide (Al2O3), zirconium oxide (ZrO2) and silicon carbide (SiC) boast highly powerful covalent bonds and remain chemically stable even at high temperatures. These compounds are non-toxic and produce no toxic compounds in operation.

It’s common knowledge that metals heated up to 0.9 Тmelt., lose most of their strength, while ceramics remains just as durable even heated to much higher temperatures. Proposed as a sub stitute for platinum-alloy parts, therefore, are ceramic materials based on aluminium oxide, zirconium oxide, silicon nitride and silicon carbide.

It’s noteworthy that the chemical compounds evolving in the SiC-Pt and SiC-Pd system have a melting temperature below that of pure components. Eutectic temperatures within both sys tems are below 1,0000С. Brittle low-melt chemical compounds such as platinum and palladium silicides are particularly vulner able at high temperatures. Silicides are also formed when silicon interacts with rhodium, iridium and ruthenium.

To test the performance of a material based on silicon nitride, products were manufactured as a substitute for the top of an or dinary glass-melting unit. With the heating system unchanged, trials of the products were run for 9 months. The results indicated that ceramics was resistant both to molten glass and to oxidation, that due to improved heat insulation, the power consumption was reduced by 2%, and 100g of the platinum-rhodium alloy had been saved in a 100-spinneret array.

A Kaluga Region CATALOGUE of R&D Projects in Science and Engineering The innovative project would result in a platinum-free tech End-product nology for producing glass fibers, thus reducing costs by 20%, Described saving expensive and rare platinum, and enhancing safety for the personnel.

The use of platinum-free materials in glass-melting units is Innovative a pressing industrial problem not only in manufacture, but in Features consumption as well. It’s noteworthy that the problem is relevant both to Russia, to the Commonwealth of Independent States, and to the rest of the world. The alternative is replacing platinum alloys with industrial ceramics.

To cut the cost of platinum-rhodium glass-melting units, the mass of platinum used has to be reduced and replaced with ceramic materials. Additionally, the heating method has to be altered: rather than passing a current through the platinum rhodium glass-melting units, the heat is transferred from the ceramic heaters to the melting pot, thus making it possible to manufacture it from insulating ceramic materials.

— No competition on domestic or international market.

Product — Market studies have been conducted.

Marketing — Potential customers: fiberglass and mineral wool producers:

Astrakhan Fiberglass joint-stock company, Novgorod Fiber glass joint-stock company, Polotsk Fiberglass joint-stock com pany, Glassplastic scientific production association (Moscow).

— Payable market volume: 25.0m rubles a year.

— A search has been conducted for patents and data on the Current Status subject ‘Nanopowders for Modifying Ceramics Suitable for Glass-melting Units’, — A set of drawings has been made for a ceramic glass-melting unit, with due account taken of ceramic top trials, — Calculations have been done of ceramic products’ thermal strength, — Tooling has been made for the manufacture of an upgraded ceramic glass-melting unit.

Currently, work is under way on industrial process develop ment — Project completion: Financial Plan — Invested so far:

— Bortnik Foundation: 1m rubles;

— Outside investor: 1m rubles.

A Kaluga Region CATALOGUE of R&D Projects in Science and Engineering — 9m rubles required to complete the project (for process Financial Plan development and obtaining equipment for gyrotronic glass heating).

— Payback period: 1 year after industrial production launch.

Cost-effectiveness estimate (profitability upon implementa tion):

— Estimated profit per product: 40 thousand rubles.

— Sales per year: 350pcs.

Patent taken out for Vessel for Fiberglass Manufacture Intellectual Property Rights Information for Reference Organisation/Firm Address Kaluga Nanoindustry Regional 15 Kiev Highway, Obninsk 249035, Scientific and Production Centre Russia Contact Person Phone Fax E-mail Shkarupa 8 915-890-21-41 8(48439) 4-78-21 shkarupa@ Igor Leonidovich technologiya.ru A Kaluga Region CATALOGUE of R&D Projects in Science and Engineering Oxygen and Carbon Oxide Analyzer for Steam Generating Units and Industrial Furnaces Equipped with an Econ Nanoceramic Sensor Development is proposed of a stationary non-sampling solid Abstract electrolyte-and-nanoceramic-powder oxygen and carbon oxide analyzer to determine authentically, speedily and immediately the content of oxygen and carbon oxide in a variety of gaseous media at high temperatures. At this point, no domestic non sampling oxygen and СО analyzer is available that employs solid ceramic electrolytes. Gas analyzers of the kind are sure to be viable, featuring a number of engineering advantages as compared to the competition.

Automated optimum operation control of steam generating End-product units fueled by coal, oil or natural gas, including with high sul Described phur content, and a variety of technological furnaces.

It’s common knowledge that combustion control relies on the content of oxygen in the exhaust. Automated systems of combus tion control, which typically employ stationary gas analyzers, determine an optimum fuel-air ratio by the oxygen content value that has to be as close to zero as possible for the best results. In other words, all oxygen should have been combusted, in which case there has been enough of it to complete the process of burn ing with no energy spent to heat up its excess.

In practical terms, however, even with an excess of oxygen in the exhaust fumes (0.3 – 0.8 % of volume) a sharp rise in СО concentration may occur. It is occasioned by the wear and tear of the boiler equipment due to unwarranted access of air to the combustion chamber, faulty burners, fuel-to-air ratio upset, fuel mutability, air humidity and so on. To preclude that, boilers are controlled to keep up an excess of oxygen at a level of 1.0 — 2.0% of volume, in order to rule out chemical underfiring and CO formation. As a result, additional energy is spent on heating this excess of air. Besides, some fuels such as fuel oil with high sulphur content speed up sulphuric corrosion processes and shorten equipment life.

The gas analyzer does not only read the oxygen content, but also the hydrocarbon and СО content (underfiring), thus regulating the combustion process on the strength of the read ings against the СО limit. This regulatory technique is highly sensitive to combustion characteristics change.

A Kaluga Region CATALOGUE of R&D Projects in Science and Engineering The gas analyzer comprises a stationary sensor mounted on End-product the boiler, and electronic hardware that processes the signal and Described displays readings.

Gas Analyzer Specifications (as planned):

Oxygen reading range, % of vol 0.1– СО reading range (underfiring), % of vol 0–0. Flue temperature, °С 25– Atmospheric pressure, кPа 84.6–104. Relative error for О2 ± 2,0 % Relative error for СО ±4% Reading delay, s. no more than Unified current output, mА 0–5 (4–20) Communications interface Modebus RTU (RS-485) Immersion probe length, mm up to 2, Life, thousand hours Scientific and engineering novelties as planned:


— Chemical, granulometric and phase composition of solid electrolyte ceramics on the basis of zirconium dioxide for the CO sensor with the use of nanometer powders.

— Design and processes involved in the manufacture of the nano-structured CO sensor.

Currently mass-produced abroad are gas analyzers devel Product oped by MRU GmbH (Germany), Testo AG (Germany) and Marketing Yokogawa Electric (Japan).

However, their price is twice as high or more as ours;

similarly high are their installation and maintenance costs. Additionally, this foreign competition is not always adjusted to industrial use in this country, given our worn-out equipment, deviations from the established processes and low-grade fuel. What makes our gas analyzer currently under development viable is its low price and characteristics similar to imports, which makes it affordable by domestic customers.

A Kaluga Region CATALOGUE of R&D Projects in Science and Engineering Currently mass-produced abroad are gas analyzers devel Product oped by MRU GmbH (Germany), Testo AG (Germany) and Marketing Yokogawa Electric (Japan).

However, their price is twice as high or more as ours;

similarly high are their installation and maintenance costs. Additionally, this foreign competition is not always adjusted to industrial use in this country, given our worn-out equipment, deviations from the established processes and low-grade fuel. What makes our gas analyzer currently under development viable is its low price and characteristics similar to imports, which makes it affordable by domestic customers.

Domestically produced are gas analyzers for fume control such as those manufactured by Analytpribor (Smolensk), Promanalyt pribor (Novosibirsk Province), EcoMon (Moscow), Informana lytics (St Petersburg), Uralecoautomatics (Ekaterinburg). Some of those employ the thermo-catalytic principle to determine CO content (АКВТ-03, Optima-3 by Analytpribor, Smolensk), others use the optic-absorption principle (АСП-Ecomer by Pro manalytpribor, Novosibirsk Province), or the electro-chemical principle relying on sampling and sample delivery (КГА-8С by EcoMon, Moscow).

All of the above CO metering methods have decided disad vantages evident in their specifications and consumer charac teristics.

For example, the thermo-catalytic principle relying on heat emissions when the carbon oxide and oxygen combine on a cata lyst is insensitive to small amounts of СО, and ineffective in the absence of oxygen;

besides, catalytic sensors get overwhelmed by substances that contain carbon, and have to be frequently checked and replaced.

The disadvantages of the optic-absorption method that de pends on the ability of substances to discriminately absorb rays within a certain wavelength proceed from the unreliability of the optical equipment, fouling and the effects of the extraneous contaminants in the fuel, something very much in evidence in this country, where steam generating units use low-grade fuel (this method is used by most imports).

The disadvantages of the sampling methods center on the ef fort of sampling, preserving the sample, installing and operating a sampling line, never mind low accuracy and time-consuming response.

A Kaluga Region CATALOGUE of R&D Projects in Science and Engineering Econ has for 12 years been manufacturing non-sampling Current Status solid-electrolyte analyzers for steam generating units operating within a temperature range of 25 — 760°С. Econ gas analyzers are used by over 800 facilities in Russia and abroad. The processes have been integrated, and relevant science-intensive solutions found, to wit:

— developed and fine-tuned is a technology for mass-produc ing solid-electrolyte ceramics doped with nanomaterials for oxygen sensors;

— welding and high-temperature soldering processes for a variety of ceramic and metal-cum-ceramic joints in an air-tight vacuum have been integrated;

— metal-film coating processes have been integrated;

— manufactured and certified is dedicated equipment for metrological approval of mass-produced devices;

— laboratory tests are being run on a model of the gas ana lyzer.

Project completion would see the creation of domestically Financial Plan made high-temperature gas-mixture control oxygen and CO analyzers suited to Russian conditions and capable of automating the fuel-combustion process and controlling other high-tem perature processes.

The project in its entirety amounts to 8.0m rubles. Another 4.0m rubles is necessary to implement the project, while funds in the amount of 4.0m rubles have been invested by Econ (the company’s own funds).

The investments would be used on the following lines:

— development of sensor and electronic hardware design: ~ 500,000 rubles;

— development of the sensor ceramic components manufac turing process:

— development of high-temperature sensor shell, sensor electrodes and sensor electrolyte cell: ~ 800,000 rubles;

— electronic hardware manufacture: ~ 50,000 rubles;

— development of heavy-duty ion-conducting nano-structured oxide ceramics manufacturing process: ~ 1,000,000 rubles;

— manufacture of metrology stand: ~ 300,000 rubles;

— manufacture of prototype analyzers: ~ 200,000 rubles;

— prototype laboratory tests: ~ 200,000 rubles;

A Kaluga Region CATALOGUE of R&D Projects in Science and Engineering — prototype industrial tests: ~ 300,000 rubles;

Financial Plan — device certification: ~ 600,00 rubles;

— other expenses: ~ 50,000 rubles.

Investment payback is expected to take two years, whereupon the business will yield a profit. The project’s cost-effectiveness amounts to 30%, the profit, accordingly, is estimated to be in the amount of ~ 1,500 thousand rubles a year.

Econ’s rights to engineering and technological solutions are Intellectual reserved by the following patents and certificates:

Property Rights — Fume Sensor. Invention patent No. 2142129, priority of 10 February 1997.

— Sensing Ceramic Element of the Solid-electrolyte Oxygen Concentration Sensor. Useful model certificate No. 15403, prior ity of 27 April 2000.

— Manufacturing Method for the Sensing Element of the Solid-electrolyte Oxygen Concentration Sensor. Invention pat ent No. 2167415, priority of 25 April 2000.

— Sensing Element of the Oxygen Analyzer and Its Manu facturing Method. Invention patent No. 2339027, priority of December 2007.

— Electro-chemical Cell: Oxygen Sensor and Its Manufac turing Method. Patent application No. 2010112932 of 5 April 2010.

Information for Reference Organisation/Firm Address Close Corporation Econ 1 Bondarenko Sq, Obninsk 249030, Kaluga Region Contact Person Phone Fax Web-site Chernova 8(48439) 6-62-66 8(48439) 6-62-66 econ.obninsk.ru Margarita Efimovna A Kaluga Region CATALOGUE of R&D Projects in Science and Engineering Development and Manufacture of Lambda Probe Based on Econ Nanoceramic Sensor for Internal Combustion Engines An engine’s (and hence, a car’s) regular operation and road Abstract worthiness, its fuel consumption, fume toxicity and the like depend altogether on the authenticity of the data from the com puter-controlled sensors. Essential in this system is the oxygen sensor (lambda probe) based on a nanometer detector.

The engine’s control system processes the oxygen sensor End-product signal to adjust the fuel mixture accordingly. Should the sensor Described reading suggest that the mixture is rich, it is depleted. Should the mixture be lean, it is enriched. In a close circuit, a change in mixture results in a different oxygen content in the exhaust and a corresponding change in the sensor reading. The objective is a stoichiometric air/fuel ratio (14.7/1) conducive to full fuel combustion.

The oxygen sensor operating principle depends upon the electro-chemical method for determining oxygen concentration, with a solid oxide electrolyte of nanometer ceramics – zirconium dioxide – instrumental in discriminating ion conductivity with, in this case, respect to oxygen ions.

Specifications (as planned):

Emf at 600°С and corresponding air excess, mV:

=0.95 780... =1.05 60... Response time as emf changes from 300 to 600mV, s 0. Heater power at 600°С and 12V, W Sensor length, mm 80– The device under development complete with electronic con trol system will see to a decrease in carbon oxide, hydrocarbons and nitrogen oxides in the internal combustion engine exhaust to the EURO-2, EURO-3, EURO-4 toxicity levels.

At this point, Russia does not domestically produce the Product lambda probe, a most important component in the internal com Marketing bustion engine control system;

the automotive industry has to import these components. Once lambda probes are domestically developed, manufactured, metrology-tested and mass-produced, they will lick one of the toxicity problems in domestic internal combustion vehicles.

A Kaluga Region CATALOGUE of R&D Projects in Science and Engineering Our proposition is unique in that it has marked advantages for Product Russia: it will supersede imports, and the domestically produced Marketing materials and components will cut down the price.

Market studies conducted in conjunction with Kaluga’s Auto electronics Company suggest that the device will be very much in demand with domestic automobile producers (V AZ, GAZ and others), as well as with spare parts dealers.

The process has been perfected and prototypes manufactured Current Status of the nanometer-doped ceramic detector in the shape of a test tube.

Econ, in cooperation with its suppliers, has invested its funds in the development, manufacture and trials at the V facilities AZ of such detector prototypes.


Project completion would result in a batch (150–200pcs) of Financial Plan lambda probe oxygen sensors for industrial trials.

The cost of the project in its entirety is 15.0m rubles. Required for project implementation is 7.0m rubles, while funds to the tune of 8.0m rubles are to be invested by Econ and a number of its suppliers.

The investment will be used as follows:

— developing the mass-production processes for the manufacture of nanometer ceramics ~ 1,500,000 rubles;

A Kaluga Region CATALOGUE of R&D Projects in Science and Engineering — manufacture of a prototype batch ~ 600,000 rubles;

Financial Plan — developing a rig for testing the design and the product as a whole ~ 700,000 rubles;

— developing the processes for the manufacture of dedicated electric heaters ~ 800,000 rubles;

— prototype sensor batch metrology ~ 400,000 rubles;

— prototype sensor batch laboratory testing ~ 500,000 rubles;

— prototype sensor batch industrial trials ~ 1,800,000 rubles;

— device certification ~ 600,000 rubles;

— other expenses ~ 100,000 rubles.

Payback is expected within two years, and a profit will start coming in half a year later. The project’s cost-effectiveness is estimated at 30%, with a profit of ~ 10,000 thousand a year ac cordingly.

Oxygen Concentration Solid Electrolyte Sensor Ceramic Intellectual Detector. Useful model certificate No. 15403, priority of Property Rights April 2000.

Method for Oxygen Concentration Solid Electrolyte Sensor Ceramic Detector Manufacture. Invention patent No. 2167415, priority of 25 April 2000.

Oxygen Analyzer Detector and Its Manufacture Method.

Invention patent No. 2339027, priority of 10 December 2007.

Electro-chemical Cell: Oxygen Detector and Its Manufacture Method. Application for a patent, No. 2010112932 of 5 April 2010.

Information for Reference Organisation/Firm Address Close Corporation Econ 1 Bondarenko Sq, Obninsk 249030, Kaluga Region Contact Person Phone Fax Web-site Chernova 8(48439) 6-62-66 8(48439) 6-62-66 econ.obninsk.ru Margarita Efimovna A Kaluga Region CATALOGUE of R&D Projects in Science and Engineering Development of Processes for Oxide Ceramics Manufacture Based on Nanometer Powders for Multi-purpose Electro-chemical Sensors Econ has been working on ceramic oxide materials that boast Abstract new physical and technological properties when doped with nanometer powders.

When implemented, the project would feature a technology for the manufacture of durable oxide materials capable of stand ing thermal shocks, while having high thermal conductivity and requiring low-temperature manufacturing processes.

Products of the kind are essential for reliable high-tem perature sensors in the manufacture of gas analyzers and other important ceramic devices.

For the first time ever, a technology has been developed for implanting nanoparticles into powders, and prototype oxide ma terial batches obtained that boast an anomalously high thermal conductivity. Oxide ceramic products made of these materials have a number of advantages: high thermal conductivity, en hanced plasticity and thermal strength.

Materials thus developed can be used under high mechanical stress and at high temperature gradients under conditions of temperature cycling. Enhanced thermal conductivity reduces temperature differences from the product’s centre to its periph ery, thus relaxing mechanical strain. This would prolong product life, heighten reliability, cut down costs, and make production more cost-effective.

Development of an industrial technology for ceramic powder End-product manufacture highly resistant to thermal shock and highly heat Described conductive.

Ceramic materials are highly fireproof oxides and their compounds such as aluminium oxide Al2O3, magnesium oxide MgO, zirconium dioxide ZrO2, aluminium-magnesium spinel MgAl2O4, mullite 3Al2O3.SiO2, forsterite 2MgO.SiO2, zircon ZrSiO4, as well as corundum ceramics of the ЦМ-322, ГБ-7 and 22ХС series.

For products combining ceramic and metallic materials, the important usability factor is the closeness of their thermal linear expansion coefficient (TLEC) values (See Table), something that makes it possible to choose the right ceramic for combining with a metal.

A Kaluga Region CATALOGUE of R&D Projects in Science and Engineering Mean values of TLEC107 1/К in the 20 …1000 °С range End-product Described Al2O3 MgO ZrO2 MgAl2O4 3Al2O3 2MgO ZrSiO4 ЦМ-322 ГБ-7 22ХС SiO2 SiO 85 142 100 86 53 85 42 83 84 The technology as proposed is essential for creating extremely reliable high-temperature sensors for use in gas analyzers:

— for energy companies;

— for gas admixture control such as О2 and Н2 in liquid metals for use at nuclear power plants;

— for manufacturing oxygen analyzers as used in life-support oxygen units on board military and civil aircraft;

— for manufacturing oxygen analyzers (-probes) as used in vehicles;

— for manufacturing fuel solid-oxide cells to provide electro chemical power supply;

— for manufacturing medical devices (oxygen generators and analyzers);

— for technological ceramics.

Econ experience suggests that the quality, reliability and Product stability of performance in a variety of sensor operations largely Marketing depend on the specifications and properties of the original pow ders, whether natural or synthesized.

Of special interest are the properties of nanometer ceramic powders.

High-temperature oxide ceramics obtained as a result of this project has rather many uses both in Russia and elsewhere for devices employed by energy companies that rely on fossil fuel combustion to produce electricity and heat, by ferrous and non ferrous metallurgy companies, by oil and gas refineries for heater control, by glass and ceramics works, by chemical enterprises, by the automotive and aircraft industries, and by medicine.

Market studies have been conducted through Econ’s numer ous sources and lasting business contacts with potential custom ers for ceramics and ceramics-based devices. Lasting business ties have currently been established both in Russia and the near abroad, as well as in the Baltic and other states.

A Kaluga Region CATALOGUE of R&D Projects in Science and Engineering Econ is one of the eight enterprises in this country that have Current Status been developing and manufacturing technological ceramics based on zirconium dioxide and are knowledgeable about the requisite technologies and equipment (report by analytical company Informain Ltd).

The Econ staff has highly qualified science and engineer ing specialists (mechanics, assembly-line operators, welders, turners, and instrumentation repairmen);

the company has the experimental and production facilities to develop and manufac ture quality ceramic parts. The processes involved have been developed and the relevant science-intensive solutions found, to wit:

— processes have been developed for forming prototype batches of nanometer powder solid-electrolyte ceramics;

— processes have been developed for metal coatings;

— welding and high-temperature vacuum-tight soldering processes for a variety of ceramic joints have been perfected;

— dedicated equipment for metrology appraisal has been cre ated and approved.

The project envisages development of processes involved in the manufacture of industrial product batches.

A Kaluga Region CATALOGUE of R&D Projects in Science and Engineering The cost of the project in its entirety is 20,000,000 rubles.

Financial Plan The project implementation calls for 15,000,000 rubles, with 5,000,000 rubles invested by Econ out of its own funds.

The investments would be used as follows:

— building premises that meet all the requisite require ments;

— purchasing equipment;

— R&D work continued;

— certification;

— other expenses.

Payback is expected within three to seven years. A more accurate estimate is out of the question at the moment, for the project is costly and time-consuming. As the original data are assessed and specified and the financing conditions elucidated, the project’s cost-effectiveness will be appraised.

Econ’s engineering and technological solution rights are Intellectual reserved by the following patents and certificates:

Property Rights — Fume Sensor. Invention patent No. 2142129, priority of 10 February 1997.

— Sensing Ceramic Element of the Solid-electrolyte Oxygen Concentration Sensor. Useful model certificate No. 15403, prior ity of 27 April 2000.

— Manufacturing Method for the Sensing Element of the Solid-electrolyte Oxygen Concentration Sensor. Invention pat ent No. 2167415, priority of 25 April 2000.

— Sensing Element of the Oxygen Analyzer and Its Manu facturing Method. Invention patent No. 2339027, priority of December 2007.

— Electro-chemical Cell: Oxygen Sensor and Its Manufac turing Method. Patent application No. 2010112932 of 5 April 2010.

Information for Reference Organisation/Firm Address Close Corporation Econ 1 Bondarenko Sq, Obninsk 249030, Kaluga Region Contact Person Phone Fax Web-site Chernova 8(48439) 6-62-66 8(48439) 6-62-66 econ.obninsk.ru Margarita Efimovna A Kaluga Region CATALOGUE of R&D Projects in Science and Engineering High-temperature Humidity Analyzer with Econ Nanoceramic Detector The idea behind this project is a novel device: Russia’s first Abstract high-temperature humidity analyzer. The device is essential for controlling a number of technological parameters: humidity, temperature and pressure by a set of equipment, to innovatively dry lumber at high temperatures at sawmills, construction and furniture-making companies.

Thermally processed lumber is a well-known material that boasts essentially new and advanced properties. Industrial equipment for heat-treating lumber constitutes a prospective new market as represented by companies from Europe, Russia and the Commonwealth of Independent States.

The key component of the high-temperature humidity ana lyzer under development is a nanometer-ceramic detector.

Timber is conventionally dried in convector-type chambers.

End-product However, the most sophisticated and efficient method is drying Described at higher temperatures and humidity. Finland leads the way in high-temperature lumber drying and has come up with the world’s first technologies and materials under the trade name Thermo Wood®. The technologies have been gaining currency lately in Russia and the Commonwealth of Independent States.

The use of high-temperature drying processes yields a markedly higher product quality as against the traditional methods: mois ture absorption is materially reduced and resistance to a variety of physical, chemical and biological impacts enhanced.

Uncontrolled heretofore in high-temperature (up to 240°С) timber-drying is one of the most important parameters of the process – gas (drying agent) humidity. The reason why is the lack of affordable humidity meters for gases operating at temperatures above 100–120°С and heightened pressures.

Econ proposes to develop a new device: a high-temperature humidity analyzer. It is a stationary sampling-free microproces sor analyzer that meters gas humidity (that of the air and water/ vapour mixture) in the process of drying. It would be capable of metering gas humidity at heightened environment temperatures (up to 400°С), pressures and humidity. The use of the Econ high temperature humidity analyzer would continually and reliably monitor the environment’s basic parameters in the process of drying: humidity, temperature and pressure, while ensuring au tomated control and optimizing drying modes, improving quality, minimizing power bills, and prolonging equipment life.

A Kaluga Region CATALOGUE of R&D Projects in Science and Engineering It’s noteworthy that the device would be Russia’s first.

End-product The device would consist of three external detector probes:

Described an oxygen partial pressure detector, a gas pressure detector, a temperature detector and electronic hardware. The detector probes would comprise a ceramic sensing element based on nano structured oxide ceramics, and be connected to the hardware by cable lines. The analyzer would calculate the humidity, display the relative and absolute humidity, the relative and absolute pressure, the temperature – in short, the set of data character izing the microclimate in the drying chamber. To integrate the device into the automatic process control system, it is planned to have a digital output interfaced by RS-485 on the ModBus protocol, as well as unified current outputs 4...20mА that gener ate an analog signal in proportion to the humidity, pressure and temperature in the environment under control.

Environment characteristics:

Temperature 20 – 4000С 0 – 1 000g/m Absolute humidity Relative humidity 0 – 100%.

Absolute pressure 0.05 – 0.25MPa Gas flow rate 0 – 15m/s 0 – 50g/m Dust level Hydrocarbon and other combustible gas content by volume: up to 0.5% Power consumption 100W The product is aimed at enterprises that are keen on getting Product a share of the new prospective market, that of heat-treated Marketing lumber.

Potential customers are wood-processing, building and furni ture companies, as well as those developing, manufacturing and maintaining dedicated thermal equipment for high-temperature lumber treatment.

The general market volume can tentatively be estimated at 300 devices a year, with Russia’s share of about 80 – 100pcs a year (30%);

the share of the Commonwealth of Independent States (Byelorussia, Ukraine, Kazakhstan) can absorb up to 20pcs a year (5%);

the share of the European market (Finland, Germany, Italy, the Netherlands) accounts for approximately 200pcs a year (65%).

In Russia and the Commonwealth of Independent States, this method of wood treatment was introduced in the early 21st century, and the market outlook can be quite promising.

A Kaluga Region CATALOGUE of R&D Projects in Science and Engineering The major foreign competition may be represented by West Product inghouse (USA) and Yokogawa (Japan). No such devices are Marketing domestically made. The foreign competitors’ prices are much higher: for example, the Westinghouse device is priced at ~ thousand rubles, the Yokogawa one at ~ 190 thousand rubles.

What would make our device viable is the advantage of a lower price and a larger volume of services, along with the swift re sponse to mutable market demand, and better warranty and post-warranty service.

Viability as against foreign firms can be vouchsafed by:

— the lower price;

— the larger volume of services;

— the swift response to mutable market demand.

The Econ staff has highly qualified science and engineering Current Status specialists (mechanics, assembly-line operators, welders, turners, and instrumentation repairmen);

the company has the experimen tal and production facilities to develop and manufacture quality ceramic parts. The processes involved have been developed and the relevant science-intensive solutions found, to wit:

— the principle of humidity meter operation has been estab lished, with the major parts developed;

— appraisal tests of the major parts have been run;

— nano-doped prototypes in a variety of design and electronic hardware have been manufactured;

— the prototypes have been laboratory-tested on the metrol ogy rig;

— the results have been evaluated, the most promising designs singled out, and a model made.

A Kaluga Region CATALOGUE of R&D Projects in Science and Engineering The cost per device, once production has been ramped up to Financial Plan 100pcs per year, is estimated at 56 thousand rubles;

the price, at 100 thousand rubles.

According to the 4-year plan, 50 devices are to be sold in the course of year 1 at 100 thousand rubles apiece, and 100 pieces thereafter at 100, 120 and 140 thousand rubles apiece.

Sales Plan ITEMS 2010 2011 2012 Volume (pcs) 50 100 100 Price (thousand rubles) 100 100 120 Costs (expenditure per piece, 76 56 54 thousand rubles) The cost of the project in its entirety is 10,000,000 rubles. The project implementation calls for 5,000,000 rubles, with 5,000, rubles invested by Econ out of its own funds.

At a discount rate of 15%, the project’s payback will take year and 6 months.

Experience suggests that, given the scientific, engineering and organizational potential of Econ, the status and prospects of the high-temperature drying equipment market, the prospects of this project are quite promising.

Econ’s engineering and technological solution rights are Intellectual reserved by the following patents and certificates:

Property Rights — Fume Sensor. Invention patent No. 2142129, priority of 10 February 1997.

— Sensing Ceramic Element of the Solid-electrolyte Oxygen Concentration Sensor. Useful model certificate No. 15403, prior ity of 27 April 2000.

— Manufacturing Method for the Sensing Element of the Solid-electrolyte Oxygen Concentration Sensor. Invention pat ent No. 2167415, priority of 25 April 2000.

— Sensing Element of the Oxygen Analyzer and Its Manu facturing Method. Invention patent No. 2339027, priority of December 2007.

— Electro-chemical Cell: Oxygen Sensor and Its Manufac turing Method. Patent application No. 2010112932 of 5 April 2010.

A Kaluga Region CATALOGUE of R&D Projects in Science and Engineering Information for Reference Organisation/Firm Address Close Corporation Econ 1 Bondarenko Sq, Obninsk 249030, Kaluga Region Contact Person Phone Fax Web-site Chernova 8(48439) 6-62-66 8(48439) 6-62-66 econ.obninsk.ru Margarita Efimovna A Kaluga Region CATALOGUE of R&D Projects in Science and Engineering Die-casting Unit for Nanometer Powder-doped Ceramics Econ staff has developed a unique unit for die-casting ce Abstract ramic products from slurry based on oxide powders and their compounds with nanometer dopes through thermoplastic adhesion.

Within the framework of developing an industrial technology End-product for nanometer-doped ceramic powder manufacture, a unique Described unit has been made for forming ceramic products from slurry of highly refractory oxides and their compounds: aluminium oxide Al2O3, magnesium oxide MgO, zirconium dioxide ZrO2, aluminium/magnesium spinel MgAl2O4, mullite 3Al2O3.SiO2, forsterite 2MgO.SiO2, zircon ZrSiO4, as well as corundum ce ramics of the ЦМ-322, ГБ-7 and 22ХС series.

The unit is compact (600х400х600mm) and designed for use in industrial and scientific laboratories, at small enterprises for occasional or batch production. The slurry tank volume: 1–3l.

The die-casting unit can make rods, test tube-like pieces, plates, rings, hubs, discs, etc. Product dimensions: length up to 100mm, crosscut up to 70mm.

Die-casting unit specifications:

Effective temperature of slurry, °С: 30 – Compressed air flow rate, m3/h: 1– Dimensions, mm, no more than: Weight, kg, no more than: Slurry tank capacity, l: 1– The die-casting unit is equipped with a built-in vacuum pump ensuring a pressure of, Pa: 133–1330.

The unit as proposed is necessary to produce reliable high temperature sensors for gas-analyzing devices:

— for power generating enterprises;

— for controlling gas admixtures such as О2 and Н2 in liquid metals as used in nuclear power plants;



Pages:     | 1 |   ...   | 2 | 3 || 5 | 6 |   ...   | 7 |
 





 
© 2013 www.libed.ru - «Бесплатная библиотека научно-практических конференций»

Материалы этого сайта размещены для ознакомления, все права принадлежат их авторам.
Если Вы не согласны с тем, что Ваш материал размещён на этом сайте, пожалуйста, напишите нам, мы в течении 1-2 рабочих дней удалим его.