Transcript Document

Exposure to the company
RosBiogaz company is subsidiary
enterprise of MZTA conglomerate in
Urals and Volga Federal district. The
group addresses the issue of alternative
and renewable energy sources, such as
thermal pumps and biogas units.
The major task s of the enterprise are:
- promotion of biogas know-how;
- development of technical specifications
for design works together with the
customer's representative;
-elaboration of design documentation for a
biogas generation complex;
-mounting works both ready-to-operate
and as installation supervision.
Developed directions
Automatic steering, dispatching of engineering systems of industry facilities,
inhabited and public buildings.
Heating systems with gas furnaces using and thermal pumps(where in the capacity
of a heat source are used: free air, river, lake and sea waters, ground waters, soil heat,
etc.), and also implementation of ring systems with a heat recycling unsuitable for
direct heating (from waste waters, heated products of processes, exhaust air of
ventilation, etc.).
We are popular in America
Among last innovative developments of MZTA it is necessary to note the universal
KONTAR hardware and software suite, capable to solve a problem of automation of
engineering systems wide spectrum, and also heating units. Development of KONTAR
hardware and software suite is not shut down, functionality and communication
possibilities constantly is improved and extend, the assortment of supported devices
continuously replenishes. In March, 2007 Current Energy company (USA) entering
into structure of the Ross Perot's companies, has got the right to manufacture and sale
of KONTAR hardware and software suite in the USA, and also it has concluded with
MZTA the long-term contract on development of KONTAR hardware and software
suite. In the observed design of automation the modern idea of Internet-dispatching
and use as a server building the global server Transamerica Building is realized. The
owner of a global server is the operating company rendering service of access and use of
resources of a server on accumulation, storage and delivery of the information to
assemblage of the companies owning installations of automation or responsible for
their service. The presented system simultaneously keeps communication with two
servers which situated in the USA and Russia (MZTA Moscow server ). All presented
manipulations are accessible from any personal computer completed with a standard
browser (Internet Explorer, Netscape, Opera) and having access to internet. Thus,
there is no need to the presence of the dispatcher onsite: at beginning of a fault the
server independently dispatches an e-mail and sms to the users due to their personal
options.
Transamerica Building office block
Innovative activities
Selection of departure towards alternative sources of power resources was not casual.
Alternative power engineering and the production engineering connected with it are the phenomenon without which, even
despite generosity of our bowels, it is impossible to present the future of any country. Minerals are depleted, therefore already
today it is necessary to search for alternative energy sources.
By efforts of a employees command, systems and the production engineering based by power savings go forward and intrude.
BIOGAS as an alternative :

Biogas is a gases mix of methane and carbon dioxide (the small amount of
hydrogen sulphide, nitrogen, hydrogen is contained)

Calorific value of biogas depends on quantity of methane in it.
The methane maintenance in biogas of 70 %

Average calorific efficiency of biogas makes about 28 mJ/cubic meter
As an example: the lowest combustion value of natural gas in accordance with GOST
5542 not less than 31,8 mJ/cubic meter (at t=20 C and P=101,325 Kpa)
H2
1%
NH3
1%
H2S
2%
CO2
16%
Мethane
(CH4) 70%
С чего все началось
AS ALL BEGAN
Scattered instances of primitive biogas technology have been fixed in China, India, Assyria
and Persia since the 18th century B.C.E. However regular scientific researches of biogas have
begun only in the18th century of our era, after almost 3.5 thousand years. In 1764 Benjamin
Franklin in the letter to Joseph Priestley has presented experiment in which course it could set
fire to a surface of small boggy lake in New Jersey, USA. The first scientific substantiation of
flammable gases formation in marshes and lacustrine deposits was given by Alexander Volt in
1776, which has installed methane presence in a marsh gas. After opening of the methane
chemical formula by Dalton in 1804, the European scientists had been made the first steps in
researches of biogas practical application. The contribution to studying of biogas formation
was brought in also by the Russian scientists. Affection of temperature on quantity of gated
out gas has studied by Popov in 1875. He has found out that river adjournment start to gate
out biogas at temperature approximately 6°С. When increase of temperature to 50°С, the
quantity of gated out gas considerably increased without varying on composition - 65 % of
methane: 30 % of carbonic gas, 1 % of hydrogen sulphide and insignificant quantity of
nitrogen, oxygen, hydrogen and carbon protoxid. V.L.Omeljansky thoroughly investigated the
nature anaerobic fermentation and bacteria participating in it. Soon after that, in 1881,
experiences of the European scientists on use of biogas for premises heating and illumination
of streets have begun. Since 1895, street lamps in one of Exeter’s districts were supplied with
gas, which was gained as a result of waste water fermenting, and gathered in the closed
container. The news about biogas reception in Bombay where gas gathered in a collecting
channel has appeared two years later and was used as engine fuel in various engines.
Development of biogas technologies actually and this day.
The elementary Chinese installation
Whom biogas is necessary ?
Electrical power
Thermoelectric plant
Heat energy
Biogas
Heat generation
(Heating plants)
Cold
Chiller
Gas to gas system
Production
biomethane
Fuel for
transport
Operation concept of typical biogas plant
There are industrial and handicraft plant. Industrial plant contrast with handicraft plant
presence of mechanization, heating systems, homogenization, automatics. The most widespread
industrial method is anaerobic fermentation in methane-tanks. Good biogas plant should have
necessary parts: homogenization container; loader of firm (liquid) raw materials; reactor; rabbles;
gas tank; system of water mixing and heating; gas system; pumping plant; separator; control
devices; PCI with visualization; safety system.
Principle of plant work: biomass (a waste or green weight) periodically move by means of pumping
plant or the loader to the reactor. The reactor represents the warmed up and heat-insulated tank
equipped electric shakers. As a building material for the industrial tank a reinforced concrete or a
coated steel more often serves. In small plant a composite materials are sometimes used. the useful
bacteria eating biomass live in the reactor. Biogas is a waste products of bacteria . For
maintenance of a bacteria life the forage supply, heating to 35-38 °С and periodic mixing are
required. Formed biogas accumulates in storage (gas holder), then passes clearing system and
moves to users (a boiler or the electric generator). The reactor works without an access of air, it is
leakless and harmless.
Frame
Screw charger of
firm raw materials
Reactor
Gasholder
Insulant
Frame coving
Biogas
Mixer
Pumping
plant
Vessel of gathering
and homogenization
of liquid raw materials
Tap refermented
mass
Reactor
heating
by warm
water
Cogeneration
block
Automatics block
Wasteheat
Condensation
drainage
Heat for technological
needs, heatings
The electric power
For fermentation of some types of raw materials in the pure state the special two-stage technology is required. For example, the bird dung, distillery stillage are not
worked overtime in biogas in the usual reactor. The hydrolysis reactor is necessary for rehash of such raw materials in addition. Such reactor allows to control acidity
level, thus bacteria do not perish because of raise of the acidic content or a fines. Rehash of the same substrata on one-stage technology is possible, but at
cofermentation (mixing) with other aspects of raw materials, for example, with manure or a silo. The factors influencing process of fermenting: temperature; humidity
of medium; рН level; relationship C:N:P; the surface square of raw material particles; frequency of substratum supply; restrainers; stimulative additives.
Sewage treatment and biogas generation
Sewage treatment occurs due to methanogenic bacterium life activity lying in anaerobic reactor. Sewage
arrive in the bottom of anaerobic reactor where is a sewage treatment and biogas formation due to
passing through a layer of the granular mud.
Anaerobic reactor
Granular mud
Biogas
Heat
Electric power
Enterprise
Watercourse
Water flow
Cleaned
water flow
Heat power plants on biogas
Use of biogas for the combined manufacture electric and heat energy is the most effective
solution.
Heat power plant
EFFICIENCY over 95 %
Biogas
40 %
Electric energy
60 %
Heat energy
We work in farming and food-processing industry branch
Now necessity to solve questions on effective waste recovery has originated at the agriculture enterprises ,
the food-processing industry, and also at processing plants. In that case biogas generation is a positive economic
benefit as all biogas nearby on its properties to natural gas.
Thus, you gain a useful product from production wastes.
The variances of biogas plants
European technology
Russian technology
Clearing from H2S
Reactor
Screw charger of
firm raw materials
Biogas to user
Gasholder
Insulant
Frame coving
Soft
gasholder
Motor reduction unit
Biogas
Raw
materials
Mixer
Module
1
Module
Module
2
n
Module
n+1
Frame
Pumping
plant
Tap refermented
mass
Waterboiler
Vessel of gathering
and homogenization
of liquid raw materials
Fertilizer liquid
Differences of biogas plants
European bioplant
The reactor (bioreactor) is completely fumetight,
leakproof tank made of acid-proof ferro-concrete. This
design is insulated by a layer of insulant. The thickness
of insulant pays off under concrete environmental
conditions. Within the reactor (the methane-tank, a
fermenter) fixed temperature for microorganisms is
supported. The temperature in the reactor is mesophilic
(30-41°С). In specific cases the reactors with
thermophilic mode (approximately 55°С) are applied.
Mixing of biomass in the reactor is made in several ways.
All mixing devices made of stainless steel. In specific
cases mixing is not mechanical, but hydraulic. Reactor
heating is conducted by warm water. A water
temperature at the inlet of the reactor is 60°С. The
water temperature at the outlet of the reactor is
approximately 40°С. The heating system is a grid of
tubes being inside of reactor wall or on its internal
surface. Average time of hydraulic upholding inside of
the reactor (depending on substrata) is 20-40 days.
Our bioplant
The biogas plant consists of intake vessel, the bioreactor,
storage vessel of liquid fertilizers and the accumulator of
biogas and the soft gasholder. The bioreactor has a modular
construction that allows splicing to increase modules
productivity of the bioreactor with less capital inputs. The
bioreactor is mechanically executed in the form of tubular
plastic or steel vessel with 2 m diameter and 13 m length aflat
positioned and divided into three sections, loading, working
and off-loading. The working section consists of two modules
divided by the module on which the geared motor take
courage. In turn the geared motor drives a horizontal mixers.
In each module of working sector the tubular heat exchanger
for initial heating of the bioreactor is installed. Through the
heat exchanger the hot water warmed up by a water copper
and discharged by circulating pumps. In the first module
mesophilic fermenting process is supported at 30-400С, in
second - thermophilic at 40-570С. It allows to more effectively
ferment biomass and to gain larger biogas exit. A time of
fermenting is 12 days.
Why does you choose us?
Comparative analysis
Average expected useful life
Modularity
Conventional technology
10 years
50 years
No, one big vessel
Yes, escalating while manufacture
expansion
Reactor modules can gather for
facility territories
Serious structural works
Implementation term of biogas plant
Designing of biogas plant for any
volume of raw materials
Routine maintenance
Mobility
Our technology
Economically expediently only at
great volumes of the reactor (from 40
ton)
Installation gathers for any quantity of
raw materials from IBU (individual
biogas units from 1 ton ) to plants of
industrial scale
Process dead stop
Partial stop of process
The design practically can’t be
transferred on other farm – impossible
to splice or reduce reactor volume.
The cast-in-place construction of great
volumes is not dismantled. It is
impossible neither to sell, nor to
increase biogas plant.
Easily transferable modular
construction easily can be sold,
partially or completely transferred on
a new platform.
The sorts of biofuel and biogas outturn
Substrate
Dung of bovine animals (natural 85-88% of humidity)
Pig dung (natural 85% of humidity)
Bird dung
Corn silo
Fresh grass
Lactoserum
Grain
Fruit presscake ( 80% of humidity)
Beet presscake (77% of humidity)
Molasses
Beet tops
Grain barda ( 93% of humidity)
Molasses barda
Brewing waste (80% of humidity)
Fat
Сatch basin skimmings
Slaughterhouse waste
Rhizocarpous vegetables
Industrial glycerin
Fish residues
Biogas outturn,
cubic meter /ton
60
65
80-140
180-220
250
50
550
70
100
430
200
45
50
110
1300
250
300
100
500
300
It is favourable to all
Positive factors from implementation
Waste reclamation
Heat
Biomethanation
Reception of biofertilizers
Electric power
Fuel for car
What will you pay more?
Instance of calculation of the Russian biogas plant:
Subject – chicken farm;
Substrate – waste of poultry stock;
Initial data:
Quantity of
poultry stock:
100000
Quantity of raw material
kg/poultry
ton/day
0,07
7
Выходные данные:
Production of biogas as many as, cubic meter/day
770
Equivalent on the possible produced electric power as many as, kW/ h
77
Quantity of in addition produced thermal energy as many as, kW/ h
90
Quantity of thermal energy produced only as many as, kW/ h
199
Technical and economic assessment
Bioreactor design
Auxiliary equipment
Accessory materials
System installation and adjusting and startup
procedures
Total
1,581,636. 30
1,059,837. 00
412,400.00
1,068,855. 65
4,122,728. 95
According to specified initial data the total cost of biogas plant
installation, will make 4,122,729 roubles.
Pay-back period based on cost of natural gas 3 roubles 02 copecks for 1m3
for the given plant will make 5 years.
Выполним работы «под ключ»
We perform
activities ready-to-operate
Establishment
survey
Collective
operation
Laboratory
analysis
Check out and
start up
Building and
assembling works
Pilot scale test
Designing
Epilogue …
We, employees of Rosbiogaz, are aimed to advance as much as possible production engineering developed in Russia. It is capable to solve problems, both in
territory of the Russian Federation, and behind its limits. The private farm is represented today to one of the most favourable inclusions of means. However frequently
farms considerably are removed from the centralized means of supply and require alternative energy sources. Biogas plants can become them. This favourable solution at
once two problems: rehashes of animal industries waste or plant growing and reception of the alternative energy source for heating and electrification of economic
premises.
Our company offers designing and installation of biogas plants according to requirements of each farm. Working out of each such plant is carried out by our
specialists on the basis of farm specific features. The combination of heat pump plant technology and biogas plants gives unexpected effect: separately taken farm can
become completely independent, spending means only for fuel and lubricants.
That plant worked correctly and served you during long (estimated date of 40 years), it is necessary to design and mount correctly even the smallest parts of
plant. Addressing to specialists of the business, you guarantee gain fine result!
Even more to rationalize manufacture automatics of OJSC MZTA providing control and dispatching of all processes.
The main objective of use of biogas plant consists in rehash of a waste of ability to live of birds, large and a small cattle and other waste of a biological origin,
for reception of biogas and a liquid organic waste which after can be used in agriculture.
Take advantage to ours online of the cost accountant on a site rosbiogas.ru. It will help you to count, what biogas plant will approach for raw materials
volume gained on a farm and as to orient at its cost.
Contact detail
www.rosbiogas.ru
Ekaterinburg
т. +7 (343) 361-31-99
[email protected]
Krasnodar Territory
т.+7(862) 295-71-02
[email protected]
Perm
т. +7(342) 299-99-69
[email protected]